Distinguishing wild ruminant lipids by gas chromatography/combustion/isotope ratio mass spectrometry

Craig, O.E., Allen, R.B., Thompson, A., Stevens, R.E., Steele, Valerie J., Heron, Carl P.

January 2012

No / RATIONALE: The carbon isotopic characterisation of ruminant lipids associated with ceramic vessels has been crucial for elucidating the origins and changing nature of pastoral economies. delta(13)C values of fatty acids extracted from potsherds are commonly compared with those from the dairy and carcass fats of modern domesticated animals to determine vessel use. However, the processing of wild ruminant products in pottery, such as deer, is rarely considered despite the presence of several different species on many prehistoric sites. To address this issue, the carbon isotope range of fatty acids from a number of red deer (Cervus elaphus) tissues, a species commonly encountered in the European archaeological record, was investigated. METHODS: Lipids were extracted from 10 modern red deer tissues obtained from the Slowinski National Park (Poland). Fatty acids were fractionated, methylated and analysed by gas chromatography/combustion/isotope ratio mass spectrometry (GCCIRMS). The delta(13)C values of n-octadecanoic acid and n-hexadecanoic acid, and the difference between these values (Delta(13)C), were compared with those from previously published ruminant fats. RESULTS: Nine of the ten deer carcass fats measured have Delta(13)C values of less than -3.3 per thousand, the threshold previously used for classifying dairy products. Despite considerable overlap, dairy fats from domesticated ruminants with Delta(13)C values less than -4.3 per thousand are still distinguishable. CONCLUSIONS: The finding has implications for evaluating pottery use and early pastoralism. The processing of deer tissues and our revised criteria should be considered, especially where there is other archaeological evidence for their consumption.

Animals

Archaeology

Carbon Isotopes

Isotopic analysis

Organic residues

Deer metabolism

Gas Chromatography-Mass Spectrometry

GC-C-IRMS

Lipid metabolism

Mandible

Palmitic acid analysis

Stearic acids analysis

REF 2014

Manipulation of Lipid Droplet Biogenesis for Enhanced Lipid Storage in Arabidopsis thaliana and Nicotiana benthamiana

Price, Ann Marie

12 1900

In this study, I examined the use of mouse (Mus musculus) Fat Specific Protein 27 (FSP27) ectopically expressed in Arabidopsis thaliana and Nicotiana benthamiana as a means to increase lipid droplet (LD) presence in plant tissues. In mammalian cells, this protein induces cytoplasmic LD clustering and fusion and helps prevent breakdown of LDs contributing to the large, single LD that dominates adipocytes. When expressed in Arabidopsis thaliana and Nicotiana benthamiana, FSP27 retained its functionality and supported the accumulation of numerous and large cytoplasmic LDs, although it failed to produce the large, single LD that typifies adipose cells. FSP27 has no obvious homologs in plants, but a search for possible distant homologs in Arabidopsis returned a Tudor/PWWP/MBT protein coded for by the gene AT1G80810 which for the purposes of this study, we have called LIPID REGULATORY TUDOR DOMAIN CONTAINING GENE 1 (LRT1). As a possible homolog of FSP27, LRT1 was expected to have a positive regulatory effect on LDs in cells. Instead, a negative regulatory effect was observed in which disruption of the gene induced an accumulation of cytoplasmic LDs in non-seed tissue. A study of lrt1 mutants demonstrated that disruption this gene is the causal factor of the cytoplasmic LD accumulation observed in the mutants, that this phenotype occurs in above ground tissues and is present throughout the early growth stages of the plant. Further examination of lrt1 mutant plants has allowed a preliminary understanding of the role LRT1 may play in LD regulation. Taken together, the results of this study point towards some promising strategies to increase LD content in plant tissues.

Arabidopsis

AT1G80810

Bioenergy

CIDEC

Fat-Specific Protein 27

FSP27

Lipid accumulation

Lipid droplet

Lipid droplet fusion

Lipid storage

LRT1

Nicotiana

Plant lipid metabolism

PDS5D

<b>Mathematical modeling of inflammatory response in mammalian macrophages using cybernetic framework and novel information-theoretic approaches</b>

Sana Khanum (19118401)

15 July 2024

<p dir="ltr">Regulation of complex biological processes aims to achieve goals essential for an organism's survival or to exhibit specific phenotypes in response to stimuli. This regulation can occur at several levels, such as cellular metabolism, signaling pathways, gene transcription, mRNA translation into proteins, and post-translational modifications. Systems biology approaches can facilitate integrating mechanistic knowledge and high-throughput omics data to develop quantitative models that can help improve our understanding of regulations at various levels. However, computational modeling of biological processes is challenging due to the vast details of the control processes with unknown details. The cybernetic modeling approach accounts for unknown control mechanisms by defining a biological goal that the system aims to optimize, and subsequently mathematically formulates the cybernetic goal.</p><p dir="ltr">This thesis aims to develop a mathematical framework that integrates a cybernetic model with novel information-theoretic methods to study the inflammatory response in mammalian macrophage cells. The inflammatory response of the body is a protective mechanism that fights off infecting pathogens by inducing the production of immune signaling proteins called cytokines and chemokines, as well as specific lipids known as eicosanoids. However, excessive levels of cytokines and eicosanoids may result in chronic inflammatory diseases such as hyper-inflammation syndrome, COVID-19, and asthma. Only a few studies have focused on modeling AA metabolism, and the developed models utilize Michaelis-Menten kinetics or assume the linear form and can, at best, include control at the gene expression level only. The distinguishing feature of a cybernetic model is that by defining a cybernetic objective, it can account for control at multiple levels, including transcriptional, translational, and post-translational modifications.</p><p dir="ltr">The following paragraphs address a specific research problem, outline the approaches to investigate it, and summarize the key findings.</p><p dir="ltr">First, we studied the cellular response to inflammatory stimuli that produce eicosanoids—prostanoids (PRs) and leukotrienes (LTs)—and signaling molecules—cytokines and chemokines—by macrophages. A few studies suggest that targeting eicosanoid metabolism could be a promising new approach to regulating cytokine storm in COVID-19 infection. We developed a cybernetic model combined with novel information-theoretic approaches to study the integrated system of eicosanoids and cytokines. Our cybernetic model formulates a cybernetic goal, which requires the causal relationship between the eicosanoid and cytokine secretion processes; however, this causal relationship is unknown due to insufficient mechanistic information. We developed novel information-theoretic approaches (discussed later in detail) to understand the causality between eicosanoids and cytokines. The causality result from information theory suggests that Arachidonic acid (AA) may be the cause for initiating the secretion of cytokine TNF. The model captured the data for all experimental conditions, including control, treatment with Adenosine triphosphate (ATP), (3-deoxy-d-manno-octulosonic acid)2-lipid A<i> </i>(KLA), and a combined treatment of ATP and KLA in mouse bone marrow-derived macrophages (BMDM). The model explains the dynamics of metabolite for all experimental conditions, validating the hypothesis. It also enhanced our understanding of enzyme dynamics by predicting their profiles. The results indicated that the dominant metabolites are PGD₂ (a PR) and LTB₄ (an LT), aligning with their corresponding known prominent biological roles during inflammation. Based on the causality and cybernetic model result and using heuristic arguments, we also infer that AA overproduction can lead to increased secretion of cytokines/chemokines. Consequently, a potential clinical implication of this study is that modulating eicosanoid levels could lower TNFα expression, suggesting eicosanoids could be a viable strategy for managing hyperinflammation.</p><p dir="ltr">Second, we studied the dynamics of the anti-inflammatory lipid mediators from eicosapentaenoic acid (EPA) metabolism, which can be beneficial in reducing the severity of diseases such as cancer, cardiovascular effects, and promoting visual and neurological development. This study employed a cybernetic model to study the enzyme competition between AA and EPA metabolism in murine macrophages. The cybernetic model adequately captured the experimental data for control and EPA-supplemented conditions in RAW 264.7 macrophages. The cybernetic variables provide insights into the competition between AA and EPA for the COX enzyme. Predictions from our model suggest that the system undergoes a switch from a predominantly pro-inflammatory state in control to an anti-inflammatory state with EPA supplementation. A potential application of this study is utilizing the model estimation of the ratio of and concentrations required for the switch to occur as 2.2, which aligns with the experimental observations and falls within the recommended range of 1-5 needed to promote anti-inflammatory response.</p><p dir="ltr">Third, we focused on predicting novel causal connections between AA and cytokines using time series analysis as mechanistic information connecting AA and cytokines is unknown. In this work, we developed Time delay Renyi Symbolic Transfer Entropy (TDRSTE), a novel model-free information-theoretic metric. We computed it from high-throughput omics datasets for bivariate non-stationary time series to quantify causal time delays. The TDRSTE method adequately estimated time delay for the synthetic dataset, captured causality for the real-world biological dataset of the AA metabolic network with a prediction accuracy of 80.6%, where it correctly identified 25 out of 31 connections, and detected novel connections between non-stationary lipidomics and transcriptomics profiles for eicosanoids and cytokines, respectively. The results indicate that AA may initiate the secretion of cytokines like TNFα, IL1α, IL18, and IL10. Conversely, cytokines such as IL6 and IL1β may have an early causal impact on AA. These findings suggest a potential causal link between AA and cytokines, paving the way for further exploration with more extensive experimental data in future investigations.</p><p dir="ltr">This thesis develops a theoretical framework that integrates cybernetic modeling technique with novel information-theoretic approaches to study inflammatory response in mouse macrophages. As described in previous paragraphs, the success of cybernetic framework in capturing the dynamic behavior of multiple processes serves to validate the idea that regulation is driven towards achieving cellular goals. The cybernetic framework can be applied to better understand the mechanisms underlying the normal and diseased states, and to predict the behavior of the inflammatory system given a perturbation.</p>

Bioinformatic methods development

Mathematcal Biology

reaction engineering area

lipid metabolism and synthesis

bioinformatics algorithms course

Molecular Mechanisms Underlying Phosphatidylinositol-Specific Phospholipase C Mediated Regulation Of Lipid Metabolism

Rupwate, Sunny Dinkar

05 1900

Phosphoinositide-specific phospholipase C (PLC) is involved in Ca2+ mediated signalling events that lead to altered cellular status. PLC activation causes hydrolysis of phosphatidylinositol 4,5-bisphosphate (PIP2) and generates two second messengers, inositol 1,4,5-trisphosphate (IP3) and 1,2-diacylglycerol. Each has distinct role in depending on the cell type in mammalian cells, IP3 binds to intracellular receptors, stimulating the release of sequestered Ca2+. DAG remains in the membrane, where it can activate members of the protein kinase C (PKC) family. In plant absence of PKC keeps the question open as to what is the role of DAG in plants. The role of IP3 apart form triggering calcium release is not known, although the phosphorylated product of IP3 by groups of kinases has been implicated in certain nuclear signalling pathway. Using various sequence-analysis methods on plant PLC sequences, we identified two conserved motifs in known PLC sequences. The identified motifs are located in the C2 domain of plant PLCs and are not found in any other protein. These motifs are specifically found in the Ca2+ binding loops and form adjoining beta strands. Further, we identified certain conserved residues that are highly distinct from corresponding residues of animal PLCs. The motifs reported here could be used to annotate plant-specific phospholipase C sequences. Furthermore, we demonstrated that the C2 domain alone is capable of targeting PLC to the membrane in response to a Ca2+ signal. We also showed that the binding event results from a change in the hydrophobicity of the C2 domain upon Ca2+ binding. Bioinformatic analyses revealed that all PLCs from Arabidopsis and rice lack a transmembrane domain, myristoylation and GPI-anchor protein modifications. Our bioinformatic study indicates that plant PLCs are located in the cytoplasm, the nucleus and the mitochondria. Our results suggest that there are no distinct isoforms of plant PLCs, as have been proposed to exist in the soluble and membrane associated fractions. The same isoform could potentially be present in both subcellular fractions, depending on the calcium level of the cytosol. we have used Saccharomyces cerevisiae as a model system to investigate physiological function of PLC in regulation of lipid metabolism. S. cerevisiae synthesizes membrane phospholipids via a pathway which appears to be similar to that of higher eukaryotes. The synthesis of glycerolipid begins with the formation of phosphatidic acid which is quantitatively a minor lipid but is responsible for the repression of UNAINO-containing phospholipid biosynthetic gene by governing localization of Opi1. When the levels of phosphatidic acid are lowered which causes translocation of Opi1 from endoplasmic reticulum membrane to nucleus, where it binds to INO2 of the INO2-INO4 activator complex thereby attenuating transcriptional activation. The expression of phospholipid biosynthetic gene is affected by many conditions which include carbon source, nutrient availability, growth stage, pH and temperature. The well studied conditions which regulate phospholipid biosynthetic genes transcription are through exogenous supplementation of inositol, which is achieved by lowering of phosphatidic acid levels by its utilization for the synthesis of phosphatidylinositol. Since inositol was able to change regulates phospholipid biosynthetic gene we proposed to investigate inositol triphosphate role in such regulation. We overexpressed a plant phospholipase C in yeast to study its effect on lipid biosynthesis. The overexpressed yeast cells were subjected to microarray analysis and the result were confirmed by Q-PCR. The result obtained indicated that there was decrease in the expression of UNAINO-containing genes. To further validate our observation we carried out an in vivo assay to determined activity of enzyme involved in phospholipid biosynthesis. These results were in accordance with our expression analysis further supporting our hypothesis. Our study indicates that phospholipase c regulates phospholipid biosynthesis at transcription level in response to various stimuli. Overall, these data suggest that the C2 domain of plant PLC plays a vital role in calcium signalling. Further it can be inferred from this study that PI-PLC regulates lipid metabolism in S. cerevisiae.

Lipid Metabolism

Calcium Signalling

Phosphatidylinositol

Lipid Biosynthesis - Regulation

Phospholipid Biosynthesis

PI-PLC

Biochemistry

Contamination des solutions d’hyper-alimentation intraveineuses (HAIV) néonatales, effet de l’ascorbylperoxyde au foie

Côté, François

12 1900

Introduction : Chez les nouveau-nés prématurés, l’hyper-alimentation intraveineuse (HAIV) contribue à leur survie, mais elle est aussi une source importante de molécules oxydantes. L’absence d’une protection adéquate contre la lumière ambiante génère in vitro, via la photo-excitation de la riboflavine, du H2O2, des peroxydes organiques et un dérivé peroxydé de la vitamine C, l’ascorbylperoxyde (AscOOH). Plusieurs données du laboratoire associent l’infusion d’HAIV à des désordres lipidiques dans notre modèle animal. L’hypothèse est donc que l’AscOOH a un pouvoir oxydant et est responsable de certains des effets biologiques observés. Mes objectifs sont les suivants : 1) développer une méthode de dosage de l’AscOOH; 2) démontrer, à l’aide du modèle animal bien établi au laboratoire, des relations entre la concentration tissulaire de cette molécule et des paramètres métaboliques et l’état redox au foie et dans la circulation; et 3) confirmer l’effet physiologique de l’AscOOH dans un modèle cellulaire. Méthode : Différents étalons internes potentiels ont été testés pour le dosage de l’AscOOH par spectrométrie de masse après séparation sur HPLC (LC-MS). Les phases mobiles et conditions chromatographiques ont été optimisées. Pour l’objectif 2, des cobayes de 3 jours de vie (n=11) ont reçu par voie intraveineuse une dose d’AscOOH (entre 0 et 3,3mM). Les animaux ont été sacrifiés au 4e jour de traitement pour le prélèvement de tissus. Les concentrations tissulaires d’AscOOH ont été déterminées au LC-MS. La triglycéridémie et la cholestérolémie ont été mesurées à l’aide d’un kit commercial par spectrophotométrie. Le glutathion oxydé et réduit ont été mesurés par électrophorèse capillaire. Les relations linéaires obtenues sont exprimées par le ratio des carrés (r2), et traitées par ANOVA. Résultats : La validation du dosage de l’AscOOH par LC-MS a été réalisée. Chez les animaux, la concentration urinaire d’AscOOH par créatinine corrèle positivement avec la dose reçue, négativement avec la lipidémie, et négativement avec le redox sanguin et érythrocytaire, indiquant un milieu moins oxydé. Conclusion : La concentration urinaire d’AscOOH peut donc être un reflet de l’oxydation de l’HAIV en clinique. Nos données chez l’animal suggèrent une interaction de l’AscOOH avec le métabolisme hépatique produisant une chute de la concentration plasmatique de cholestérol et de triglycérides. Le modèle cellulaire n’a pas permis d’élucider le mécanisme moléculaire de l’action de l’AscOOH sur le métabolisme. / Introduction: Intravenous hyperalimentation (IVHA) often contributes to the survival of preterm newborns, but it is also an important source of oxidizing molecules. The lack of adequate protection from ambient light generates, in vitro, through the photo-excitation of riboflavin, H2O2, organic peroxides and a peroxidated derivative of vitamin C: ascorbylperoxide (AscOOH). Certain data from our laboratory linked the infusion of IVHA to lipid disorders in our animal model. The hypothesis is that AscOOH is an oxidant that is responsible for some of the biological effects observed. My objectives are: 1) to develop a method for quantitation of AscOOH, 2) to demonstrate, using the guinea pig model used by our laboratory, relations between the tissue concentration of this molecule and metabolic and redox parameters in the liver and plasma, and 3) to confirm the physiological effect of AscOOH in a cell culture model. Method: Different promising internal standards were tested for AscOOH quantitation by mass spectrometry after HPLC separation (LC-MS). Mobile phases and chromatography conditions have been optimized. For objective #2, 3 days old guinea pig pups (n = 11) received an intravenous dose of AscOOH (between 0 and 3.3mM). Animals were sacrificed on the 4th day of treatment for tissue gathering. Tissues AscOOH concentrations were determined by LC-MS. The triglyceride and cholesterol levels were measured by spectrophotometry using a commercial kit. The oxidized and reduced glutathione were measured by capillary electrophoresis. The linear relations obtained are expressed by the square of the correlation coefficient (r2), and processed by ANOVA. Results: The validation of the LC-MS method for AscOOH quantification has been achieved. In animals, the concentration of urinary AscOOH by creatinine correlates positively with the dose received, negatively with blood lipids, and negatively with blood and erythrocyte redox, indicating a less oxidized environment. Conclusion: The urinary AscOOH concentration may be a good indicator of the oxidation state of clinical IVHA. Our data in animals suggest an interaction between AscOOH and liver metabolism producing a drop in plasma concentration of cholesterol and triglycerides. The cell model was not able to clarify the molecular mechanism of AscOOH action on metabolism.

Nutrition parentérale

Vitamine C

Métabolisme lipidique

Foie

Néonatal

Cobaye

Riboflavine

Photochimie

Ascorbylperoxyde

Hyper-alimentation intraveineuse

Parenteral nutrition

Vitamin C

Lipid metabolism

Liver

Neonatal

Guinea pig

Riboflavin

Photochemistry

Ascorbylperoxide

Intravenous hyperalimentation

Analysis of the Role of Astrocyte Elevated Gene-1 in Normal Liver Physiology and in the Onset and Progression of Hepatocellular Carcinoma

Robertson, Chadia L

01 January 2014

First identified over a decade ago, Astrocyte Elevated Gene-1 (AEG-1) has been studied extensively due to early reports of its overexpression in various cancer cell lines. Research groups all over the globe including our own have since identified AEG-1 overexpression in cancers of diverse lineages including cancers of the liver, colon, skin, prostate, breast, lung, esophagus, neurons and neuronal glia as compared to matched normal tissue. A comprehensive and convincing body of data currently points to AEG-1 as an essential component, critical to the progression and perhaps onset of cancer. AEG-1 is a potent activator of multiple pro-tumorigenic signal transduction pathways such as mitogen-activated protein extracellular kinase (MEK)/ extracellular signal-regulated kinase (ERK), phosphotidyl-inositol-3-kinase (PI3K)/Akt/mTOR, NF-κB and Wnt/β-catenin pathway. In addition, studies show that AEG-1 not only alters global gene and protein expression profiles, it also modulates fundamental intracellular processes, such as transcription, translation and RNA interference in cancer cells most likely by functioning as a scaffold protein. The mechanisms by which AEG-1 is overexpressed in cancer have been studied extensively and it is clear that multiple layers of regulation including genomic amplification, transcriptional, posttranscriptional, and posttranslational controls are involved however; the mechanism by which AEG 1 itself induces its oncogenic effects is still poorly understood. Just as questions remain about the exact role of AEG-1 in carcinogenesis, very little is known about the role of AEG-1 in regulating normal physiological functions in the liver. With the help of the Massey Cancer Center Transgenic/Knockout Mouse Core, our lab has successfully created a germline-AEG-1 knockout mouse (AEG-1-/-) as a model to interrogate AEG-1 function in vivo. Here I present the insights gained from efforts to analyze this novel AEG-1-/- mouse model. Aspects of the physiological functions of AEG-1 will be covered in chapter two wherein details of the characterization of the AEG-1-/- mouse are described including the role of AEG-1 in lipid metabolism. Chapter three discusses novel discoveries about the specific role of AEG-1 in mediating hepatocarcinogenesis by modulating NF-κB, a critical inflammatory pathway. First identified over a decade ago, Astrocyte Elevated Gene-1 (AEG-1) has been studied extensively due to early reports of its overexpression in various cancer cell lines. Research groups all over the globe including our own have since identified AEG-1 overexpression in cancers of diverse lineages including cancers of the liver, colon, skin, prostate, breast, lung, esophagus, neurons and neuronal glia as compared to matched normal tissue. A comprehensive and convincing body of data currently points to AEG-1 as an essential component, critical to the progression and perhaps onset of cancer. AEG-1 is a potent activator of multiple pro-tumorigenic signal transduction pathways such as mitogen-activated protein extracellular kinase (MEK)/ extracellular signal-regulated kinase (ERK), phosphotidyl-inositol-3-kinase (PI3K)/Akt/mTOR, NF-κB and Wnt/β-catenin pathway. In addition, studies show that AEG-1 not only alters global gene and protein expression profiles, it also modulates fundamental intracellular processes, such as transcription, translation and RNA interference in cancer cells most likely by functioning as a scaffold protein. The mechanisms by which AEG-1 is overexpressed in cancer have been studied extensively and it is clear that multiple layers of regulation including genomic amplification, transcriptional, posttranscriptional, and posttranslational controls are involved however; the mechanism by which AEG 1 itself induces its oncogenic effects is still poorly understood. Just as questions remain about the exact role of AEG-1 in carcinogenesis, very little is known about the role of AEG-1 in regulating normal physiological functions in the liver. With the help of the Massey Cancer Center Transgenic/Knockout Mouse Core, our lab has successfully created a germline-AEG-1 knockout mouse (AEG-1-/-) as a model to interrogate AEG-1 function in vivo. Here I present the insights gained from efforts to analyze this novel AEG-1-/- mouse model. Aspects of the physiological functions of AEG-1 will be covered in chapter two wherein details of the characterization of the AEG-1-/- mouse are described including the role of AEG-1 in lipid metabolism. Chapter three discusses novel discoveries about the specific role of AEG-1 in mediating hepatocarcinogenesis by modulating NF-κB, a critical inflammatory pathway.

AEG-1

HCC

NF-κB

LXR

PPARα

Lipid Metabolism

Disease Modeling

Gastroenterology

Genetic Phenomena

Genetic Processes

Hepatology

Immune System Diseases

Medical Immunology

Medical Molecular Biology

Oncology

Impact des hydrocarbures aromatiques polycycliques sur le métabolisme lipidique et le transport du phosphore chez le champignon mycorhizien à arbuscules Rhizophagus irregularis / Polycyclic aromatic hydrocarbons impact on lipid metabolism and phosphorus transport in the arbuscular mycorrhizal fungus Rhizophagus irregularis

Calonne, Maryline

04 December 2012

Les hydrocarbures aromatiques polycyliques (HAPs) figurent parmi les polluants organiques persistants majeurs des sols pollués et présentent une toxicité avérée vis-à-vis de l'homme et des écosystèmes. Parmi les méthodes de remédiation des sols pollués par les HAPs, la phytoremédiation assistée par les champignons mycorhiziens à arbuscules (CMA), pourrait représenter une alternative innovante, écologique et économique. L'utilisation des mycorhizes comme outil de phytoremédiation des sols pollués présente plusieurs avantages dont une meilleure tolérance à la toxicité des HAPs, une meilleure nutrition hydrique et minérale ainsi qu'une meilleure dissipation des HAPs. De rares études ont décrit l'impact des HAPs sur le développement des CMA en lien avec une péroxydation lipidique et une perturbation des teneurs en lipides du CMA, mais ni les cibles d'action de ces polluants au niveau du métabolisme lipidique, ni le rôle de ces modifications dans sa tolérance aux HAPs et dans leur dissipation n'ont été étudiés. C'est pourquoi, le premier objectif de ce travail vise tout d'abord à comprendre l'impact des HAPs sur le métabolisme lipidique. Le radiomarquage par l'acétate [1-¹⁴C] a permis de montrer une perturbation de la biosynthèse des lipides membranaires du CMA extra-racinaire. D'autre part, nos résultats montrent que les HAPs affectent la nutrition phosphatée. Par ailleurs, la capacité des mycorhizes à dégrader et à bioaccumuler le benzo[a]pyrène est démontrée. Enfin, l'implication du métabolisme des lipides de réserve (les triacylglycérols) du mycélium extra-racinaire dans la régénération des membranes altérées, la lutte contre le stress oxydant induit par les HAPs et dans leur métabolisation/bioaccumulation est discutée. / Polycyclic aromatic hydrocarbons (PAHs) are among the major persistent organic pollutant frequently found in the polluted soils and are harmful for human health and its environment. To clean-up the PAHs polluted soils, phytoremediation assisted by arbuscular mycorrhizal fungi (AMF) could represent an innovative, ecological and cost-effective alternative. The use of mycorrhizas, as phytoremediation tool, has several advantages including increased tolerance to the pollutant toxicity, improved water and mineral nutrition as well as a better pollutant dissipation. Few studies have described the impact of PAHs on the AMF development related with lipid peroxidation and total lipid content disturbance. However, so far neither the target action of these pollutants on the metabolism, nor the role of these lipid changes in PAH tolerance and in their dissipation have been studied. Therefore, the present work aims firstly to improve our understanding of the PAHs impact on the CMA lipid metabolism. Thanks to radiolabeling experiments with [1-¹⁴C] acetate, our results showed a disruption of the membrane lipid biosynthesis pathways in the AMF extraradical mycelium, grown in the presence of PAHs. Secondly, it was highlighted that the PAHs affectef the phosphate nutrition. Finally, the mycorrhizas abilities to degrade and to bioaccumulate the benzo[a]pyrene, were pointed out. The involvement of extraradical mycelium storage lipid (triacyglycerols) metabolism in the membrane regeneration, the fight against the PAH induced-oxidative stress and the PAH metabolism/bioaccumulation is discussed.

Hydrocarbures Polycycliques Aromatiques

Champignon Micorhizien Arbusculaire

Phytoremédiation

Métabolisme lipidique

Nutrition phosphatée

Benzo[a]pyrène dégradation

Culture in vitro

Ecotoxicité

Polycyclic aromatic hydrocarbons

Arbuscular mycorrhizal fungus

Phytoremediation

Lipid metabolism

Phosphate nutrition

Benzo[a]pyrene degradation

In vitro cultures

Rhizophagus irregularis

Ecotoxicity

Nuove indagini sul metabolismo e la risposta immunitaria dalla messa in asciutta all'avvio di lattazione / NEW INSIGHT ON METABOLISM AND THE IMMUNE RESPONSE FROM DRY-OFF TO EARLY LACTATION

MEZZETTI, MATTEO

03 April 2019

Il sistema immunitario è costituito da una varietà di cellule, molecole e processi biologici che interagiscono per prevenire le invasioni microbiche, riconoscere le molecole estranee ed eliminare le fonti esistenti di lesioni cellulari, ripristinando le normali funzioni tissutali una volta risolto il problema. L'immunità innata è la prima linea di difesa contro le invasioni di agenti patogeni. Nelle vacche da latte, il suo funzionamento subisce gravi alterazioni durante il periodo di transizione (TP). In questa fase è stata segnalata una compromissione delle funzioni delle cellule polimorfonucleate (PMN) correlate alla produzione di metaboliti reattivi dell'ossigeno (ROM), all’attività della mieloperossidasi (MPO), alla chemiotassi e alla fagocitosi. I PMN bovini hanno un alterata espressione dei geni codificanti per tali funzioni tra -1 e 2 settimane dal parto, rispetto al livello rilevato 4 settimane dopo il parto per gli stessi geni. La causa esatta delle disfunzioni immunitarie che si verificano nel periparto non è mai stata chiaramente identificata. In esse possono contribuire diversi fattori, principalmente imputati alle alterazioni metaboliche tipiche del periparto (cambiamenti nell’assetto ormonale, limitazione della risposta immunitaria materna al fine di mantenere la gravidanza, alterazioni nel bilancio energetico e stato di stress ossidativo). Tuttavia, la durata e l’entità delle disfunzioni immunitarie può aumentare qualora subentri uno stato di squilibrio fisiologico (PI). In tali condizioni, le alterazioni metaboliche del periparto sfuggono al controllo dei meccanismi omeostatici e omeoretici, ed una infiammazione sistemica è la conseguenza frequente di questo squilibrio. Lo stato infiammatorio sistemico è scatenato da un aumento dei livelli di citochine proinfiammatorie (PIC), che è collegato ad un aumento della temperatura corporea al parto, e che tipicamente inficia le funzionalità epatiche, modificando le priorità anaboliche dell'organo in fase di inizio lattazione. A seguito di tale slittamento, il fegato produce più α-globuline, note come proteine positive di fase acuta (+APP), cioè aptoglobina, ceruloplasmina e siero amiloide alfa (SAA). Al contrario, riduce la sintesi di albumina, retinol binding protein (RBP), paraoxonasi (PON) e lipoproteine, note come proteine negative di fase acuta (-APP), e sequestra minerali, quali zinco e ferro, dal flusso ematico. L'infiammazione porta all'attivazione dei PMN, mentre la ridotta competenza immunitaria comunemente riportata in TP è stata associata ad un effetto opposto sui leucociti. Pertanto, questi dovrebbero essere considerati come due fenomeni distinti, ma lo stato di PI potrebbe essere considerato un denominatore comune, direttamente correlato al rischio di patologie in avvio di lattazione. Le strategie nutrizionali per ottimizzare l'immunità delle vacche da latte durante il TP dovrebbero quindi essere focalizzate sulla riduzione del grado di PI correlato al parto. Tra tali strategie nutrizionali, dovrebbe essere presa in considerazione la corretta gestione delle fonti energetiche per adattarle alle variazioni dei fabbisogni. Inoltre, il profilo degli acidi grassi delle fonti lipidiche può contribuire nel modificare le funzioni immunitarie. Infine, la somministrazione di prodotti supplementari con attività antiossidanti o antinfiammatorie, così come di specie donatrici di gruppi metilici, potrebbero essere strategie utili a favorire la funzionalità immunitaria delle bovine durante il TP. In una prospettiva più ampia, sebbene strategie nutrizionali e supplementi possano talora mitigare le alterazioni immunitarie, possiamo concludere che l'adozione di pratiche volte a minimizzare il PI durante il periodo di transizione sia la strategia più efficace per prevenire le disfunzioni. Al fine di chiarire il legame tra le alterazioni che si verificano nel periparto e le disfunzioni immunitarie delle bovine da latte sono stati condotti tre esperimenti. Bovine di razza frisona sono state alloggiate in poste individuali a stabulazione fissa e monitorate regolarmente per le condizioni corporee (BCS), il peso (BW), l'assunzione di alimenti (DMI), la produzione di latte (MY) e il tempo di ruminazione. Campioni di sangue sono stati raccolti regolarmente per valutare un ampio profilo ematochimico e per testare le funzioni dei globuli bianchi mediante stimolazioni ex-vivo. Inoltre, la diapedesi dei PMN è stata testata in vivo mediante test della carragenina e sono stati raccolti campioni di rumine a 30 giorni dal parto (DFC). Il primo esperimento era volto a chiarire le cause dei cambiamenti metabolici che si verificano al momento della messa in asciutta, ed il contributo del livello produttivo in tali alterazioni. Infatti, i profondi cambiamenti nell’alimentazione, gli adattamenti gastrointestinali, del metabolismo e dei parametri immunitari che si verificano nelle bovine alla messa in asciutta sono note scatenare il rilascio di cortisolo, indurre segnali di infiammazione sistemica ed alterare il bilancio redox. Produzioni di latte elevate al momento della messa in asciutta hanno un ruolo nell'aggravare tali condizioni. Nel nostro studio, un gruppo di 13 bovine è stato asciugato a 55 giorni dalla data prevista per il parto. Gli animali sono stati divisi in due gruppi in base alla produzione media dell'ultima settimana di lattazione, assumendo un cut-off di 15 kg * d-1: bassa (LM; 6 animali) e alta produzione (HM; 7 animali). I dati sono stati sottoposti ad ANOVA utilizzando un modello per misure ripetute, assumendo il livello produttivo al termine della lattazione, il tempo e la loro interazione come effetti fissi. L'aumento delle quantità di fibra nella razione di asciutta ha ridotto la DMI e aumentato il tempo di ruminazione. La migrazione dei leucociti nella ghiandola mammaria per contribuire alla fase di involuzione ha ridotto la loro abbondanza nel sangue e aumentato la loro attività. Tale attivazione dei leucociti nella mammella ha aumentato l'abbondanza di specie reattive dell’azoto nel plasma e innescato un'infiammazione sistemica in tutti gli animali (aumento delle +APP e riduzione delle -APP). Tale infiammazione ha compromesso le funzioni epatiche (aumento delle concentrazioni di gamma-glutamil transferasi -GGT- bilirubina e fosfatasi alcalina -ALP-). Sia la produzione di specie dell’azoto che lo stato infiammatorio sistemico hanno contribuito all'esaurimento degli antiossidanti circolanti (gruppi tiolici -SHp-, tocoferolo, β-carotene, potere antiossidante ferrico riducente -FRAP- e capacità antiossidante contro specie reattive dell'ossigeno -ORAC-). Gli animali con una produzione più elevata alla messa in asciutta hanno mostrato la peggiore condizione, probabilmente per i più profondi cambiamenti metabolici che hanno affrontato dopo l'interruzione delle mungiture, e per la fase involutiva verosimilmente più dispendiosa. Questo studio evidenzia la messa in asciutta come una fase critica per gestire la salute delle vacche da latte, e suggerisce un potenziale legame della messa in asciutta con le alterazioni delle funzioni immunitarie che si verificano nel periparto. Nel secondo esperimento si sono cercati di identificare i cambiamenti del sistema immunitario che precedono l'insorgenza della chetosi, al fine di chiarire il loro ruolo nella comparsa della malattia. Pertanto, 13 bovine sono state monitorate tra -48 e 35 DFC e suddivise in due gruppi sulla base dei loro livelli plasmatici di beta idrossibutirrato (BHB): inferiore (CTR, 7 animali) o superiore a 1,4 mMol / L (KET; 6 animali). I dati sono stati sottoposti ad ANOVA utilizzando un modello per misure ripetute, assumendo lo stato di salute, il tempo e la loro interazione come effetti fissi. Le vacche KET hanno avuto una maggiore attivazione del sistema immunitario prima del parto (maggiori concentrazioni plasmatiche di PIC, MPO e specie ossidanti e maggiori produzione di interferone gamma in risposta alla stimolazione con Mycobacterium avium) alterazioni della funzionalità epatica (più alta concentrazione sanguigna di GGT) e minori minerali plasmatici. Elevati livelli plasmatici di NEFA, BHB e glucosio nelle vacche KET suggeriscono uno stato di insulinoresistenza e una marcata mobilizzazione del grasso corporeo durante il periodo di asciutta. Tali andamenti dei parametri relativi al metabolismo energetico durante l’asciutta sono stati associati alla riduzione della DMI al momento del parto e al peggioramento del bilancio energetico negativo ad avvio lattazione. Ciò ha causato a sua volta una riduzione di MY e accresciuto ulteriormente la mobilizzazione dei grassi in avvio di lattazione. Compromissione della funzionalità epatica e attivazione dei leucociti durante il periodo di asciutta hanno determinato una marcata risposta infiammatoria di fase acuta nelle vacche KET dopo il parto (maggiori concentrazioni di +APP minori concentrazioni di RBP), ed ulteriormente compromesso la funzionalità epatica (maggiori concentrazioni di glutammato-ossalacetato transaminasi -AST-GOT- e bilirubina). I leucociti delle vacche KET hanno mostrato ridotte funzioni infiammatorie dopo stimolazione ex-vivo con lipopolisaccaridi batterici (minore produzione di PIC e maggiore produzione di lattato). Queste alterazioni potrebbero essere guidate dall'azione combinata dei metaboliti legati alla mobilizzazione dei lipidi e delle azioni antinfiammatorie volte a prevenire un'infiammazione eccessiva. Ciò suggerisce che le alterazioni dei parametri immunitari osservate prima del parto siano altamente correlate con la probabilità di sviluppare chetosi in avvio di lattazione. Nel terzo esperimento è stato somministrato un prodotto immunostimolante dalla comprovata efficacia nel migliorare le funzioni leucocitarie degli animali immunodepressi e nel ridurre l'incidenza delle malattie infettive delle bovine ad inizio lattazione. La sua modalità di azione non è mai stata chiarita, e un’indagine approfondita sul suo effetto metabolico potrebbe evidenziarne l’efficacia anche nei confronti dei disordini metabolici del periodo di transizione. Pertanto, un gruppo di10 bovine è stato monitorato da -62 a 42 DFC. Il gruppo trattato (TRT, 5 animali) ha ricevuto 32,5 g di Omnigen-AF® (Phibro Animal Health Corporation) due volte al giorno (65 g d-1), mentre il gruppo di controllo (CTR, 5 animali) non ha ricevuto alcun supplemento. I dati sono stati sottoposti ad ANOVA utilizzando un modello per misure ripetute, assumendo il trattamento, il tempo e la loro interazione come effetti fissi. La somministrazione dell’immunostimolante alla messa in asciutta non ha influenzato BW, BCS, MY, composizione del latte e del fluido ruminale e nemmeno modificato la concentrazione di neutrofili del sangue. Tuttavia, ha aumentato il tempo di ruminazione e migliorato il metabolismo energetico dopo il parto (concentrazioni di NEFA e BHB inferiori). Le bovine TRT avevano maggiori concentrazioni ematiche di linfociti e i loro leucociti avevano una maggiore efficienza nel rispondere alla stimolazione con lipopolisaccaridi batterici (produzione di lattato inferiore e minore consumo di glucosio). Nonostante questi effetti positivi sulle cellule immunitarie, l'immunostimolante non ha influenzato le concentrazioni di +APP dopo il parto. Inoltre, l’immunostimolante ha ridotto le concentrazioni di albumina, PON e antiossidanti dopo il parto, suggerendo la compromissione di alcune funzioni epatiche negli animali trattati. Tuttavia, la mancanza di qualsiasi effetto sui biomarcatori di funzionalità (bilirubina) e danno epatico (GGT, AST-GOT, ALP) smentisce una reale compromissione delle attività epatiche a seguito del trattamento. Gli effetti positivi nel favorire il recupero delle funzioni del rumine, riducendo la mobilizzazione dei grassi corporei dopo il parto, suggeriscono che l'immunostimolante sia una strategia efficace nella prevenzione dei disturbi metabolici del periodo di transizione. / Immune system is made of a variety of cells, molecules and biological processes that interacts to prevent microbial invasions, recognize foreign molecules and eliminate existing sources of cellular injuries to restore tissues to their normal functions once problem has been solved. Innate immunity is the primary defense line against pathogens invasions. Its functioning typically undergoes severe alterations during transition period (TP) of dairy cows. An impairment of polymorphonuclear cells (PMN) functions related to reactive oxygen metabolites (ROM) production, myeloperoxidase (MPO) activity, chemotaxis and phagocytosis has been reported in this phase. Bovine PMN have an altered abundance in mRNA transcripts encoding for such functions between -1 and 2 weeks from calving, in comparison to the level found at 4 weeks after calving for the same genes. The exact cause of immune dysfunctions occurring in peripartum has never been clearly identified. Reduced immune competence could arise from the interaction of different factors affected from the typical peripartum trends (i.e. changes in endocrine asset, limitations of maternal immune responses against the allogeneic conceptus, alterations in energy balance and oxidative stress status). Nevertheless, its duration could be modified when peripartal changes exceed the control of homeorhetic and homeostatic mechanisms, leading to the physiological imbalance (PI) condition. Such a condition could also trigger the inflammatory-like status. It consists in a prepartal raise of pro-inflammatory cytokines (PICs) levels, that is linked to a raise in body temperature at calving, and that typically affects liver metabolism, implying severe losses in hepatic functions and a shift of anabolic priority of the organ in early lactation. The liver produces more α-globulins, known as positive acute phase proteins (APP), i.e. haptoglobin, ceruloplasmin and serum amyloid alpha (SAA). Conversely, it reduces the synthesis of albumin, retinol binding protein, paraoxonase (PON) and lipoproteins, known as negative APP and sequesters minerals, as zinc and iron, from blood flow. Inflammation lead to the activation of PMN, while the reduced immune competence commonly reported in TP has been associated to an opposite effect on leukocytes. Thus, these should be considered as two distinct phenomena, but they could arise from a common cause with a different magnitude and duration. Nutritional strategies to optimize dairy cow’s immunity during TP should be focused on reducing the PI degree related to calving, as this condition could be referred as a common denominator between immune dysfunction and diseases causes. Among such nutritional strategies, the correct management of energy sources to fit with altered requirements should be considered. Furthermore, fatty acids profile of lipid sources administered could also modify immune functions. Finally, the administration of supplementary products exerting antioxidant or anti-inflammatory activities, as well as methyl donors species, could be beneficial for dairy cows immunity in TP. In a wider perspective, although feed additives and nutritional strategy could be effective in mitigate immune alterations, we can conclude that adoption of proper management practices aimed to avoid PI condition in peripartal period of dairy cows could be the most effective strategy to prevent dysfunctions. Three experiments have been designed to elucidate the linkage between sudden changes occurring in peripartum and immune alterations in dairy cows. Throughout such experiments Holstein dairy cows were housed in tied stalls and monitored regularly for body condition score (BCS), body weight (BW), dry matter intake (DMI), milk yield (MY) and rumination time. Blood samples were collected regularly to assess a wide hematochemical profile and to test white blood cell functions through ex-vivo challenges. Furthermore, PMN diapedesis has been tested in-vivo through a carrageenan-skin test and rumen samples were collected at 30 days from calving (DFC). The first experiment was aimed in investigate the main causes of metabolic changes occurring at dry-off and the contribution of MY in such alterations. In fact, dry-off is related to deep changes in feeding behavior, gastro intestinal adaptations, metabolism and immune parameters in high-yielding cow’s career. Indeed, the release of cortisol, signals of systemic inflammation and altered redox balance have been reported immediately after milking interruption, and high MY have a role in aggravating such conditions. In our study, a group of 13 Holstein dairy cows were dried off at 55 days from expected calving day, and regularly monitored from -7 to 34 days from dry-off (DFD). Animals were retrospectively divided in two groups according to their average MY in the last week of lactation, assuming a cut-off of 15 kg*d-1: low MY (6 cows) and high MY (7 cows). Data were submitted to ANOVA using a mixed model for repeated measures including MY at dry-off, time and their interaction as fixed effects. Increased fiber amounts of dry ration reduced DMI and increased rumination time. Leukocytes migration into mammary gland to contribute in the involution phase decreased their abundance in blood at dry-off, and their activity. Such activation of leukocytes at mammary site increased the abundance of nitrogen species in plasma and triggered a systemic inflammation in all the animals, as reflected from increased concentrations of positive and reduced concentrations of negative APPs. Such inflammation impaired liver functions, as suggested from the increased gamma-glutamyl transferase (GGT), bilirubin and alkaline phosphatase (ALP) concentrations. Both the production of nitrogen species and the systemic inflammatory status contributed in the depletion of antioxidant system in blood (thiol groups -SHp-, tocopherol, β-carotene, ferric reducing antioxidant power -FRAP- and oxygen reactive antioxidant capacity -ORAC-). Animals with higher MY at dry-off showed the worst condition, likely for the deeper metabolic changes they faced at milking interruption, and to the greater amount of mammary parenchyma to be reabsorbed. This study highlights the dry-off as a thorny point to manage dairy cows’ health and depose for a relationship between dry-off and immune alteration that typically occurs at calving. The second experiment was aimed in investigate changes occurring in the immune system prior to ketosis onset to elucidate their role in disease occurrence. Thus, a group of 13 Holstein dairy cows were monitored from -48 to 35 DFC and retrospectively divided into 2 groups basing on their plasma BHB levels: lower (CTR; 7 cows) or higher than 1.4 mMol/L (KET; 6 cows). Data were submitted to ANOVA using a mixed model for repeated measures including health status, time and their interaction as fixed effects. KET cows had a greater activation of the immune system prior to calving (higher plasma concentrations of PICs, myeloperoxidase and oxidant species, and greater interferon gamma responses to Mycobacterium avium) impaired liver functions (higher blood concentration of GGT) and lower plasma minerals. High plasma NEFA, BHB and glucose levels in KET cows suggest an insulin resistance status and a marked mobilization of body fat occurring during dry period. They were also associated to reduced DMI around calving and worse negative energy balance in early lactation. This caused in turn reduced MY and increased fat mobilization in early lactation. Impairment of liver function and activation of leukocytes during the dry period accentuated the acute phase response in KET cows after calving (greater concentrations of positive APPs and lower concentration of retinol binding protein), further impairing liver function (higher blood concentrations of glutamate-oxaloacetate transaminase -AST-GOT- and bilirubin). Leukocytes of KET cows had reduced inflammatory functions after an ex vivo stimulation assay (lower production of PICs and greater production of lactate). These alterations on WBC could be driven by the combined action of metabolites related to the mobilization of lipids and of anti-inflammatory actions aimed to prevent over exuberant inflammation. This suggests that prepartal trends of immune parameters be highly related with the likelihood of developing diseases in early lactation. The third experiment consisted in the administration of Omnigen-AF (OAF), an immune stimulant that is effective in increasing leukocytes functions in immunosuppressed animals and in reducing incidence of infectious diseases in early lactating dairy cows. Its mode of action has never been elucidated, and a wider perspective of its metabolic effect could highlight its effectiveness in facing metabolic disorders of transition period also. Thus, a group of 10 Holstein dairy cows were divided into 2 groups: treated group (TRT; 5 cows) received 32.5 g of Omnigen-AF® (Phibro Animal Health Corporation) twice a day (65 g d-1) as top-dress on the morning and afternoon feeds, while control group (CTR; 5 cows) did not receive any supplementation. From -62 to 42 DFC animals were monitored regularly. Data were submitted to ANOVA using a mixed model for repeated measures including treatment, time and their interaction as fixed effects. Administration of OAF at dry-off did not affect BW, BCS, milk yield, milk and rumen fluid composition, and neither affected blood neutrophils concentrations. Nevertheless, it increased rumination time and improved the energy metabolism after calving (lower NEFA and BHB concentrations). TRT cows had an increased lymphocytes abundance at blood level, and their leukocytes had greater efficiency in facing biological stressors during the peripartum (lower lactate production and lower glucose consumption after a challenge with bacterial lipopolysaccharides). Despite these positive effects on immune cells, OAF did not affect the positive APPs concentrations after calving. A reduced abundance of albumin, PON and antioxidants also occurred with OAF after calving, suggesting some impairment of hepatic functions to occur. Nevertheless, the lack of any effect on main biomarkers related to liver function (bilirubin) and liver damage (GGT, AST-GOT, ALP) dismisses a real impairment of liver activities to occur with OAF. Positive effects in favoring the recovery of rumen functions, reducing mobilization of body fats after calving suggest OAF to be an effective strategy in preventing metabolic disorders of transition period.

AGR/19: ZOOTECNICA SPECIALE

VET/02: FISIOLOGIA VETERINARIA

Papel do receptor toll-like 4 no metabolismo lipídico hepático / Role of toll-like receptor 4 in hepatic lipid metabolism

Ferreira, Darkiane Fernandes

12 September 2014

Estudos recentes têm demonstrado uma participação importante do receptor toll-like 4 (TLR4) na evolução de doenças envolvendo desordens metabólicas, como a doença do fígado gorduroso não-alcoólico (NAFLD). No entanto, as alterações do metabolismo lipídico que poderiam ser influenciadas pela ativação do TLR4 são desconhecidas. Neste estudo propomos caracterizar o papel do receptor TLR4 no metabolismo de lipídios no fígado de camundongos deficientes para o receptor de LDL, um modelo que desenvolve NAFLD quando submetido a uma dieta rica em gordura saturada e colesterol. Camundongos controle (C57 black6), deficientes para o receptor de LDL (LDLrKO), deficientes para o receptor TLR4 (TLR4KO) ou deficientes para ambos (duplo KO) receberam dieta controle ou hiperlipídica por quatro, oito ou doze semanas. Após o tratamento e sacrifício dos animais, avaliamos o perfil de lipídios plasmáticos, o conteúdo de lipídios do fígado e a expressão gênica de enzimas relacionadas à síntese e degradação de triglicerídeos (TG) e colesterol no fígado. O perfil inflamatório no fígado também foi avaliado. A dieta hiperlipídica induziu uma hipertrigliceridemia e hipercolesterolemia nos animais LDLr KO e duplo KO, sendo que o grupo duplo KO apresentou níveis séricos inferiores de triglicérides (TG) e ácidos graxos livres a partir de oito semanas de tratamento em comparação aos animais LDLrKO. A dieta hiperlipídica também induziu um aumento significativo no conteúdo de TG e de colesterol no fígado de todos os grupos. Na análise da expressão gênica não foram encontradas diferenças na expressão de proteínas relacionadas à síntese de triglicérides e colesterol (ApoB100, MTTP, GPAT1 e GPAT4) entre os grupos. Porém houve aumento significativo na expressão de proteínas relacionadas à oxidação de ácidos graxos (CPT1, MTP, ACOX, PBE, tiolase) e à síntese de ácidos biliares (CYP7a1) no grupo duplo KO em comparação ao grupo LDLr KO. No perfil inflamatório, a expressão de F4/80 demonstrou infiltração de macrófagos significativamente elevada no grupo LDLrKO tratado com a dieta hiperlipídica comparada a todos os outros grupos. No entanto, houve maior expressão de IL-6, IL-1beta e TNF-alfa no grupo duplo KO em comparação ao grupo LDLr KO. Nossos dados sugerem que a ativação do TLR4 no fígado de animais alimentados com uma dieta hiperlipídica pode contribuir para o acúmulo de lipídios e início da esteatose hepática. Estratégias para a inativação hepática do TLR4 podem diminuir a NAFLD não somente devido a diminuição da inflamação, mas por aumentar a oxidação de ácidos graxos no fígado / Recent studies have shown an important role of toll-like receptor 4 (TLR4) in the evolution of diseases involving metabolic disorders, such as non-alcoholic fatty liver disease (NAFLD). However, changes in lipid metabolism regulated by TLR4 activation are still unknown. In this study, we characterized the role of TLR4 receptor in hepatic lipid metabolism of mice deficient for the LDL receptor, a model that develops NAFLD when exposed to a diet rich in saturated fat and cholesterol. We investigated the role of TLR4 activation in the pathogenesis of diet-induced NAFLD by crossing LDLr KO mice with the TLR4 knockout mice (double KO). Animals were fed for 4, 8 or 12 weeks with high-fat diet (HFD) containing 18% saturated fat and 1.25% cholesterol. We evaluated plasma lipid profile, hepatic lipid content and gene expression of enzymes related to the synthesis and degradation of triglycerides and cholesterol in the liver. Liver inflammatory status was also investigated. We observed that HFD induced hypertriglyceri-demia and hypercholesterolemia in LDLr KO and double KO mice, but double KO animals presented lower serum levels of triglycerides and free fatty acids after eight weeks of treatment. HFD also induced a significant increase in liver contents of triglycerides (TG) and of cholesterol in all groups. We did not find differences in the expression of proteins related to triglycerides and cholesterol synthesis (ApoB100, MTTP, GPAT1, GPAT4) between the groups. However, we observed a significant increase in the expression of proteins related to fatty acid oxidation (CPT1, MTP, ACOX, PBE, tiolase ) and bile acid synthesis (CYP7a1) in double KO group in comparison to LDLr KO. Regarding the inflammatory process, F4/80 expression was elevated in LDLr KO mice fed HFD when compared to all groups. On the other hand, IL-6, IL-1beta e TNF-alfa expression was induced by HFD only in double KO mice. Taken together, our results show that TLR4 activation in liver from mice fed on a high-fat diet may contribute to lipid accumulation and steatosis onset. Strategies regarding localized TLR4 inactivation may increase the oxidation of fatty acids and improve NAFLD not only due to decreased inflammation

Ácidos graxos

Camundongos Knockout

Cholesterol

Colesterol

Fatty acids

Fatty liver/metabolism

Fígado

Fígado gorduroso/metabolismo

LDL receptors

Lipid metabolism

Liver

Metabolismo dos lipídeos

Mice Knockout

Receptores de LDL

Toll-like receptor 4

Toll-like receptor 4

Triglicérides

Triglycerides

Mathematische Modellierung der Dynamik von Lipidtropfen in Leberzellen

Wallstab, Christin

03 April 2017

Diese Dissertation befasst sich mit der Dynamik von Lipidtropfen (LDs), die der Speicherung von Lipiden (hauptsächlich Triacylglycerol, TAG) dienen. Das epidemische Auftreten von Adipositas und der sogenannten Fettleber (Steatose) hat das wissenschaftliche Interesse an der Regulation der zellulären Speicherung in LDs stark beflügelt. Es gibt inzwischen zahlreiche Publikationen zu einzelnen Aspekten der Bildung, des Wachstums und des Abbaus von Lipidtropfen. Ein detailliertes mathematisches Modell, das diese Einzelergebnisse in ein konsistentes Bild zusammenfügt, gibt es allerdings nicht. Die Aufstellung, Validierung und Anwendung eines umfassenden mathematischen Modells der Dynamik von LDs steht daher im Mittelpunkt dieser Arbeit. Dieses Modell umfasst unter anderem die Aufnahme von freien Fettsäuren aus dem Blutplasma, die Veresterung zu TAG, die Bildung, das Wachstum und die Lipolyse von Lipidtropfen, die durch etliche regulatorische Oberflächenproteine (ROPs) gesteuert werden. Eine wesentliche Frage im Zusammenhang mit der Entstehung einer Fettleber gilt den Mechanismen, die den heterogenen Fetteinlagerungen in der Leber zugrunde liegen. Eigene Experimente mit humanen Hepatomzellen (PLC) zeigten, dass eine Heterogenität in der TAG-Speicherung auch in isolierten Zellen existiert, wenn man sie einer Fettsäurebelastung unterwirft. Modellsimulationen zeigen, dass Schwankungen in der Expression zentraler regulatorischer Proteine bereits eine Heterogenität bis zu 50% erklären können. Unter der Annahme, dass eine solche Variabilität der Genexpression auch im intakten Organ vorliegt, prognostiziert das Modell eine Variation im TAG-Gehalt einzelner Zellen um einen Faktor drei bis sechs. Zusammenfassend ist zu sagen, dass der Modellansatz zahlreiche experimentelle Ergebnisse von einzelnen Prozessen im zellulären TAG-Metabolismus und im Metabolismus der LD-Dynamik in ein konsistentes, neuartiges und dynamisches Modell eines metabolischen Netzwerks integriert. / This dissertation occupies with the dynamics of lipid droplets (LDs) serving as lipid deposit transporting, mainly triacylglycerol (TAG). The epidemic occurrence of obesity and steatosis has inspired strongly the scientific interest in regulation of hepatic TAG accumulation. There are now numerous publications regarding individual aspects of formation, maturation and lipolysis of LDs. However, a detailed computational model putting together this fractional knowledge is lacking so far. I focus on development, validation and implementation a kinetic model encompassing the pathways of the fatty acids (FFA) and TAG metabolism and the main molecular processes governing the dynamics of LDs. Experiments with primary human hepatocytes incubated with an excess of FFA show a large heterogeneity of TAG content and LD size distribution. Intriguingly, a large cell-to-cell heterogeneity with respect to the number and size of LDs has been found in various cell types. These findings suggest that the extent of cellular lipid accumulation is not only determined by the imbalance between lipid supply and utilization but also by variations in the expression of regulatory surface proteins and metabolic enzymes. To better understand the relative regulatory impact of individual processes involved in the cellular TAG turnover we varied randomly the expression of RSPs and metabolic enzymes. A random fold change by a factor of about 2 in the activity of RSPs was sufficient to reproduce the large diversity of droplet size distributions. Under the premise that the same extent of variability of RSPs holds for the intact organ, our model predicts variations in the TAG content of individual hepatocytes by a factor of about three to six depending on the nutritional regime. Taken together, our modeling approach integrates numerous experimental findings on individual processes in the cellular TAG metabolism and LD dynamics metabolism to a consistent state-of-the-art dynamic network model.

kinetisches Modell

Lipidmetabolismus

Dynamik von Lipidtropfen

PAT-Familie

Steatohepatitis

Lipidtropfen

kinetic model

lipid metabolism

dynamics of lipid droplet

PAT family

lipid droplet

570 Biowissenschaften, Biologie

32 Biologie

YC 7404

WD 2100

ddc:570