O volume celular do adipócito contribui para a heterogeneidade funcional do tecido adiposo branco / The adipocyte size contributes to the functional heterogeneity of white adipose tissue

Natalie Carolina de Castro

29 April 2010

O tecido adiposo já foi considerado um tecido metabolicamente pouco ativo, no entanto, os mais recentes avanços mostram que ele desempenha uma função importante no controle da homeostase energética. Baseado neste conceito, este trabalho objetivou caracterizar o perfil morfológico e metabólico de adipócitos isolados de três diferentes coxins adiposos, subcutâneo, peri-epididimal, retro-peritoneal (SC, PE e RP respectivamente). Os adipócitos dos diferentes coxins foram coletados e submetidos a análise morfológica, aos ensaios metabólicos e análise da expressão de enzimas envolvidas no metabolismo lipídico e glicídico. Os resultados mostraram diferença estatisticamente significativa no volume dos adipócitos das três regiões entre si (p<0,05), maior capacidade lipogênica dos adipócitos RP. Paralelamente, o tecido SC, mostrou maior expressão de enzimas envolvidas na via lipogênica (p< 0,05; SC vs PE e RP). / The adipose tissue was considered to be a little active metabolic tissue, however, the most recent advances show that it plays an important function in the control of the energy homostasis. Based on this concept, this work aimed to characterize the morphology and metabolism of isolated adipocytes of three different depots, like: subcutaneous, periepididymal, retroperitoneal (SC, PE and RP) . The adipocytes of the different depots had been collected and submitted to morphologic analysis, metabolic assays and to analysis of the enzymes expressions involved on lipids and glucose metabolism. The results showed statistical significant difference on volume of the adipocytes among the three different depots (p< 0, 05), high lipogenic capacity of RP adipocytes and higher expression of proteins involved in lipogenic patways of SC adipocytes (p<0, 05).

Adipócito

Gordura epididimal

Gordura netro-peitoneal

Gordura sub cutânea

Metabolismo adipócito

Tecido adiposo branco

Adipocyte

Adipocyte metabolism

Epidymal fat

Retroperitoneal fat

Sub-cutaneous fat

White Adipose Tissues

Accuracy of Self-Reported Height, Weight, and Calculated BMI and Resulting FITNESSGRAM® Healthy Fitness Zone Classification

Rowell, Chelsie Joyce

05 1900

The determination of adiposity in adolescents is often assessed with calculations of body mass indices (BMI). Researchers often obtain these measurements from self-reported (SR) values. The purpose of this study was to determine the accuracy of SR height, weight, and calculated BMI (from height and weight). SR and actual measured (ME) BMI values were compared with standards from the FITNESSGRAM® Healthy Fitness Zone (HFZ) classifications. SR height and calculated BMI were found to be accurate while SR weight was, on average, underreported by 4.77 lbs. Because of these errors in SR height and weight, accuracy of classification into the FITNESSGRAM® HFZ was compromised. Consequently, it is important that researchers ascertain actual values of height and weight when measuring adolescents rather than use those from self-reports.

Body mass index.

Adipose tissues -- Measurement.

accuracy

self-reported

height

weight

calculated BMI

FITNESSGRAM®

The impact of mTOR, TFEB and Bid on non-alcoholic fatty liver disease and metabolic syndrome

Zhang, Hao

18 May 2015

Indiana University-Purdue University Indianapolis (IUPUI) / Non-alcoholic fatty liver disease and metabolic syndrome induced by high nutrient status have increasingly become a global health concern as it cause multiple complications. The mTOR complex is central in regulating anabolic reactions within cells under growth factors or under high nutrients stimulation. Constitutive and persistent activation of mTOR can impair cellular functions. In the first part of this study, we demonstrate a damping oscillation of mTOR activity during a long-term treatment of high fat diet. TFEB translocation and lysosomal enzyme activity also oscillate, but in an opposite direction. TFEB controls the lysosomal activity, autophagic degradation and lipid metabolism. Overexpression of wild type and mutant TFEB could inhibit NAFLD development in mice. In addition, TFEB location in nucleus inversely correlates with NAFLD severity in patients. mTOR activation under hypernutrition status suppresses TFEB translocation, inhibits lysosomal functions and autophagic degradation of lipid droplets. Inhibition of mTOR activity by rapamycin reverse the above phenotypes. Because mTOR activation also requires normal lysosomal function, the inhibition of TFEB by mTOR leads to decreased lysosomal function and mTOR downregulation. This negative feedback may explain the oscillation pattern of mTOR activation in long term high fat diet regimen and is a novel mechanism for inhibition of mTOR. In the second part of study, we report that Bid protein, previously known for its pro-apoptosis function in promoting mitochondrial permeability, plays an unexpected role in regulating fatty acid beta oxidation. Deletion of Bid in mice reprograms the body's response to hyper-nutrition caused by high fat diet, leading to the resistance to the development of obesity, liver steatosis and metabolic syndrome. These mice present a higher oxygen consumption, a lower respiratory quotient, and an increased beta-oxidation rate. Mechanistically, the high fat diet regimen triggers translocation of the full length Bid molecule to mitochondrial membrane. Genetic deletion of Bid also affects the stability of its binding protein, MTCH2 in the mitochondrial membrane. In summary, we describe in this study a mTOR-TFEB-lysosome feedback loop, which can regulate NAFLD development, and a novel Bid-mediated regulatory mechanism in beta-oxidation, which limits energy expenditure and promotes obesity development.

Liver -- Diseases

Fatty liver

Hepatology

Metabolism -- Disorders

Metabolic syndrome

Nutrition

Cellular signal transduction

Adipose tissues

Fat

Protein-protein interactions

Mice as laboratory animals

Coronary perivascular adipose tissue and vascular smooth muscle function: influence of obesity

Noblet, Jillian Nicole

22 March 2016

Indiana University-Purdue University Indianapolis (IUPUI) / Factors released from coronary perivascular adipose tissue (PVAT), which surrounds large coronary arteries, have been implicated in the development of coronary disease. However, the precise contribution of coronary PVAT-derived factors to the initiation and progression of coronary vascular dysfunction remains ill defined. Accordingly, this investigation was designed to delineate the mechanisms by which PVAT-derived factors influence obesity-induced coronary smooth muscle dysfunction. Isometric tension studies of coronary arteries from lean and obese swine demonstrated that both lean and obese coronary PVAT attenuate vasodilation via inhibitory effects on smooth muscle K+ channels. Specifically, lean coronary PVAT attenuated KCa and KV7 channel-mediated dilation, whereas obese coronary PVAT impaired KATP channel-mediated dilation. Importantly, these effects were independent of alterations in underlying smooth muscle function in obese arteries. The PVAT-derived factor calpastatin impaired adenosine dilation in lean but not obese arteries, suggesting that alterations in specific factors may contribute to the development of smooth muscle dysfunction. Further studies tested the hypothesis that leptin, which is expressed in coronary PVAT and is upregulated in obesity, acts as an upstream mediator of coronary smooth muscle dysfunction. Long-term administration (3 day culture) of obese concentrations of leptin markedly altered the coronary artery proteome, favoring pathways associated with calcium signaling and cellular proliferation. Isometric tension studies demonstrated that short-term (30 min) exposure to leptin potentiated depolarization-induced contraction of coronary arteries and that this effect was augmented following longer-term leptin administration (3 days). Inhibition of Rho kinase reduced leptin-mediated increases in coronary artery contractions. Acute treatment was associated with increased Rho kinase activity, whereas longer-term exposure was associated with increases in Rho kinase protein abundance. Alterations in Rho kinase signaling were also associated with leptin-mediated increases in coronary vascular smooth muscle proliferation. These findings provide novel mechanistic evidence linking coronary PVAT with vascular dysfunction and further support a role for coronary PVAT in the pathogenesis of coronary disease.

Adipose

Coronary

Leptin

Cardiovascular system -- Diseases

Vascular smooth muscle

Coronary arteries -- Abnormalities

Adipose tissues -- Physiology

Obesity -- Risk factors

Heart -- Blood-vessels

Leptin

Protein kinases

Contribution of Perivascular Adipose Tissue to Coronary Vascular Dysfunction

Payne, Gregory Allen

10 March 2011

Indiana University-Purdue University Indianapolis (IUPUI) / The epidemic of obesity and associated cardiovascular complications continues to grow at an alarming rate. Currently, obesity is thought to initiate a state of chronic inflammation, which if unresolved potentially causes cardiovascular dysfunction and disease. Although poorly understood, release of inflammatory mediators and other cytokines from adipose tissue (adipocytokines) has been proposed to be the molecular link between obesity and coronary artery disease. Furthermore, the anatomic location of adipose has been increasingly recognized as a potential contributor to vascular disease. Importantly, the development of coronary atherosclerosis, a key component of heart disease, is typically found in segments of coronary arteries surrounded by perivascular adipose tissue. Accordingly, the goal of this project was to determine how perivascular adipose tissue affects coronary artery function and elucidate the critical mechanisms involved. Initial studies assessing arterial function were conducted with and without perivascular adipose tissue. Preliminary results demonstrated that factors released by perivascular adipose tissue effectively impaired coronary endothelial function both in vitro and in vivo. This observation was determined to be caused by direct inhibition of nitric oxide synthase (NOS), a critical enzyme for the production nitric oxide. Attenuation of endothelium-dependent vasodilation was independent of changes in superoxide production, smooth muscle response, or peroxide-mediated vasodilation. Additional studies revealed that perivascular adipose-induced impairment of NOS was due to increased inhibitory regulation by the β isoform of protein kinase C (PKC-β). Specifically, perivascular adipose-derived factors caused site specific phosphorylation of nitric oxide synthase at Thr-495. Additional experiments investigated how perivascular adipose-derived factors contributed to coronary artery disease in an animal model of obesity. Results from these studies indicated that perivascular adipose-derived leptin markedly exacerbated underlying endothelial dysfunction, and significantly contributed to coronary endothelial dysfunction through a PKC-β dependent mechanism. Findings from this project confirm epicardial perivascular adipose tissue as a local source of harmful adipocytokines. In addition, perivascular adipose-derived leptin was demonstrated to be a critical mediator of coronary vascular dysfunction in obesity. Together, the results strongly suggest that perivascular adipose tissue is a key contributor to coronary artery disease in obesity.

Coronary circulation

Perivascular adipose tissue

Endothelium

Adipokine

Protein kinase C-beta

Obesity

Leptin

Endothelial nitric oxide synthase

Nitric oxide

Heart -- Diseases

Obesity

Adipose tissues

Coronary circulation

Adipose cells and tissues soften with lipid accumulation while in diabetes adipose tissue stiffens

Abuhattum, Shada, Kotzbeck, Petra, Schlüßler, Raimund, Harger, Alexandra, de Ariza Schellenberger, Angela, Kim, Kyoohyun, Escolano, Joan‑Carles, Müller, Torsten, Braun, Jürgen, Wabitsch, Martin, Tschöp, Matthias, Sack, Ingolf, Brankatschk, Marko, Guck, Jochen, Stemmer, Kerstin, Taubenberger, Anna V.

22 January 2024

Adipose tissue expansion involves both differentiation of new precursors and size increase of mature adipocytes. While the two processes are well balanced in healthy tissues, obesity and diabetes type II are associated with abnormally enlarged adipocytes and excess lipid accumulation. Previous studies suggested a link between cell stiffness, volume and stem cell differentiation, although in the context of preadipocytes, there have been contradictory results regarding stiffness changes with differentiation. Thus, we set out to quantitatively monitor adipocyte shape and size changes with differentiation and lipid accumulation. We quantified by optical diffraction tomography that differentiating preadipocytes increased their volumes drastically. Atomic force microscopy (AFM)-indentation and -microrheology revealed that during the early phase of differentiation, human preadipocytes became more compliant and more fluid-like, concomitant with ROCK-mediated F-actin remodelling. Adipocytes that had accumulated large lipid droplets were more compliant, and further promoting lipid accumulation led to an even more compliant phenotype. In line with that, high fat diet-induced obesity was associated with more compliant adipose tissue compared to lean animals, both for drosophila fat bodies and murine gonadal adipose tissue. In contrast, adipose tissue of diabetic mice became significantly stiffer as shown not only by AFM but also magnetic resonance elastography. Altogether, we dissect relative contributions of the cytoskeleton and lipid droplets to cell and tissue mechanical changes across different functional states, such as differentiation, nutritional state and disease. Our work therefore sets the basis for future explorations on how tissue mechanical changes influence the behaviour of mechanosensitive tissue-resident cells in metabolic disorders.

info:eu-repo/classification/ddc/500

ddc:500

info:eu-repo/classification/ddc/600

ddc:600

Bases moleculares de las alteraciones del tejido adiposo y cambios metabólicos asociados al síndrome lipodistrófico en pacientes infectados por HIV-1

Gallego Escuredo, José Miguel

21 November 2012

El uso de la terapia HAART (Highly-Active-Antiretroviral-Therapy), puede dar lugar a múltiples efectos secundarios. El más frecuente de ellos es el denominado HALS (“HIV-infection, HAARTtreatment- associated-lipodystrophy-syndrome”) que comprende alteraciones como la lipoatrofia periferica; un aumento de tejido adiposo visceral o la lipomatosis del tejido adiposo. Además, estas alteraciones fisiológicas pueden ir acompañadas de alteraciones metabólicas. Para saber la aportación individual de algunos fármacos al desarrollo del síndrome lipodistrófico HALS se realizó un estudio de los efectos de Efavirenz, Nevirapina (NNRTIs) y Kaletra (PI) sobre adipocitos primarios de linaje blanco en cultivo. Efavirenz, que no era considerado un fármaco asociado al síndrome lipodistrófico, es capaz de inhibir la adipogénesis con mayor potencia que Kaletra y Nevirapina. Ninguno de estos fármacos provoca toxicidad mitocondrial por lo que sus efectos ocurren en ausencia de toxicidad mitocondrial. Tanto efavirenz como kaletra reducen la secreción de adipoquinas y aumentan la expresión y secreción de citoquinas relacionadas con la inflamación, pero estos efectos siempre son mayores con el EFV mientras la Nevirapina parece no afectar a este tipo de secreciónes. Para estudiar las características moleculares de los diferentes depósitos de tejido adiposo con comportamiento opuesto como el tejido adiposo subcutáneo lipoatrófico y el tejido adiposo visceral lipohipertrófico o el tejido adiposo lipomatoso de las “buffalo-hump” de los pacientes se han comparado características moleculares de ellas con tejido adiposo de individuos control. En la comparación entre el tejido adiposo subcutáneo lipoatrófico y el visceral se ha observado que en ambos casos el tejido adiposo presenta alteraciones similares en la función mitocondrial. En cambio el descenso de marcadores de adipogénesis observado en el tejido subcutáneo de pacientes no se reproduce en el tejido visceral. Este hecho, acompañado de diferencias en el perfil de expresión de marcadores de inflamación (que parece más leve en el tejido visceral), podría explicar el comportamiento opuesto de ambos depósitos en pacientes. El estudio en el que se compararon el tejido adiposo lipomatosos de las “buffalo-hump” y el tejido adiposo subcutáneo lipoatrófico de pacientes infectados por el HIV- indica que el tejido adiposo de las “buffalo-hump” presenta alteraciones especificas en la expresión génica respecto al tejido lipoatrófico en las que destaca una expresión normal de genes adipogénicos. Así mismo, el tejido lipomatoso es capaz de expresar UCP1, un gen característico del tejido adiposo marrón, y su capacidad proliferativa concuerda más con un fenotipo del tipo marrón, por lo que se puede decir que estos adipocitos tienen un fenotipo intermedio entre blanco y marrón que se mantiene cuando este tejido lipomatoso es utilizado para trasplante autólogo a la zona facial lipoatrófica en la que mantiene la proliferación desarrollándose el síndrome hámster. No se observan diferencias en las alteraciones mitocondriales observadas en ambos tejidos. Por otra parte la ausencia de un estado de inflamación local en BH podría explicar en parte este comportamiento diferente de ambos tejidos. Además se ha observado que los pacientes muestran niveles elevados de FGF21 y disminuidos de FGF19 (dos agentes homeostaticos) respecto a los controles. Estas diferencias con los controles se acentúan a medida que los pacientes infectados por el virus HIV-1 pasan de ser no tratados a tratados y aun más al desarrollar la lipodistrofia. Los niveles de FGF21 en suero se correlacionaban con indicadores de sensibilidad a insulina o marcadores de síndrome metabólico así como con marcadores de daño hepático que podrían estar relacionados con esteatosis hepática. Los niveles disminuidos en suero de FGF19 se correlacionan negativamente con parámetros indicativos de resistencia a insulina. Además se ha descrito en esta tesis que los receptores de estos agentes endocrinos FGFR1 y β-Klotho aparecen disminuidos en el tejido adiposo de los pacientes infectados por el virus HIV-1. / Molecular basis of adipose tissue alterations and metabolic disturbances associated to HIV-1-infected lipodystrophic patients Disturbances in adipose tissue in HIV-1-infected patients undergoing HAART involve a complex set of alterations known as HAART-associated-lipodystrophy-syndrome (HALS). In most cases, lipoatrophy occur in the face, arms and legs. An enlargement of visceral adipose tissue, reminiscent of visceral obesity, is present often in combination with peripheral lipoatrophy. Lipomatosis is also commonly found in HALS, usually as an enlargement in the dorso-cervical area (buffalo-hump), although the development of lipomas in distinct anatomical sites has also been reported. This adipose tissue redistribution is associated with systemic metabolic alterations such as insulin resistance or dyslipidemia. To determine the individual contribution to HALS of some HAART-prescriptioned drugs, we performed an assessment of the effects of efavirenz, nevirapine and Kaletra on human cultured adipocytes. Our results support the fact that efavirenz and Kaletra impair adipogenesis, reduce the release of adipokines and increase the expression and release of inflammation-related cytokines, while nevirapine does not. Overall, those effects are greater in the case of efavirenz. We compared as well the molecular signature of subcutaneous lipoatrophic, visceral lipohipertrophic and dorso-cervical lipomatous adipose tissues from patients in order to determine the molecular basis causing these fat depots to behave in an opposite way. All fat biopsies from patients exhibited alterations in mitochondrial function marker genes. Visceral and “buffalo hump” fat didn’t show any alterations in the expression of adipogenesis marker genes when compared to healthy controls, while subcutaneous fat showed lower levels. The inflammatory profile was normal in “buffalo hump”, whereas visceral and subcutaneous adipose tissue depots exhibited a distinct, more exacerbated, pro-inflammatory profile. These differences could be part of the explanation of the mentioned different behavior. The serum levels of novel homeostatic agents FGF19 and FGF21 was also assessed in samples from lipodystrophic patients. FGF21 levels were significantly higher in patients and correlated positively with markers of insulin resistance, metabolic syndrome and hepatic damage. On the other hand, FGF19 levels were significantly lower in patients and correlated negatively with markers of insulin resistance. We studied the transcription level of FGF receptors in adipose tissue as well, resulting in a lower expression in biopsies from HALS patients.

HIV-associated lipodystrophy syndrome

Teràpia HAART

Terapia HAART

HAART theraphy

Teixit adipós

Tejido adiposo

Adipose tissues

VIH (Virus)

Metabolisme

Metabolismo

Metabolism

Ciències de la Salut

577

Effect of n-3 vs n-6 fatty acids and methyl ethyl ketone peroxide on adipose tissue cellularity, muscle weight, and lipoprotein lipase activity in rats

Venkateswaran, Lakshmi, 1965-

22 March 1993

Graduation date: 1993

Fish oils -- Physiological effect

Corn oil -- Physiological effect

Adipose tissues

Lipoprotein lipase

Rats -- Physiology

Peroxynitrite, pumps and perivascular adipose tissue studies across the physiological spectrum /

Reifenberger, Matthew Stanton, Milanick, Mark.

January 2008

The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from PDF of title page (University of Missouri--Columbia, viewed on April 6, 2010). Vita. Thesis advisor: Mark Milanick "June 2008" Includes bibliographical references

Mechanisms of hexosamine-induced cholesterol accumulation and therapeutic actions of chromium

Penque, Brent A.

03 January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Excess caloric intake and/or obesity currently remain the largest predisposing risk factors for the development of type 2 diabetes. Discerning the cellular and molecular mechanisms responsible and amendable to therapy represents a growing challenge in medicine. At a cellular level, increased activity of the hexosamine biosynthesis pathway (HBP), a sensor of excess energy status, has been suggested to promote the exacerbation of insulin resistance through increasing adipose tissue and skeletal muscle membrane cholesterol content. This in turn compromises cortical filamentous actin structure necessary for proper incorporation of the insulin-sensitive glucose transporter GLUT4 into the plasma membrane. The current studies attempted to elucidate the mechanism by which hexosamines provoke membrane cholesterol toxicity and insulin resistance. In 3T3-L1 adipocytes cultured with pathophysiologic hyperinsulinemia to induce insulin resistance, increased HBP flux was observed. This occurred concomitant with gains in the mRNA and protein levels of HMG-CoA reductase (HMGR), the rate limiting enzyme in cholesterol synthesis. Mechanistically, immunoprecipitation demonstrated increased HBP-induced N-acetylglucosamine (O-GlcNAc) modification of specificity protein 1 (Sp1), a regulator of HMGR synthesis. This was associated with increased affinity toward and activity of Hmgcr, the gene encoding HMGR. Global HBP inhibition or Sp1 binding to DNA prevented membrane cholesterol accrual, filamentous actin loss, and glucose transport dysfunction. Furthermore, hyperinsulinemia and HBP activation impaired cholesterol efflux in adipocytes, exacerbating cholesterol toxicity and potentially contributing to cardiovascular disease. In this regard, chromium picolinate (CrPic), known to have beneficial effects on glucose and lipoprotein metabolism, improved cholesterol efflux and restored membrane cholesterol content. To test the role of membrane cholesterol accumulation in vivo, studies were conducted on C57Bl/6J mice fed a low or high fat diet. High fat feeding promoted increased HBP activity, membrane cholesterol accumulation, and insulin resistance. Supplementation of mice with CrPic in their drinking water (8µg/kg/day) countered these derangements and improved insulin sensitivity. Together, these data provide mechanistic insight for the role of membrane cholesterol stress in the development of insulin resistance, as well as cardiovascular disease, and highlight a novel therapeutic action of chromium entailing inhibition of the HBP pathway.

Chromium -- Therapeutic use -- Research

Hexosamines -- Synthesis

Amino sugars

Diabetes -- Pathophysiology

Obesity

Biosynthesis

Adipose tissues -- Pathophysiology

Glucosamine

Cholesterol -- Metabolism

Actin

Cardiovascular system -- Diseases