Endoderm Patterning in Zebrafish: Pancreas Development: A Dissertation

Alexa, Kristen M.

17 November 2009

The pancreas is located below the liver and adjacent to the small intestine where it connects to the duodenum. It consists of exocrine and endocrine components. The exocrine portion makes enzymes which are deposited in the duodenum to digest fats, proteins, and carbohydrates. Exocrine tissue also makes bicarbonates that neutralize stomach acids. The endocrine portion produces hormones such as insulin and glucagon which are released into the blood stream. These hormones regulate glucose transport into the body's cells and are crucial for energy production. The pancreas is associated with diseases such as cancer, diabetes, Annular pancreas and Nesidioblastosis. Annular pancreas and Nesidioblastosis are congenital malformations associated with excess endocrine tissue of the pancreas and its structures. Understanding the development of the pancreas might lead to insight of these diseases. The pancreas arises from the endoderm. In zebrafish, Nodal signaling activates mix-type and gata genes that then function together to regulate sox32 expression which is necessary and sufficient to induce endoderm formation. Interestingly, sox32 is exclusive to zebrafish and works synergistically with pou5f1 to regulate its own expression and turn on sox17 expression. sox17is evolutionarily conserved from zebrafish to mouse and is necessary for endoderm formation. Signals from within the endoderm and the surrounding mesoderm specify regions in the endoderm to develop into the pancreas and other endodermal organs. Sonic hedgehog (shh) expression in the foregut establishes the anterior boundary of the pancreas primordium while cdx4 expression establishes the posterior boundary, but what regulates these factors is unclear. We determined that two Three Amino Acid Loop Extension (TALE) homeodomain transcription cofactors, Meis3 and Pbx4, regulate shh expression in the anterior endoderm. Disrupting either meis3 or pbx4 reduces shh expression in the anterior endoderm. As a result, anterior ectopic insulin expression occurs outside the normal pancreatic domain. Therefore, we discovered upstream regulatory factors of shhexpression in the anterior endoderm, which is necessary for patterning the endoderm and pancreas primordium. We performed an ENU (N-ethyl-N-nitrosurea) haploid screen to look for endocrine pancreas mutants and to find other factors involved in pancreas development and patterning. From the screen, we characterized two mutants. We identified an aldh1a2 mutant, aldh1a2um22, which blocks the production of Retinoic Acid (RA) from vitamin A. While RA is known to be necessary for differentiation of the pancreas and liver, we also found it to be necessary for intestine differentiation. Two other aldh family genes exist in the zebrafish genome, but our data suggests that aldh1a2is the only Aldh that functions in endoderm differentiation and it is maternally deposited. From the screen, we discovered a second mutant, 835.4, that spontaneously arose within the background. pou5f1 expression is normal in mutant embryos, but sox32 expression is reduced and sox17 expression is lost. Downstream endoderm genes of sox17 are also lost and as a result no endodermal organs develop. Rescue experiments indicate that the mutation is located between sox32 and sox17 in the endoderm pathway. We currently have not been successful at mapping this mutation and therefore are unable to rule out the possibility that it lies in the sox17 gene. However, our data suggest that the mutation occurs in a new gene that is necessary for sox17 expression, potentially working with sox32 and/or pou5f1.

Zebrafish

Zebrafish Proteins

Pancreas

Endoderm

SOX Transcription Factors

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Digestive System

Embryonic Structures

VPS45p as a Model System for Elucidation of SEC1/MUNC18 Protein Function: A Dissertation

Furgason, Melonnie Lynn Marie

09 December 2008

Vesicular trafficking, the movement of vesicles between organelles and the plasma membrane for secretion, consists of multiple highly regulated processes. Many protein families function as specificity and regulatory determinants to ensure correct vesicle targeting and timing of trafficking events. The SNARE proteins dock and fuse vesicles to their target membranes. Sec1/Munc18 (SM) proteins regulate membrane fusion through interactions with the SNAREs—SM proteins have been shown to act as both inhibitors and stimulators of SNARE assembly and membrane fusion. However, the details of these SM protein functions are not understood. Constructing a model of SM protein function has been challenging due to the various modes of interactions reported between SM proteins and their SNAREs. SM proteins interact with their cognate SNAREs and SNARE complexes through several distinct modes. The most conserved mode is an interaction with the syntaxin N-peptide; other modes of binding, such as the syntaxin closed conformation, are hypothesized to be specific for specialized cell types. In order to elucidate the general function of SM proteins, I investigated the function of the endosomal SM protein Vps45p by analyzing its interactions with its cognate syntaxin Tlg2p and its role in SNARE assembly. I had two main hypotheses: that the Tlg2p N-peptide does not solely mediate the interaction between Vps45p and Tlg2p; and that Vps45p functions to stimulate SNARE complex assembly. I systematically mapped the interaction between Vps45p and Tlg2p using various Tlg2p truncations containing the different domains of Tlg2p and discovered a second binding site on Tlg2p that corresponds to the closed conformation. The neuronal SM-syntaxin pair interacts in a similar manner, indicating that this interaction mode is conserved. To characterize the closed conformation binding mode further, and determine its relationship to the N-peptide binding mode, I developed a quantitative fluorescent electrophoretic mobility shift assay. Results indicate that these two sites do not bind simultaneously and that the N-peptide binding modulates the closed conformation affinity. Furthermore, I monitored the effect of Vps45p on SNARE complex assembly using size exclusion chromatography. Under the conditions tested, Vps45p did not appear to stimulate SNARE complex assembly. The work presented here addresses several puzzling issues in the field and significantly contributes to the construction of a new mechanistic model for SM protein function. In this new model, the SM protein is recruited to the membrane by its interaction with the syntaxin N-peptide. The SM protein then binds the syntaxin closed conformation thus inhibiting SNARE complex assembly. Upon dissociation of the SM protein from the closed conformation, an event perhaps regulated by the SM protein, syntaxin opens and interacts with the other SNAREs to form a SNARE complex. Fusion ensues, stimulated by the SM protein.

Vesicular Transport Proteins

Drosophila Proteins

Munc18 Proteins

SNARE Proteins

Qa-SNARE Proteins

Neurons

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

A Multiparameter Network Reveals Extensive Divergence Between <em>C. elegans</em> bHLH Transcription Factors: A Dissertation

Grove, Christian A.

11 September 2009

It has become increasingly clear that transcription factors (TFs) play crucial roles in the development and day-to-day homeostasis that all biological systems experience. TFs target particular genes in a genome, at the appropriate place and time, to regulate their expression so as to elicit the most appropriate biological response from a cell or multicellular organism. TFs can often be grouped into families based on the presence of similar DNA binding domains, and these families are believed to have expanded and diverged throughout evolution by several rounds of gene duplication and mutation. The extent to which TFs within a family have functionally diverged, however, has remained unclear. We propose that systematic analysis of multiple aspects, or parameters, of TF functionality for entire families of TFs could provide clues as to how divergent paralogous TFs really are. We present here a multiparameter integrated network of the activity of the basic helix-loop-helix (bHLH) TFs from the nematode Caenorhabditis elegans. Our data, and the resulting network, indicate that several parameters of bHLH function contribute to their divergence and that many bHLH TFs and their associated parameters exhibit a wide range of connectivity in the network, some being uniquely associated to one another, whereas others are highly connected to multiple parameter associations. We find that 34 bHLH proteins dimerize to form 30 bHLH dimers, which are expressed in a wide range of tissues and cell types, particularly during the development of the nematode. These dimers bind to E-Box DNA sequences and E-Box-like sequences with specificity for nucleotides central to and flanking those E-Boxes and related sequences. Our integrated network is the first such network for a multicellular organism, describing the dimerization specificity, spatiotemporal expression patterns, and DNA binding specificities of an entire family of TFs. The network elucidates the state of bHLH TF divergence in C. elegans with respect to multiple functional parameters and suggests that each bHLH TF, despite many molecular similarities, is distinct from its family members. This functional distinction may indeed explain how TFs from a single family can acquire different biological functions despite descending from common genetic ancestry.

Caenorhabditis elegans

Transcription Factors

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Genetic Phenomena

MicroRNA Markers of Acetaminophen Toxicity: A Master's Thesis

Ward, Jeanine

25 July 2012

Background To investigate plasma microRNA (miRNA) profiles indicative of hepatotoxicity in the setting of lethal acetaminophen (APAP) toxicity in mice. Methods Using plasma from APAP poisoned mice, either lethally (500 mg/kg) or sublethally (150 mg/kg) dosed, we screened commercially available murine microRNA libraries (SABiosciences, Qiagen Sciences, MD) to evaluate for unique miRNA profiles between these two dosing parameters. Results We distinguished numerous, unique plasma miRNAs both up- and down-regulated in lethally compared to sublethally dosed mice. Of note, many of the greatest up- and down-regulated miRNAs, included, but were not limited to, 574-5p, 466g, 466f-3p, 375, 29c, and 148a. There was a statistically significant increase in alanine aminotransferase levels in the lethal compared to sublethal APAP dosing groups at the 12 h time point ( P < 0.001). There was 90% mortality in the lethally compared to sublethally dosed mice at the 48 h time point ( P = 0.011). Conclusion We identified unique plasma miRNAs both up- and down-regulated in lethally dosed APAP poisoned mice.

MicroRNAs

Acetaminophen

Animal Experimentation and Research

Digestive System

Organic Chemicals

Pharmaceutical Preparations

Therapeutics

DNA Damage-Induced Apoptosis in the Presence and Absence of the Tumor Suppressor p53: A Dissertation

McNamee, Laura Michelle

22 October 2008

A key regulator of DNA damage-induced apoptosis is the tumor suppressor gene, p53. p53 is a transcription factor that upregulates genes involved in cell cycle arrest, apoptosis, and senescence. How p53 decides to activate one of these responses in response to DNA damage is largely unanswered. Many have hypothesized it is due to interaction with various signaling pathways and post-translational modification. The p53 tumor suppressor can be modified by SUMO-1 in mammalian cells, but the functional consequences of this modification are unclear. Conjugation to SUMO is a reversible post-translational modification that regulates several transcription factors involved in cell proliferation, differentiation, and disease. In Chapter II, we demonstrate that the Drosophila homolog of human p53 can be efficiently sumoylated in insect cells. We identify two lysine residues involved in SUMO attachment, one at the C-terminus, between the DNA binding and oligomerization domains, and one at the N-terminus of the protein. We find that sumoylation helps recruit Drosophila p53 to nuclear dot-like structures that can be marked by human PML and the Drosophila homologue of Daxx. We demonstrate that mutation of both sumoylation sites dramatically reduces the transcriptional activity of p53 and its ability to induce apoptosis in transgenic flies, providing in vivo evidence that sumoylation is critical for Drosophilap53 function. Many therapeutic cancer treatments rely on DNA-damaging agents to induce apoptosis in cancer cells. However, fifty percent of all human tumors lack functional p53 and p53 mutant cells are partially resistant to damage-induced apoptosis. Therefore, it is important to identify mechanisms to induce apoptosis independent of p53. Drosophila provides a good model system to study p53-independent apoptosis because it contains a single p53 homolog. In Chapter III, we describe a p53-independent mechanism that acts in parallel to the canonical DNA damage response pathway in Drosophila to activate apoptosis in response to inappropriately repaired chromosome breaks. Induction of chromosome aberrations by DNA damage followed by cell division results in segmental aneuploidy and reduced copy number of ribosomal protein genes. We find that activation of the pro-apoptotic gene hid by the JNK pathway acts in a p53-independent mechanism to induce apoptosis and limit the formation of aneuploid cells. Mutations in grp, the Drosophila Chk1 homolog, and puc, a negative regulator of the JNK pathway sensitize p53 mutant cells to IR-induced apoptosis. We propose a model in which the death of cells with reduced copy number of genes required for cell survival helps maintain genomic integrity following chromosome damage

Apoptosis

Genes

p53

DNA Damage

Drosophila

Drosophila Proteins

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Cells

Genetic Phenomena

Neoplasms

Maintaining the Balance: Coordinating Excitation and Inhibition in a Simple Motor Circuit: A Dissertation

Petrash, Hilary A.

06 August 2012

The generation of complex behaviors often requires the coordinated activity of diverse sets of neural circuits in the brain. Activation of neuronal circuits drives behavior. Inappropriate signaling can contribute to cognitive disorders such as epilepsy, Parkinson’s, and addiction (Nordberg et al., 1992; Quik and McIntosh, 2006; Steinlein et al., 2012). The molecular mechanisms by which the activity of neural circuits is coordinated remain unclear. What are the molecules that regulate the timing of neural circuit activation and how is signaling between various neural circuits achieved? While much work has attempted to address these points, answers to these questions have been difficult to ascertain, in part owing to the diversity of molecules involved and the complex connectivity patterns of neural circuits in the mammalian brain. My thesis work addresses these questions in the context of the nervous system of an invertebrate model organism, the nematode Caenorhabditis elegans. The locomotory circuit contains two subsets of motor neurons, excitatory and inhibitory, and the body wall muscle. Dyadic synapses from excitatory neurons coordinate the simultaneous activation of inhibitory neurons and body wall muscle. Here I identify a distinct class of ionotropic acetylcholine receptors (ACR-12R) that are expressed in GABA neurons and contain the subunit ACR-12. ACR-12R localize to synapses of GABA neurons and facilitate consistent body bend amplitude across consecutive body bends. ACR-12Rs regulate GABA neuron activity under conditions of elevated ACh release. This is in contrast to the diffuse and modulatory role of ACR-12 containing receptors expressed in cholinergic motor neurons (ACR-2R) (Barbagallo et al., 2010; Jospin et al., 2009). Additionally, I show transgenic animals expressing ACR-12 with a mutation in the second transmembrane domain [ACR-12(V/S)] results in spontaneous contractions. Unexpectedly, I found expression of ACR-12 (V/S) results in the preferential toxicity of GABA neurons. Interestingly loss of presynaptic GABA neurons did not have any obvious effects on inhibitory NMJ receptor localization. Together, my thesis work demonstrates the diverse roles of nicotinic acetylcholine receptors (nAChRs) in the regulation of neuronal activity that underlies nematode movement. The findings presented here are broadly applicable to the mechanisms of cholinergic signaling in vertebrate models.

Caenorhabditis elegans

Motor Neurons

Nicotinic Receptors

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Nervous System

Neuroscience and Neurobiology

Importance of the Microhabitat and Microclimate Conditions in the Northern Gray-cheeked Salamander (Plethodon montanus) Across an Elevation Gradient

Chapman, Trevor

01 December 2022

The southern Appalachian Mountains have among the highest salamander diversity in the world, largely due to local speciation in the family Plethodontidae. Plethodontid salamanders (i.e., lungless salamanders) are particularly sensitive to habitat climate conditions due to their reliance on cutaneous respiration, and their immediate environmental conditions (microhabitat) likely influence their dispersion and activity more than the large-scale atmospheric conditions. The Northern Gray-cheeked salamander (Plethodon montanus) is restricted to high elevations in the Appalachian Mountains. Our goal was to investigate the relationship between P. montanus and its microhabitat by examining behavioral preference for climatic conditions, characterizing the microclimate with small-scale models, and testing for differences in stress hormones at different elevations. We found that behavioral preference is most restricted by relative humidity, microclimate models predicted far less prevalence at lower elevations than typical coarse-scale models, and stress hormones were elevated at a low elevation plot compared to a high elevation plot.

lungless salamander

microclimate

stress hormones

behavior

Animal Experimentation and Research

Behavior and Ethology

Endocrinology

Integrative Biology

Other Ecology and Evolutionary Biology

Postconditioning the isolated perfused rat heart : the role of kinases and phosphatases

Van Vuuren, Derick

03 1900

Thesis (MScMed)--Stellenbosch University, 2008. / ENGLISH ABSTRACT: It has recently been observed that the application of multiple short cycles of reperfusion and ischaemia, at the onset of reperfusion, elicits cardioprotection against injury due to prior sustained ischaemia. This phenomenon has been termed “postconditioning” (postC) and is of special interest due to its clinical applicability. Although much work has been done to delineate the mechanism of protection, there is still controversy regarding the precise algorithm of postC, the importance of the reperfusion injury salvage kinases (RISK), as well as uncertainty about the possible role of p38 MAPK and the protein phosphatases in postC cardioprotection. The aims of this study were therefore: I. To develop and characterise a cardioprotective postC protocol in the ex vivo rat heart, using both the retrogradely perfused and working heart models. II. To characterise the profiles of PKB/Akt, ERK p42/p44 and p38 MAPK associated with the postC intervention. III. To investigate the possible role of the serine/threonine protein phosphatases type 1 and type 2A (PP1 and PP2A) in the mechanism of postC. Hearts from male Wistar rats were perfused in both the retrograde Langendorff (at a perfusion pressure of 100 cmH2O and diastolic pressure set between 1 and 10 mmHg) and working heart models (preload: 15 cmH20 and afterload: 100 cmH20). Several different postC protocols were tested for their cardioprotective effect, as analysed by infarct size (IFS; determined by triphenyltetrazolium chloride (TTC) staining) and functional recovery. Experimental parameters tested were the number of cycles (3,4 or 6), the duration of the cycles (10, 15, 20 or 30 seconds), the method of application (regional or global) and temperature during the intervention (36.5 or 37 °C). Different sustained ischaemic insults were also utilised: 35 minutes regional (RI) or 20, 25, 30 and 35 minutes global ischaemia (GI). Hearts treated with a cardioprotective postC intervention or standard reperfusion after sustained ischaemia, were freeze-clamped at 10 and 30 minutes reperfusion in both perfusion models. Tissue samples were then analyzed using Western blotting, probing for total and phosphorylated PKB/Akt, ERK p42/p44 and p38 MAPK. The contribution of PKB/Akt and ERK p42/p44 activation to cardioprotection was also investigated by administration of inhibitors (A6730 and PD098059 respectively) in the final 5 minutes of ischaemia and the first 10 minutes of reperfusion, in the presence and absence of the postC intervention. The effect of these inhibitors were analyzed in terms of IFS and kinase profiles. The possible role of the phosphatases in postC was investigated by observing the effect of cantharidin (a PP1 and PP2A inhibitor) treatment directly before sustained ischaemia (PreCanth) or in reperfusion (PostCanth), in the presence and absence of postC, on IFS and kinase profiles. A postC protocol of 6x10 seconds global reperfusion / ischaemia, at 37°C, was found to give the best and most consistent reduction in infarct size in both the Langendorff (IFS in NonPostC: 47.99±3.31% vs postC: 27.81±2.49%; p<0.0001) and working heart (IFS in NonPostC: 35.81±3.67% vs postC: 17.74±2.73%, p<0.001) models. It could however only improve functional recovery in the Langendorff model (after 30 minutes GI: rate pressure product (RPP) recovery: NonPostC = 12.27±2.63% vs postC = 24.61±2.53%, p<0.05; and after 35 minutes GI: left ventricular developed pressure (LVDP) recovery: NonPostC = 28.40±7.02% vs postC = 48.49±3.14%, p<0.05). This protection was associated with increased PKB/Akt (NonPostC: 0.88±0.26 AU (arbitrary unit) vs postC: 1.65±0.06 AU; p<0.05) and ERK p42 (NonPostC: 2.03±0.2 AU vs postC: 3.13±0.19 AU; p<0.05) phosphorylation. Inhibition of PKB/Akt activation with A6730 (2.5 μM) abrogated the infarct sparing effect of postC. Administration of cantharidin, either before of after ischaemia, in the absence of postC, conferred an infarct sparing effect (IFS in PreCanth: 15.42±1.80%, PostCanth: 21.60±2.79%; p<0.05) associated with an increase in the phosphorylation of MAPK p38 (administration before ischaemia: NonCanth: 1.52±0.26 AU vs PreCanth: 2.49±0.17 AU, p<0.05; and administration after ischaemia: NonCanth: 5.64±1.17 AU vs PostCanth: 10.69±1.29 AU, p<0.05) and ERK p42 (when administered in reperfusion; NonCanth: 2.24±0.21 AU vs PostCanth: 3.34±0.37 AU; p<0.05). Cantharidin treatment combined with the postC intervention did not elicit an additive infarct sparing effect (postC: 17.74±2.72%, PreCanth-postC: 13.30±3.46% and PostCanth-postC: 15.39±2.67%). In conclusion: a postC protocol of 6x10 seconds global ischaemia / reperfusion, at 37°C, confers the best infarct sparing effect in both the Langendorff and working rat heart models. This protection is associated with ERK p42 and PKB/Akt phosphorylation, although only PKB/Akt is necessary for cardioprotection. We could not find evidence for PP1 and PP2A involvement in postC, although inhibition of these phosphatases per se does elicit an infarct sparing effect. The latter observation suggests that phosphatase activation during ischaemia / reperfusion is potentially harmful. / AFRIKAANSE OPSOMMING: Dit is onlangs waargeneem dat toediening van meervoudige siklusse herperfusie / iskemie, met die aanvang van herperfusie, die hart teen iskemie / herperfusie beskadiging beskerm. Hierdie verskynsel, bekend as postkondisionering (postC), geniet tans baie aandag vanweë die kliniese toepaslikheid van die ingreep. Ten spyte van intensiewe navorsing om die betrokke meganisme van beskerming vas te stel, is daar steeds kontroversie oor die presiese algoritme van die ingreep, asook die betrokkenheid van die sogenaamde iskemie herperfusie oorlewings kinases (RISK). Daar bestaan ook onsekerheid oor die rol van die stres-kinase, p38 MAPK, asook die proteïen fosfatases in die meganisme van beskerming teen iskemiese besering. Hierdie studie het dus drie doelstellings gehad: I. Ontwikkeling van ‘n postC protokol wat beskerming ontlok in die rothart ex vivo, deur gebruik te maak van beide die retrograad geperfuseerde ballon model, asook die werkhart model. II. Analiese van die profiele van die kinases PKB/Akt, ERK p42/p44 en p38 MAPK tydens herperfusie van postC en kontrole (NonPostC) harte. III. Ondersoek na die moontlike rol van die serien / treonien proteïen fosfatases tipe 1 en tipe 2A (PP1 en PP2A) in die meganisme van postC beskerming. Harte van manlike Wistar rotte is geperfuseer in beide die retrograad geperfuseerde ballon (d.i. die Langendorff) model (teen ‘n konstante perfusie druk van 100 cmH20 en ‘n diastoliese druk gestel tussen 1 en 10 mmHg), asook die werkhart model (teen ‘n voorbelading van 15 cmH20 en ‘n nabelading van 100 cmH20). Verskeie moontlike postC protokolle is getoets vir hul vermoë om kardiobeskerming te ontlok, in terme van funksionele herstel en infarktgrootte (IFS), soos bepaal deur trifenieltetrazolium chloried (TTC) kleuring. Die eksperimentele veranderlikes tydens die postC protokol wat ondersoek is, sluit in: die aantal siklusse (3, 4 of 6), die duur van die siklusse (10, 15, 20 of 30 sekondes), die wyse van postC toediening (streeks of globaal) en laastens die temperatuur tydens die ingreep (36.5 of 37 °C). Daar is ook gebruik gemaak van verskillende periodes iskemie: 35 minute streeks iskemie (RI), asook 20, 25, 30 en 35 minute globale iskemie (GI). Na 10 of 30 minute herperfusie is harte wat blootgestel is aan ‘n kardiobeskermende postC ingreep of gewone standaard herperfusie na iskemie, in beide perfusie modelle, gevriesklamp. Die weefsel proteïen-inhoud is verder geanaliseer deur van die Western blot tegniek gebruik te maak vir bepaling van die totale en fosforileerde vlakke van PKB/Akt, ERK p42/p44 en p38 MAPK. Die funksionele belang van PKB/Akt en ERK p42/p44 is verder ondersoek deur die effek van ‘n geskikte inhibitor (onderskeidelik A6730 en PD098059, toegedien tydens die laaste 5 minute van iskemie en die eerste 10 minute van herperfusie), in die teenwoordigheid en afwesigheid van die postC ingreep, op infarktgrootte en kinase aktiwiteit te monitor. Die moontlike rol van proteïen fosfatases in postC is ondersoek deur die effek van cantharidin (‘n PP1 en PP2A inhibitor) op infarktgrootte en kinase profiele te ondersoek. Cantharidin is óf onmiddelik voor iskemie óf tydens herperfusie toegedien, in die aan – en afwesigheid van die postC ingreep. Daar is bevind dat ‘n postC protokol van 6x10 sekondes globale iskemie / herperfusie, teen 37°C, die mees effektiewe en konstante verlaging in infarktgrootte teweeg gebring het in beide die ballon model (IFS in NonPostC: 47.99±3.31% vs postC: 27.81±2.49%; p<0.0001), asook die werkhart (IFS in NonPostC: 35.81±3.67% vs postC: 17.74±2.73%, p<0.001). Funksionele herstel kon egter slegs ontlok word in die ballon model (na 30 minute GI: tempo druk produk (RPP) herstel: NonPostC = 12.27±2.63% vs postC = 24.61±2.53%, p<0.05; en na 35 minute GI: linker ventrikulêre ontwikkelde druk (LVDP) herstel: NonPostC = 28.40±7.02% vs postC = 48.49±3.14%, p<0.05). Die infarkt-besparende effek van postC was geassosieer met ‘n toename in die fosforilasie van beide PKB/Akt (NonPostC: 0.88±0.26 AU (arbitrêre eenhede) vs postC: 1.65±0.06 AU; p<0.05) en ERK p42 (NonPostC: 2.03±0.2 AU vs postC: 3.13±0.19 AU; p<0.05). Inhibisie van PKB/Akt met A6730 (2.5 μM) het die infarkt-besparende effek van postC opgehef. Inhibisie van PP1 en PP2A opsigself, deur toediening van cantharidin óf voor óf na iskemie (in die afwesigheid van postC), het ‘n infarkt-besparende effek ontlok (IFS in PreCanth: 15.42±1.80%, PostCanth: 21.60±2.79%; p<0.05). Hierdie kardiobeskerming was geassosieer met ‘n toename in die fosforilasie van beide p38 MAPK (met toediening voor iskemie: NonCanth: 1.52±0.26 AU vs PreCanth: 2.49±0.17 AU, p<0.05; en toediening na iskemie: NonCanth: 5.64±1.17 AU vs PostCanth: 10.69±1.29 AU, p<0.05), asook ERK p42, indien cantharidin toegedien is tydens herperfusie (NonCanth: 2.24±0.21 AU vs PostCanth: 3.34±0.37 AU; p<0.05). Kombinasie van cantharidin behandeling met postC toediening kon egter nie ‘n kumulatiewe infarkt-besparende effek uitlok nie (postC: 17.74±2.72%, PreCanth-postC: 13.30±3.46% en PostCanth-postC: 15.39±2.67%). In samevatting: ‘n PostC protokol van 6x10 sekondes globale iskemie / herperfusie, teen 37°C, ontlok die mees effektiewe infarkt-besparende effek in beide die ballon, sowel as die werkhart modelle. Alhoewel hierdie beskerming geassosieer is met ‘n toename in die fosforilasie van beide PKB/Akt en ERK p42/p44 tydens herperfusie, is dit slegs PKB/Akt wat van funksionele belang is in die meganisme van kardiobeskerming. Ons kon geen bewyse vind vir die betrokkenheid van PP1 en PP2A in postC beskerming nie, alhoewel inhibisie van hierdie fosfatases opsigself infarkt-besparend is. Laasgenoemde waarneming toon dat fosfatase aktivering tydens iskemie / herperfusie skadelike gevolge mag hê.

Animal experimentation -- Research

Reperfusion (Physiology)

Rats as laboratory animals -- Research

Phosphateses

Kinases

Theses -- Medicine

Dissertations -- Medicine

Axe intestin-cerveau : effets de la production d’indole par le microbiote intestinal sur le système nerveux central / Gut-brain axis : effects of the indole production by the gut microbiota on the central nervous system

Jaglin, Mathilde

13 December 2013

Le tube digestif héberge une communauté microbienne complexe, le microbiote intestinal, dont les capacités métaboliques sont plus riches et diversifiées que celles codées par le génome de l'hôte. L'implication du microbiote intestinal dans divers aspects de la physiologie de l'hôte, comme le métabolisme nutritionnel et l'immunité, est depuis longtemps étudiée. En revanche, l'action potentielle du microbiote sur le développement et le fonctionnement du cerveau constitue une nouvelle piste de recherche, encore peu explorée. Dans ce contexte, nous avons réalisé une première étude générale de l'action du microbiote intestinal sur le cerveau en comparant les fonctions sensori-motrices, le comportement de type anxieux, l'état d'activation de l'axe hypothalamo-hypophyso-surrénalien et le profil cérébral des monoamines de rats F344 axéniques et conventionnels. Les résultats révèlent que, chez cette lignée particulièrement sensible au stress, l'absence de microbiote intestinal exacerbe le comportement de type anxieux et la réponse hormonale au stress, et atténue le métabolisme dopaminergique cérébral. Afin d'étudier par quel moyen le microbiote peut agir sur le cerveau, une seconde étude a été menée, ciblant un métabolite bactérien spécifique, l’indole, dont certains dérivés oxydés par le foie sont connus pour avoir des propriétés neuroactives. L'indole est un métabolite naturel du microbiote intestinal, dont la surproduction pourrait survenir lors d'une dysbiose du microbiote. Deux cas de surproduction ont été modélisés : chronique et aiguë. Dans les deux cas, des modifications importantes du comportement de l'hôte ont été observées. En situation de surproduction chronique, l'indole favorise des comportements de type anxieux et dépressif, tandis qu'une surproduction aiguë a un effet sédatif marqué. D'un point de vue mécanistique, nous confirmons que l’indole peut agir sur le système nerveux central par la voie sanguine impliquant les dérivés oxydés et montrons pour la première fois qu'il peut aussi agir en activant les noyaux cérébraux du nerf vague. / The gastro-intestinal tract hosts a complex microbial community, the gut microbiota, whose collective genome coding capacity vastly exceeds that of the host genome. The involvement of the gut microbiota in various aspects of the host physiology, such as the nutritional metabolism and the immunity, has long been studied. In contrast, the possible action of the gut microbiota on brain development and functioning is a new line of research, still poorly explored. In this context, we performed a first general study of the effect of gut microbiota on the brain by comparing the sensory-motor functions, the anxiety-like behaviour, the activation of the hypothalamic-pituitary-adrenal axis and the brain monoamine profile in germ-free and conventional F344 rats. The results show that, in this particularly stress-sensitive strain, absence of gut microbiota exacerbates the anxiety-like behaviour and neuroendocrine response to stress, and reduces brain dopamine metabolism. To investigate the means by which the microbiota can affect the brain, a second study was conducted, targeting a specific bacterial metabolite, indole, whose oxidative derivatives, produced by the liver, are known to have neuroactive properties. Indole is a natural metabolite of the gut microbiota, whoseoverproduction could occur during a microbiota dysbiosis. Two conditions of overproduction, namely chronic and acute, were modelled. In both cases, significant changes in the behaviour of the host were observed. In chronic overproduction, indole promotes anxiety- and depressive-like behaviours, while acute overproduction has a marked sedative effect. From a mechanistic point of view, we confirm that indole can act on the central nervous system through its oxidized derivatives and show for the first time that it can also act by activating the brain nuclei of the vagus nerve.

Microbiote intestinal

Indole

Tryptophane

Cerveau

Symptômes neuropsychiatriques

Rat à microbiote contrôlé

Comportement

Expérimentation animale

Intestinal microbiota

Indole

Tryptophan

Brain

Neuropsychiatric symptoms

Gnotobiotic rats

Behaviour

Animal experimentation

Efeitos da fração inspirada de oxigênio nos volumes pulmonares regionais após oclusão lobar seletiva em modelo fisiológico de redução volumétrica pulmonar endoscópica com válvulas unidirecionais / Effects of inspired oxygen fraction on regional lung volumes during selective lobar occlusion in a physiological model of endoscopic lung volume reduction with one-way endobronchial valves

Torsani, Vinicius

13 June 2019

Introdução - Pacientes com enfisema pulmonar avançado submetidos a redução volumétrica pulmonar endoscópica (ELVR) com válvulas unidirecionais (EBV) apresentam melhores resultados quando o lobo tratado não possui ventilação colateral e atelectasia lobar é alcançada. No entanto, a resposta positiva de desinsuflação está associada a maior ocorrência de pneumotórax nessa população. Recomendações recentes enfatizam a importância de condutas no intra- e pós-operatório que busquem minimizar os riscos associados, porém muito pouco é abordado em relação ao manejo da ventilação mecânica durante a intervenção. Elevada fração inspirada de oxigênio (FiO2) é reconhecida na indução de atelectasia por absorção e pode desempenhar um papel relevante na modulação de redução volumétrica após oclusão seletiva. Atualmente não se monitora os efeitos regionais da ELVR com EBV em tempo real. A tomografia de impedância elétrica (TIE) é uma ferramenta de imagem não-invasiva e sem radiação que fornece dados regionais em tempo real de variação de volume pulmonar por meio de uma cinta de eletrodos aplicadas no tórax. Neste contexto, o objetivo deste estudo é usar a TIE para avaliar a influência da FiO2 na ELVR com EBV em um modelo experimental de pulmão normal suíno, animal que não possui ventilação colateral. Métodos - 5 suínos foram submetidos a um estudo cruzado de oclusão do lobo inferior esquerdo por dois métodos, válvulas unidirecionais (válvulas) e cateter-balão intrabronquial (balão), com FiO2 de 50% e 100% por 15 minutos em cada etapa. O balão serviu como um controle, com oclusão assegurada por visão direta via broncoscópio e medida da pressão expiratória distal à oclusão em um animal representativo. A pressão expiratória positiva final usada foi titulada pela TIE para cada animal e recrutamento alveolar foi realizado ao final de cada etapa para reverter o colapso induzido. Foram analisados o mínimo Z (MinZ), como estimativa do volume pulmonar ao final da expiração, e o DeltaZ, variação cíclica proporcional ao volume corrente, ambos expressos em unidades arbitrárias de variação relativa, desde antes da oclusão (Pré) e em cada minuto do momento da oclusão (T0) até 15 minutos (T15). Em um animal adicional foi realizada aquisição simultânea de tomografia computadorizada (TC) e TIE para quantificação do conteúdo de gás. Em todas as análises as regiões de interesse foram direita (Dir) e esquerda (Esq). Resultados - Houve redução rápida e progressiva do MinZ Esq após oclusão com balão, sendo a magnitude quase 3 vezes maior na FiO2 de 100% comparada a 50% (p < 0,001). Com válvulas a 50% o MinZ Esq apresentou redução inicial, mas teve incremento progressivo de forma que em T15 não mostrou diferença em relação ao Pré (p=0,20). Em média, o MinZ Dir não sofreu alteração significativa. Os dados da TC e pressão distal tiveram padrão similar aos achados de MinZ da TIE. O DeltaZ Esq apresentou redução imediata após oclusão e se manteve estável ao longo dos 15 minutos, sem diferença entre as FiO2 em cada método de oclusão. Conclusão- FiO2 a 100% promove maior taxa de redução volumétrica secundária a oclusão lobar seletiva quando comparado a 50% e a TIE apresentou resultados coerentes e concordantes com métodos complementares / Introduction - Patients with advanced pulmonary emphysema undergoing endoscopic lung volume reduction (ELVR) with one-way endobronchial valves (EBV) present better results when the treated lobe has negative collateral ventilation and lobar atelectasis is achieved. However, the positive response of deflation is associated with a higher occurrence of pneumothorax in this population. Recent recommendations emphasize the importance of intra- and postoperative procedures that seek to minimize the associated risks, but very little is addressed regarding the management of mechanical ventilation during the intervention. High inspired oxygen fraction (FiO2) is known to induce atelectasis by absorption and may play a relevant role in the modulation of volumetric reduction after selective occlusion. Currently, regional effects of ELVR with EBV is not monitored in real-time. Electrical impedance tomography (EIT) is a non-invasive and radiation-free imaging tool that provides regional real-time lung volume variation data by means of an electrode belt applied to the chest. In this context, the objective of this study is to use EIT to evaluate the influence of FiO2 on ELVR with EBV in an experimental normal lung swine model, an animal that lacks collateral ventilation. Methods - Five pigs were used in a crossover study of left lower lobe occlusion by two methods, one-way valves (valves) and intrabronchial balloon catheter (balloon), with FiO2 of 50% and 100% for 15 minutes at each stage. The balloon served as a control, where occlusion was ensured by direct bronchoscopic inspection and allowed a measurement of expiratory pressure distal to the occlusion in a representative animal. The positive end-expiratory pressure used was titrated by EIT for each animal and alveolar recruitment was performed at the end of each step to reverse the induced collapse. Minimum impedance value (MinZ) was recorded as an estimate of end-expiratory lung volume and tidal impedance variation (DeltaZ) as proportional to tidal volume, both expressed in arbitrary units of relative variation, from pre-occlusion (Pre) and every minute since occlusion (T0) up to 15 minutes (T15). In an additional animal, simultaneous acquisition of computed tomography (CT) and EIT was performed to quantify gas content. In all the analysis, regions of interest were right (R) and left (L). Results - There was a rapid and progressive reduction of MinZ-L after occlusion, with almost 3 times greater magnitude in FiO2 100% compared to 50% (p < 0.001). With valves at 50%, the MinZ-L presented initial reduction, but had a progressive increase so that in T15 there was no difference in relation to Pre (p = 0.20). On average, MinZ-R did not change significantly. CT and distal pressure data were consistent with EIT MinZ findings. DeltaZ-L presented immediate reduction after occlusion and remained stable throughout all 15 minutes, with no difference between FiO2 in each method of occlusion. Conclusion- FiO2 of 100% promotes greater rate of volumetric reduction following selective lobar occlusion when compared to 50%, and EIT presented coherent results in agreement with complementary methods

Animal experimentation

Atelectasia pulmonar

Bronchoscopy

Broncoscopia

Electric impedance

Experimentação animal

Fenômenos fisiológicos respiratórios

Impedância elétrica

Oxigênio

Oxygen

Pulmonary atelectasis

Pulmonary ventilation

Respiratory physiological phenomena

Ventilação pulmonar