Transcriptome Analyses of Adipose Tissue Samples Identify EGFL6 as a Candidate Gene Involved in Obesity-Related Adipose Tissue Dysfunction in Children

Landgraf, Kathrin, Kühnapfel, Andreas, Schlanstein, Maria, Biemann, Ronald, Isermann, Berend, Kempf, Elena, Kirsten, Holger, Scholz, Markus, Körner, Antje

16 January 2024

Obesity develops early in childhood and is accompanied by early signs of adipose tissue (AT) dysfunction and metabolic disease in children. In order to analyse the molecular processes during obesity-related AT accumulation in children, we investigated genome-wide expression profiles in AT samples, isolated adipocytes, and stromal vascular fraction (SVF) cells and assessed their relation to obesity as well as biological and functional AT parameters. We detected alterations in gene expression associated with obesity and related parameters, i.e., BMI SDS, adipocyte size, macrophage infiltration, adiponectin, and/or leptin. While differential gene expression in AT and adipocytes shared an enrichment in metabolic pathways and pathways related to extracellular structural organisation, SVF cells showed an overrepresentation in inflammatory pathways. In adipocytes, we found the strongest positive association for epidermal growth factor-like protein 6 (EGFL6) with adipocyte hypertrophy. EGFL6 was also upregulated during in vitro adipocyte differentiation. In children, EGFL6 expression was positively correlated to parameters of AT dysfunction and metabolic disease such as macrophage infiltration into AT, hs-CRP, leptin levels, and HOMA-IR. In conclusion, we provide evidence for early alterations in AT gene expression related to AT dysfunction in children and identified EGFL6 as potentially being involved in processes underlying the pathogenesis of metabolic disease.

info:eu-repo/classification/ddc/610

ddc:610

Regulation von Adipocyte fatty acid binding protein in Abhängigkeit der Nierenfunktion

Hopf, Lisa-Marie

10 February 2016

Adipositas und die damit verbundenen Folgeerkrankungen sind eine der zentralen Gesund-heitsherausforderungen unserer Zeit. Dauerhafte Adipositas führt zu einer Dysregulation fettgewebseigener Peptidhormone. Diese sogenannten Adipokine stellen ein Verbindungsglied zwischen Fettgewebsakkumulation und den vielfältigen Adipositaskomplikationen des gesamten Organismus dar. Adipocyte fatty acid binding protein (AFABP) wurde in den letzten Jahren als zirkulierendes Adipokin mit diabetogenen, proinflammatorischen und proateriosklerotischen Effekten etabliert. Zu Beginn der Dissertation lagen unzureichende Erkenntnisse über die Elimination von AFABP sowie die Regulation des Adipokins bei eingeschränkter Nierenfunktion vor. Aus diesem Grund untersucht die vorliegende Arbeit die AFABP-Regulation in Abhängigkeit von der Nierenfunktion in 532 Patienten mit chronischer Niereninsuffizienz (Studienpopulation 1) und 32 Patienten mit akuter Nierenfunktionsverminderung nach Nephrektomie (Studienpopulation 2). In beiden Kohorten stiegen die medianen AFABP-Serumkonzentrationen mit abfallender Nierenfunktion an. Zudem waren Marker der Nierenfunktion in beiden Studienpopulationen die stärksten unabhängigen Prädiktoren für zirkulierendes AFABP. Untersuchungen aus der Arbeitsgruppe zur AFABP-Regulation in einem Rattenmodell der akuten Niereninsuffizienz unterstützen die klinischen Studienergebnisse. Zusammenfassend zeigen diese Ergebnisse zum ersten Mal signifikant steigende AFABP-Serumspiegel bei chronischer und akuter Nierenfunktionsstörung, sowie bei akutem Abfall der Nierenfunktion. Diese Befunde stützen die Hypothese, dass AFABP renal eliminiert wird. Inwiefern AFABP darüber hinaus in die Pathogenese der chronischen Niereninsuffizienz eingreift, muss in weiterführenden Studien beleuchtet werden.

Adipocyte fatty acid binding protein

Adipokine

Adipocste fatty acid binding protein

ddc:610

The effects of the adipocyte-secreted proteins resistin and visfatin on the pancreatic beta-cell

Onyango, David J.

January 2009

Adipose tissue secreted proteins (adipokines) have been proposed to form a link between obesity and type 2 diabetes (T2D). Resistin and visfatin are two adipokines which have been previously suggested as having roles in the pancreatic islet. The aim of this study was therefore to investigate the regulatory role of the adipokines resistin and visfatin in the pancreatic beta-cell. In order to do this, pancreatic β-cell lines from rat (BRIN-BD11) and mouse (βTC-6) were used to study the effect of exogenous incubation with physiological and pathological concentrations of resistin and visfatin on diverse elements of beta-cell biology including cell viability, gene expression and insulin secretion. In addition to this the expression levels of these two adipokines was also measured in the beta-cell. PCR array analysis showed that resistin and visfatin treatment resulted in significant changes in the expression of key beta-cell specific genes. Interestingly, both resistin and visfatin are highly expressed in the beta-cells. This suggests that the roles of these adipokines are not confined to adipose tissue but also in other endocrine organs. Resistin treatment significantly increased viability of the beta-cells at physiological concentrations however there was no increase with the elevated pathological concentrations. Resistin at elevated concentrations decreased insulin receptor expression in the beta-cells however there was no significant effect at lower concentrations. Both physiological and elevated resistin concentrations did not have any effect on glucose stimulated insulin secretion. Incubation of visfatin induced phosphorylation of insulin receptor and the intracellular signalling MAPK, ERK1/2. Visfatin treatment at 200ng/ml also significantly increased insulin secretion. These effects were replicated by incubation of beta-cells with the product of visfatin’s enzymatic action, nicotinamide mononucleotide and were reversed by visfatin inhibitor FK866. Visfatin treatment at low concentrations did not have any effect on cell viability however the elevated concentrations resulted in a decline. These data indicate that both resistin and visfatin potentially play important roles in beta-cell function and viability and that they form a significant link between adipose tissue and the pancreatic islet in type 2 diabetes.

612.6

HIV Protease Inhibitors Trigger Lipid Metabolism Dysregulation Through Endoplasmic Reticulum Stress and Autophagy

Zha, Beth Shoshana

01 January 2011

HIV protease inhibitors (PI) are core components of Highly Active Antiretroviral Therapy (HAART). HIV PIs are extremely effective at suppressing viral load, but have been linked to lipodystrophy and dyslipidemia, which are major risk factors for cardiovascular disease. Recent studies indicate that activation of endoplasmic reticulum (ER) stress is an important cellular mechanism underlying HIV PI-induced dysregulation of lipid metabolism. However, the exact role of ER stress in HIV PI-associated lipodystrophy and dyslipidemia remains to be identified. Hepatocytes and adipocytes are important players in regulating lipid metabolism and the inflammatory state. Dysfunction of these two cell types is closely linked to various metabolic diseases. In this dissertation research, we aimed to define the role of activation of ER stress in HIV PI-induced dysregulation of lipid metabolism in adipocytes and hepatocytes and further identifty the potential molecular mechanisms. Both cultured and primary mouse adipocytes and hepatocytes were used to examine the effect of individual HIV PIs on ER stress activation and lipid metabolism. The results indicated that HIV PIs differentially activate ER stress through depletion of ER calcium stores, activating the unfolded protein response (UPR). UPR activation further lead to an alteration of cellular differentiation through downstream transcription factor CHOP. At the same time, HIV PIs also altered adipogenesis via differential regulation of the adipogenic transcription factor PPARγ. HIV PI-induced ER stress was closely linked to dysregulation of autophagy activation through CHOP, and upstream ATF-4, signaling pathways. In hepatocytes, the integrase inhibitor raltegravir abrogated HIV PI-induced lipid accumulation by inhibiting ER stress activation and dysregulation of autophagy pathway. Our studies suggest that both ER stress and autophagy are involved in HIV PI-induced dysregulation of lipid metabolism in adipocytes and hepatocytes. The key components of ER stress and autophagy signaling pathways are potential therapeutic targets for HIV PI-induced metabolic side effects in HIV HAART-treated patients.

HIV Protease Inhibitors

ER Stress

Autophagy

PPARγ

adipocyte

hepatocyte

raltegravir

Medicine and Health Sciences

A gliceroneogênese e o metabolismo do lactato se modificam com o jejum e apresentam diferentes características conforme a localização do depósito adiposo. / The glyeroneogenesis and the metabolism of lactate modify with fasting and presentes different characteristics according to the location of fato depot.

Castro, Natalie Carolina de

18 March 2016

A ausência de nutrientes durante o jejum leva a intensa mobilização de ácidos graxos (AG) do adipócito. A intensidade deste fenômeno deve ser controlada, pois o excesso de AG está associado a condições patológicas. Nestas condições, a lipogênese torna-se útil e a Gliceroneogênese indispensável. Nesta via, o lactato seria um substrato fisiológico e provável. Metodologia. Ratos machos Wistar foram divididos em grupos, Alimentado (Al) e Jejum (J) e os coxins subcutâneo (SC) e visceral retroperitoneal (RP) submetidos aos testes biológicos e moleculares. No Teste de Incorporação de [14C]-Acido Lático em Glicerol e no teste de captação de [14C]-Acido Lático o grupo Al mostrou maior capacidade (Al > J; *p<0.05; [N=8]). Nestes testes, a glicose (1 ou 4 mM) foi fundamental e a presença de insulina (10 nM) ampliou estes resultados em ambos os tecidos. Na expressão do transportador de monocarboxilatos 1 (MCT1) e da enzima fosfoenol piruvato carboxiquinase (PEPCK), não houve diferenças entre Al e J. Concluímos que a alimentação promove aumento da Glicroneogênese a partir do ácido lático e a expressão da PEPCK não exerceu influencia neste processo. No entanto, a glicose e a insulina, mostraram-se como potencializadores da Gliceroneogênese. / The absence of nutrients during fasting leads to intensive mobilization of adipocyte fatty acids (FA). The intensity of this phenomenon should be controlled because excess of the AG is associated with pathological conditions. Under these conditions, the lipogenesis and gliceroneogenesis are useful and indispensable. In this pathway, the lactate and likely would be a physiological substrate. Methodology. Male Wistar rats were divided into groups: (Al) and Fasting (J) and fat pad subcutaneous (SC) and visceral retroperitoneal (RP) subject to biological and molecular assays. The Test of Incorporation of [14C]-Latic Acid into Glycerol and test of uptake lactic-acid, Al group showed greater capacity (Al> J; * p <0.05; [N = 8]). In these tests, glucose (1 or 4 mM) was fundamental and the presence of insulin (10 nM) extended these findings in both tissues. In monocarboxylate transporter 1 expression (MCT1) and the enzyme phosphoenol pyruvate carboxykinase (PEPCK), there was no difference between Al and J. We concluded that feeding promotes increased Glicroneogênese from lactic acid and expression of PEPCK did not exercised influence in this process. However, glucose and insulin appeared as potentiators of Gliceroneogênese.

Adipócito

Adipocyte

Adipose tissue

Fasting

Gliceroneogênese

Glyceroneogenesis

Jejum

Lactate

Lactato

Lipogênese

Lipogenesis

Tecido adiposo

EFEITO DO USO PRECOCE DA METFORMINA OU DO ORLISTAT NA PREVENÇÃO DA DISFUNÇÃO DE ADIPÓCITOS EM RATOS WISTAR SUBMETIDOS À DIETA HIPERGLICÍDICA-HIPERLIPÍDICA

Machozeki, Janete

28 March 2018

Submitted by Angela Maria de Oliveira (amolivei@uepg.br) on 2018-05-14T14:39:42Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Janete Machozeki.pdf: 3460027 bytes, checksum: 87b38a12a4dede2c42dbef87dd9de037 (MD5) / Made available in DSpace on 2018-05-14T14:39:42Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Janete Machozeki.pdf: 3460027 bytes, checksum: 87b38a12a4dede2c42dbef87dd9de037 (MD5) Previous issue date: 2018-03-28 / A obesidade é uma doença multifatorial, com fisiopatologia complexa e atua como fator de risco para outras doenças, principalmente diabetes mellitus tipo 2 e doença cardiovascular. Quando a resistência insulínica está presente, caracteriza a síndrome metabólica, constituída por inflamação crônica de baixo grau, estresse oxidativo e disfunção de adipócitos. Esta pesquisa interdisciplinar avalia o efeito do uso precoce da metformina ou do orlistat na prevenção da disfunção de adipócitos em ratos wistar machos, adultos, submetidos à dieta hiperglicídica e hiperlipídica. Neste estudo foram avaliados quatro grupos de 10 animais, sendo que o grupo controle recebeu ração padrão balanceada. Outros 3 grupos receberam ração de cafeteria modificada, sendo que em 2 grupos houve intervenção farmacológica, 1 com metformina (40mg/dia) e outro com orlistat (10 mg/dia). As doses foram calculadas fundamentadas na taxa metabólica basal. Foram comparados evolução ponderal, parâmetros bioquímicos, e avaliação histomorfométrica da gordura visceral. Não houve diferença estatisticamente significativa na média de peso e nem nos parâmetros bioquímicos na comparação entre os grupos (p>0,05). Na avaliação histomorfométrica evidenciou-se hiperplasia de adipócitos em todos os grupos, porém foi mais significativo no grupo que usou a dieta padrão comparado aos que usaram dieta de cafeteria modificada, com ou sem intervenção terapêutica (p<0,001). Ocorreu maior hipertrofia de adipócitos no grupo que utilizou a dieta de cafeteria modificada (p<0,001). Os grupos com intervenção terapêutica não apresentaram diferença estatística quando em relação ao grupo de dieta balanceada (p>0,05). Este estudo demonstrou que doses pequenas de metformina ou orlistat preveniram a hipertrofia de adipócitos na gordura visceral, que é a etapa determinante para o desenvolvimento da síndrome metabólica. Esta pesquisa demonstrou que pode ser possível a prevenção de doenças crônicas não transmissíveis relacionadas à disfunção de adipócitos. / Obesity is a disease with a complex multifactorial pathophysiology and acts as a risk factor for other diseases, particularly type 2 diabetes mellitus and cardiovascular disease. When insulin resistance is present, the metabolic syndrome, consisting of chronic low-grade inflammation, oxidative stress and dysfunction of adipocytes. This interdisciplinary research evaluates the effect of early use of metformin or orlistat in preventing dysfunction of adipocytes in male wistar rats, adults, submitted to hiperglicídica and hiperlipídica diet. In this study we evaluated four groups of 10 animals, and the control group received standard balanced ration. Other 3 groups received cafeteria modified ration, and in 2 groups there was drug intervention, 1 with metformin (40 mg/day) and another with orlistat (10 mg/day). The doses were calculated based on basal metabolic rate. Were compared weight, biochemical parameter, and histomorphometry evaluation of visceral fat. There was no statistically significant difference in weight and nor in biochemical parameters in comparison between the groups (p > 0.05). Histomorphometry evaluation showed hyperplasia of adipocytes in all groups but was most significant in the group that used the standard diet compared to that used modified cafeteria diet, with or without therapeutic intervention (p < 0.001). Occurred more in the adipocytes of hypertrophy group that used the cafeteria diet modified p < 0.001). The therapeutic intervention groups showed no statistical difference when compared to the balanced diet Group (p > 0.05). This study has shown that small doses of metformin or orlistat prevented the hypertrophy of adipocytes in visceral fat, which is the decisive step for the development of the metabolic syndrome. This research demonstrated that it may be possible to the prevention of non-communicable chronic diseases related to dysfunction of adipocytes.

CNPQ::CIENCIAS DA SAUDE

adipócito

metformina

obesidade

orlistat

síndrome metabólica

Adipocyte

metformin

obesity

orlistat

metabolic syndrome

New insights into the role of serum amyloid A (SAA) on obesity and insulin resistance / Novas perspectivas para o papel de amilóide sérica A (SAA) na obesidade e resistência à insulina

Oliveira, Edson Mendes de

16 April 2015

Chronic low-grade endotoxemia is an important player in obesity and insulin resistance associated to a high-fat diet (HFD). On the other hand, although it is known that intense endotoxemia and infection reduce appetite and induce intense catabolism, leading to weight loss during the acute inflammatory phase, the late effects of an intense endotoxemia were previously unexplored. Here we report that, besides the concurrent effects, multiple and intense endotoxemia causes long lasting biochemical alterations in the adipose tissue that intensify the harmful effects of a HFD. Mice submitted to multiple and severe endotoxemia had increased the adipose tissue expression of TLR-4, CD14 and SAA3, remaining altered after one week in recovery. When associated to a HFD, mice previously submitted to acute endotoxemia showed a more severe weight gain and impaired insulin sensitivity. Adopting the HFD as an obesogenic stimulus, we evaluated the participation of the protein serum amyloid A (SAA) in obesity development. Using a SAA-targeted antisense oligonucleotide, we observed that the depletion of SAA prevented metabolic alterations, endotoxin elevation, weight gain and insulin resistance in a diet-induced obesity protocol. Inadequate sleep is another important factor to be considered in the obesity epidemic. We found that sleep restriction (SR) causes biochemical and morphological alterations in mice adipose tissue. The levels of serum resistin and the adipose tissue mRNA expression of resistin, TNF-&#945; and IL-6 were increased after SR. When associated to a HFD, mice previously submitted to SR gained more weight with increased macrophage infiltration in the epididymal adipose tissue, and insulin resistance. SAA is also part of the initial biochemical alterations caused by SR. It was observed that the expression of SAA in liver and adipose tissue is upregulated, with return to baseline when sleep is restored. Furthermore, 48 hours of total sleep restriction in healthy human volunteers also caused a serum elevation in SAA concentrations. Considering that SAA induces cell proliferation, we suggest that situations with an increase in SAA production and the consecutive preadipocyte proliferation would prime the adipose tissue to further adipocyte differentiation and hypertrophy. Furthermore, we suggest that SAA alter LPS signaling, possibly inhibiting its clearance. The mechanism associating inflammation and obesity is complex and encompass a diversity of factors; the inflammatory protein SAA may be one of them. In conclusion, our data describes the relationship between SAA, acute inflammation, sleep restriction and obesity. / Endotoxemia crônica de baixo grau tem um importante papel na obesidade e resistência à insulina associada a uma ração hiperlipídica. Por outro lado, embora se saiba que a endotoxemia intensa e infecção reduzam o apetite e induzam a um intenso catabolismo, conduzindo a perda de peso durante a fase aguda da inflamação, os efeitos tardios da endotoxemia intensa nunca foram explorados. Aqui mostramos que, além dos efeitos correntes, a endotoxemia aguda provoca alterações bioquímicas prolongadas no tecido adiposo que intensificam os efeitos deletérios de uma ração hiperlipídica. Camundongos submetidos à endotoxemia aguda apresentaram aumento na expressão de TLR-4, CD14 e SAA3 no tecido adiposo, permanecendo alteradas após uma semana em recuperação. Quando associado a uma ração hiperlipídica, os camundongos previamente submetidos à endotoxemia aguda mostraram um ganho de peso mais pronunciado e uma maior resistência à insulina. Adotando a ração hiperlipídica como um estímulo obesogênico, foi avaliada a participação da proteína amilóide sérica A (SAA) no desenvolvimento da obesidade. Usando um oligonucleotídeo antisense anti-SAA, observamos que a depleção da SAA previne as alterações metabólicas, elevação de endotoxina, ganho de peso e resistência à insulina associadas a ração rica em gordura. O sono inadequado é outro fator importante a ser considerado na epidemia de obesidade. Descobrimos que a restrição do sono (SR) provoca alterações bioquímicas e morfológicas no tecido adiposo de camundongos. A concentração de resistina no soro e a expressão de mRNA no tecido adiposo de resistina, TNF-&#945; e IL- 6 foram aumentadas após SR. Quando associado a uma ração hiperlipídica, os camundongos submetidos previamente à SR ganharam mais massa com aumento da infiltração de macrófagos no tecido adiposo epididimal, e resistência à insulina. SAA também faz parte das alterações bioquímicas iniciais provocadas pelo SR. Observou-se que a expressão de SAA no fígado e tecido adiposo é regulada positivamente, com retorno ao basal quando o sono é restaurado. Além disso, 48 horas de restrição de sono total em voluntários humanos saudáveis também causou uma elevação nas concentrações séricas de SAA. Considerando que SAA induz proliferação, sugerimos que situações onde ocorra aumento na produção de SAA e a consecutiva proliferação celular, o tecido adiposo se tornaria predisposto a futura diferenciação e hipertrofia. Além disso, sugerimos que SAA altera a sinalização de LPS, possivelmente inibindo sua depuração. O mecanismo de associação entre a inflamação e a obesidade é complexo e inclui uma diversidade de fatores; a proteína inflamatória SAA pode ser um deles. Em conclusão, nossos dados descrevem a relação entre SAA, inflamação aguda, restrição do sono e obesidade.

Acute inflammation

Adipócito

Adipocyte

Endotoxemia

Endotoxemia

Fase aguda

Inflamação

Inflammation

Restrição de sono

Sleep restriction

Differential effects of insulin signaling on individual carbon fluxes for fatty acid synthesis in brown adipocytes

Yoo, Hyuntae, Antoniewicz, Maciek, Kelleher, Joanne K., Stephanopoulos, Gregory

01 1900

Considering the major role of insulin signaling on fatty acid synthesis via stimulation of lipogenic enzymes, differential effects of insulin signaling on individual carbon fluxes for fatty acid synthesis have been investigated by comparing the individual lipogenic fluxes in WT and IRS-1 knockout (IRS-1 KO) brown adipocytes. Results from experiments on WT and IRS-1 KO cells incubated with [5-¹³C] glutamine were consistent with the existence of reductive carboxylation pathway. Analysis of isotopomer distribution of nine metabolites related to the lipogenic routes from glucose and glutamine in IRS-1 KO cells using [U-¹³C] glutamine as compared to that in WT cells indicated that flux through reductive carboxylation pathway was diminished while flux through conventional TCA cycle was stimulated due to absence of insulin signaling in IRS-1 KO cells. This observation was confirmed by quantitative estimation of individual lipogenic fluxes in IRS-1 KO cells and their comparison with fluxes in WT cells. Thus, these results suggest that glutamine’s substantial contribution to fatty acid synthesis can be directly manipulated by controlling the flux through reductive carboxylation of alpha-ketoglutarate to citrate using hormone (insulin). / Singapore-MIT Alliance (SMA)

brown adipocyte

fatty acid synthesis

insulin signaling

reductive carboxylation pathway

5-13C

U-13C

Regulation of angiotensinogen in adipocytes by polyunsaturated fatty acids

Fletcher, Sarah Jean

01 May 2010

Adipose tissue is well-recognized as an endocrine organ which secretes a variety of bioactive molecules, including angiotensin II and its precursor angiotensinogen (Agt). There is mounting evidence linking the adipose renin-angiotensin system (RAS) and diet to obesity and obesity-related disorders. However, research addressing dietary regulation and function of adipose RAS is limited, and the specific mechanisms by which PUFAs modulate the endocrine function of adipose tissue remain largely unclear. There are several potential mechanisms that may mediate PUFA effects on Agt, including toll-like receptor signalling, prostaglandins or PPAR-gamma. Thus, we propose to investigate whether PUFAs differentially modulate Agt expression and secretion and to examine possible mechanisms by which PUFA alter Agt expression using the 3T3-L1 cell line. Differentiated 3T3-L1 adipocytes were treated with arachidonic acid (AA), eicosapentaenoic acid (EPA), AA + EPA, or vehicle (C) for 48 hours. Results showed a significant increase in intracellular Agt protein following treatment with PUFAs. Agt secretion, however, was only increased by AA. Interestingly, there is a dose-dependent decrease in Agt protein levels by EPA suggesting that a minimum concentration of n-3 PUFAs is required to elicit an Agt response. Agt mRNA levels were measured by RT-PCR and results showed a significant increase in Agt mRNA in response to treatment with AA but not EPA. These findings suggest that Agt regulation by PUFAs is complex and occurs both post-transcriptionally and post-translationally. Changes in mRNA stability may account for the observed effects of PUFAs. Adipocytes were treated with the transcriptional inhibitor actinomycin D (Act D) and Agt mRNA expression was measured over time. Total RNA was also measured at each time point to ensure that Act D treatment was effectively decreasing transcription. Agt mRNA expression was not significantly altered by treatment with EPA while treatment with AA increased Agt mRNA levels. These results suggest that Agt mRNA stability is differentially increased by n-6 but not n-3 PUFAs. Although there are clear effects of AA on Agt secretion and mRNA stability, the signaling pathways mediating this response remain to be determined, and additional studies are necessary to further dissect the underlying mechanisms of this regulation.

angiotensinogen

polyunsaturated fatty acid

adipocyte

renin-angiotensin system

Effects of Macrophage-conditioned Medium on Preadipocyte Cyclin-dependent Kinase Regulation During Adipogenesis

Ide, Jennifer C.

08 February 2011

Macrophage-conditioned medium (MacCM) inhibits the differentiation of rodent and human preadipocytes. Previous studies report that murine J774A.1-MacCM inhibits clonal expansion (early required phase of adipogenesis), including Rb phosphorylation. I hypothesized that MacCM induced alterations in cyclins and/or cyclin-dependent kinases (CDKs) were responsible for impairing Rb phosphorylation. My first objective was to assess the effect of J774A.1-MacCM on CDK4, CDK2, and their regulatory cyclins. Murine 3T3-L1 preadipocytes were differentiated with control medium or J774A.1-MacCM. Expression of cyclin D and A was inhibited by J774A.1-MacCM. Inhibition of cyclin A expression was associated with reduced differentiation-induced CDK2 activity. My second objective was to assess the expression patterns of cell cycle proteins in differentiating human abdominal subcutaneous preadipocytes, which do not undergo clonal expansion in culture. Cyclin E expression increased with differentiation. THP-1-MacCM (a human macrophage cell line) further enhanced this increase. My studies suggest MacCM leads to alterations in cyclin/CDK regulation during adipogenesis in murine and human preadipocyte models.

preadipocyte

adipocyte differentiation

macrophage

cyclin

cyclin-dependent kinase

mitotic clonal expansion