Matrigel alters the expression of genes related to adipogenesis and the production of extracellular matrix in 3T3-L1 cells

Josan, Chitmandeep

January 2018

Studying molecular mechanisms underlying adipocyte differentiation is imperative to understanding adipocyte function and its role in obesity. However, the majority of research exploring adipogenesis is conducted with cell lines cultured directly on tissue culture plastic. Culturing cells on plastic may result in altered proliferation and differentiation, and subsequent change in pharmacological response. The extracellular matrix (ECM) plays a critical role in adipocyte development and survival. It is suggested that cells in vitro express high levels of ECM proteins to compensate for lack of an ECM. Differentiating preadipocytes on a substrate representative of the mature adipocyte extracellular environment may provide a more physiological response to drugs and environmental chemicals. The purpose of this study was to investigate the impact of Matrigel on 3T3-L1 cell growth, differentiation, lipid accumulation and responsiveness to Rosiglitazone. Matrigel decreased 3T3-L1 cell proliferation, enhanced lipid accumulation, and increased expression of adipogenic and lipogenic markers, including PPARγ, C/EBPα, SREBP1c, FAS, LPL, FABP4 and PLIN1. This was accompanied by a decrease in gene expression of ECM proteins, including fibronectin, collagen 1, collagen 3, collagen 4, laminin and collagen 6 in 3T3-L1 cells on Matrigel. Finally, Matrigel enhanced the response of 3T3-L1 cells to Rosiglitazone, which is a known PPARγ agonist and significantly increases lipid accumulation in 3T3-L1 cells. Our results suggest that enhanced lipid accumulation in 3T3-L1 cells on Matrigel is associated with decreased expression of ECM genes. Future studies require investigation of the cell-to-ECM interaction to confirm these findings. This study proposes that the nature of the ECM for cultured adipocytes alters temporal lipid accumulation patterns and response to various drugs as compared to 3T3-L1 cells grown on tissue culture plastic. / Thesis / Master of Science (MSc)

The Combined Effects Of Genistein And Daidzein On Adipocyte Differentiation

Kone, Oumou Habybat

29 August 2014

Dietary soy isoflavones have been shown to ameliorate insulin resistance and Type 2 diabetes. However, many in vitro studies used supra-physiological concentrations of individual isoflavones that make it difficult to interpret the results as potential mechanisms in vivo. Since the insulin-sensitizing effects of thiazolidinediones, anti-diabetic drugs, have been shown to be mediated through activation of peroxisome proliferators-activated receptor gamma (PPARγ), the key transcription factor for adipocyte differentiation, we examined the effects of the two main soy isoflavones genistein and daidzein either as individual compound or combined on adipocyte differentiation and PPARγ expression, as well as whether the Wnt/β-catenin signaling pathway is the underlying molecular mechanism. In 3T3-L1 cells, genistein and daidzein significantly enhanced adipocyte differentiation. Similarly the expression of PPARγ increased particularly at 20 µmol/L. The stimulatory effect is greater when the two isoflavones are combined, indicating a synergistic effect. Genistein and daidzein also increased the relative abundance of insulin-responsive glucose transporter 4 (GLUT4) mRNA with a greater effect when combined. Wnt10b expression was not affected by soy isoflavones treatments, while Wnt5b expression was only increased by the combination of genistein and daidzein. Our results suggest, that the combination of soy isoflavones has a greater effect in increasing the newly formation of adipocytes that are highly insulin-sensitive via an increase in PPARγ expression as well as increasing the expression of GLUT4. However, genistein and daidzein actions on Wnt signaling remain unclear. These data further support the epidemiological findings for the beneficial effect of soy consumption on insulin sensitivity.

Type 2 Diabetes

Soy isoflavones

Genistein and Daidzein

Adipocyte differentiation

Proteomic studies on protein N-terminus and peptide ion mobility by nano-scale liquid chromatography/tandem mass spectrometry / ナノスケール液体クロマトグラフィー/タンデム質量分析によるタンパク質N末端およびペプチドイオンモビリティーに関するプロテオミクス研究

Chang, Chih-Hsiang

23 March 2021

京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第23135号 / 薬科博第134号 / 新制||薬科||15(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 石濱 泰, 教授 松﨑 勝巳, 教授 加藤 博章 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

Tryp-N

N-terminomics

Strong cation exchange chromatography

Ion mobility spectrometry

Collision cross section

Adipocyte differentiation

499.3

Differential Expression of Surface Markers in Mouse Bone Marrow Mesenchymal Stromal Cell Subpopulations with Distinct Lineage Commitment

Anastassiadis, Konstantinos, Rostovskaya, Maria

18 January 2016

Bone marrow mesenchymal stromal cells (BM MSCs) represent a heterogeneous population of progenitors with potential for generation of skeletal tissues. However the identity of BM MSC subpopulations is poorly defined mainly due to the absence of specific markers allowing in situ localization of those cells and isolation of pure cell types. Here, we aimed at characterization of surface markers in mouse BM MSCs and in their subsets with distinct differentiation potential. Using conditionally immortalized BM MSCs we performed a screening with 176 antibodies and high-throughput flow cytometry, and found 33 markers expressed in MSCs, and among them 3 were novel for MSCs and 13 have not been reported for MSCs from mice. Furthermore, we obtained clonally derived MSC subpopulations and identified bipotential progenitors capable for osteo- and adipogenic differentiation, as well as monopotential osteogenic and adipogenic clones, and thus confirmed heterogeneity of MSCs. We found that expression of CD200 was characteristic for the clones with osteogenic potential, whereas SSEA4 marked adipogenic progenitors lacking osteogenic capacity, and CD140a was expressed in adipogenic cells independently of their efficiency for osteogenesis. We confirmed our observations in cell sorting experiments and further investigated the expression of those markers during the course of differentiation. Thus, our findings provide to our knowledge the most comprehensive characterization of surface antigens expression in mouse BM MSCs to date, and suggest CD200, SSEA4 and CD140a as markers differentially expressed in distinct types of MSC progenitors.

Knochenmarkszellen

Zellimmortalisation

Zelldifferenzierung

Mesenchymal stem cells

Cloning

Cell immortalization

Bone marrow cells

Cell differentiation

Flow cytometry

Adipocyte differentiation

Selection markers

ddc:610

rvk:XA 10000

Rôle de la prokinéticine-2 dans le tissu adipeux / Role of prokineticin-2 in adipose tissue

Szatkowski, Cécilia

26 September 2012

L’obésité est un facteur de risque pour de nombreuses maladies telles que le diabète de type 2 et les maladies cardiovasculaires. La prokinéticine-2 a été caractérisée comme une hormone anorexigène qui joue un rôle dans la régulation de l’appétit et le métabolisme énergétique via une action sur le récepteur PKR2 au niveau centrale.Cette étude consiste à étudier l’implication de la PK2 et de PKR1 dans le tissu adipeux et dans la physiopathologie de l’obésité. Les souris PKR1-/- dans lesquelles le gène codant pour PKR1 est totalement inactivé, présentent une obésité par hyperplasie, du fait de la prolifération des préadipocytes. Les souris PKR1-/- présentent un état diabétique, avec une insensibilité à l’insuline accrue et une forte intolérance au glucose. Les souris aP2-PKR1-/- dans lesquelles PKR1 est spécifiquement inactivé dans le tissu adipeux, présentent, elle aussi, une obésité hyperplasique, due de la prolifération des préadipocytes. In vitro, nos résultats montrent que la PK2 est capable d’inhiber la différenciation des préadipocytes en inhibant la prolifération des préadipocytes lors de la phase d’expansion clonale mitotique. Nos résultats permettent d’envisager un rôle de la PK2 et de son récepteur PKR1 dans le traitement de l’obésité. / Obesity is a risk factor for various disorders such as type 2 diabetes and cardiovascular diseases. The prokineticins, prokineticin-1 and prokineticin-2 bind two similar G protein-coupled receptors, PKR1 and PKR2. Prokineticin-2 is an anorexigenic hormone that plays a role in appetite regulation and energy metabolism, via a direct hypothalamic mechanism. Since adipocytes express mainly PKR1, we investigated the role of PKR1 in adipocyte functions. PKR1-null mutant mice exhibit increased body weight that is due to an increased visceral fat mass. Mutant adipose tissue is characterized by adipocyte hyperplasia due to an increase in number of proliferating preadipocyte. Mutant adipocytes exhibit downregulation of insulin signaling that is associated with glucose and insulin tolerance. Adipocyte-specific aP2-PKR1 knockout mice present also an increased visceral adipose tissue that lead to a slight increased body weight. Fat mass is also characterized by an hyperplasia and an increased preadipocyte proliferation. This mice present slight metabolic changes. Utilizing 3T3-L1 murine preadipocytes, our study reveals that prokineticin-2 exerts an antiadipogenic function in murine cells. Inhibition of adipogenesis mediated by prokineticin-2 involved PKR1. Prokineticin-2 also inhibits proliferation of preadipocytes. These results suggest that prokineticin-2 via PKR1 signaling plays a crucial role in adipogenesis and adipose tissue hyperplasia.

Prokinéticine-2

Tissu adipeux

Obésité

Insuline

Diabète

Prolifération adipocytaire

Différenciation adipocytaire

Prokineticin-2

Adipose tissue

Obesity

Insulin

Diabete

Adipocyte proliferation

Adipocyte differentiation

572.6

572.8

616.39

Impact of LYL1 deficiency on adipocyte differentiation / Rôle du facteur de transcription LYL1 dans la différentiation des adipocytes

Hussain, Abid

20 October 2015

LYL1 (Lymphoblastic leukemia-derived sequence 1) est un facteur de transcription basic hélice-boucle-hélice (bHLH) exprimé dans les lymphocytes B, les cellules myéloïdes et les cellules endothéliales (CE). Les souris déficientes pour Lyl1 (Lyl1-/-) sont viables et chez la souris adulte, LYL1 a un rôle majeur dans la maturation des vaisseaux sanguins nouvellement formés et dans le contrôle de la perméabilité vasculaire basale, suggérant l'importance de LYL1 dans le maintien de la quiescence et/ou stabilisation des CE. Les vaisseaux sanguins représentent une barrière entre le sang et le tissu conjonctif. Ils peuvent également jouer le rôle de niche vasculaire contenant des progéniteurs des différentes cellules murines (par exemple, des cellules hématopoïétiques, des cellules β-pancréatiques, des cellules neuronales, des cellules hépatiques et des cellules adipeuses). Les deux tissus adipeux, blancs et bruns (WAT et BAT), sont très vascularisés. Jusqu'à présent, rien n'était connu sur le rôle de LYL1 dans le tissu adipeux. Les résultats présentés dans cette thèse montrent que l'augmentation significative du poids corporel des mâles Lyl1-/- par rapport aux souris sauvages (WT), sous régime normal, n'est pas associée à des troubles métaboliques. Ils présentent également un poids plus élevé de tissus adipeux (WAT et BAT) et de plus grandes gouttelettes lipidiques. In vivo, la perte de Lyl1 accélère le processus de différenciation des cellules souches adipeuses (CSA), puisque les adipocytes blancs et bruns sont matures et actifs plus tôt. De plus, les CSA sont moins nombreuses dans les tissus adipeux, ce qui confirme que la perte de Lyl1 favorise la différenciation des CSA vers adipocytes matures. Nous avons également démontré que Lyl1 est exprimée dans les CSA et les pré-adipocytes, suggérant un rôle direct dans LYL1 dans la différenciation adipocytaire. D'autre part, les vaisseaux des WAT des souris Lyl1-/- sont mal recouverts de cellules murales et plus perméables, suggérant que la niche vasculaire des tissus adipeux pourrait être perturbée. Sous alimentation riche en graisses (HFD), le poids corporel et le poids du tissu adipeux sont plus faibles chez les souris Lyl1-/- par rapport à WT. De plus les souris Lyl1-/- présentent de plus petites gouttelettes lipidiques que les WT, sous HFD. Ces résultats préliminaires, suggèrent que les souris Lyl1-/- pourraient être protégées contre l'obésité induite par l'alimentation. Cependant d'autres expériences sont nécessaires pour valider ces résultats. Il existe probablement un mécanisme de compensation qui se met en place chez les souris Lyl1-/- sous HFD. Ce travail a démontré que, sans Lyl1, la différenciation adipocytaire est accélérée et que la niche vasculaire adipocytaire est perturbée. / LYL1 (Lymphoblastic leukemia-derived sequence 1) is a basic helix-loop-helix (bHLH) transcriptional factor, which is expressed in B lymphocytes, myeloid cells and endothelial cells (EC). Lyl1 deficient (Lyl1-/-) mice are viable and in adult mice, LYL1 has an active role in the maturation of newly formed blood vessels and is also involved in the control of basal vascular permeability, suggesting that LYL1 is required for the maintenance of EC quiescence and stabilization. Blood vessels provide a barrier between connective tissue and blood. They also have been described as “vascular niche” containing progenitors of different murine cells (e.g. hematopoietic cells, pancreatic β-cells, neuronal cells, liver cells and adipose cells). Both white and brown adipose tissues (WAT and BAT) are highly vascularized. Up to now, nothing was known concerning the role of LYL1 in adipose tissue. The results presented in this thesis revealed that the significant increase in body weight of Lyl1-/- males compared to their wild type (WT) littermates under chow diet is not due to any metabolic disorders. They also showed higher adipose tissue weights (BAT and WAT) and bigger lipid droplets. In vivo Lyl1 deficiency cause early differentiation process of adipose stem cells (ASCs) since both white and brown adipocytes are mature and active faster. In addition, ASCs are less numerous in Lyl1-/- adipose tissues, which confirm that Lyl1 deficiency favors the differentiation of ASCs towards mature adipocytes. We also demonstrated that Lyl1 is expressed both in ASCs and pre-adipocytes, suggesting a direct role of LYL1 in adipocyte differentiation. On the other hand, the vessels in Lyl1-/- WAT are poorly covered with mural cells and more permeable, proposing that adipose stem cell vascular niche could be disturbed. Under high fat diet (HFD), total body weight and adipose tissue weight are lower in Lyl1-/- mice compared to WT. Moreover smaller lipid droplets were observed in Lyl1-/- mice under HFD. These preliminary results suggest that Lyl1-/- mice could be protected from diet-induced obesity. However more experiments are needed to validate these results. Probably there is a compensatory type of mechanism going on under HFD in Lyl1-/- mice. This work demonstrated that under Lyl1 deficiency adipocyte differentiation process becomes faster and adipose tissue vascular niche could be disturbed.

Lyl1

Facteur de transcription

Niche vasculaire

Cellule endothéliale

Tissu adipeux

Différentiation adipocytaire

Lyl1

Transcriptional factor

Vascular niche

Endothelial cell

Adipose tissue

Adipocyte differentiation

Differential Expression of Surface Markers in Mouse Bone Marrow Mesenchymal Stromal Cell Subpopulations with Distinct Lineage Commitment

Anastassiadis, Konstantinos, Rostovskaya, Maria

18 January 2016

Bone marrow mesenchymal stromal cells (BM MSCs) represent a heterogeneous population of progenitors with potential for generation of skeletal tissues. However the identity of BM MSC subpopulations is poorly defined mainly due to the absence of specific markers allowing in situ localization of those cells and isolation of pure cell types. Here, we aimed at characterization of surface markers in mouse BM MSCs and in their subsets with distinct differentiation potential. Using conditionally immortalized BM MSCs we performed a screening with 176 antibodies and high-throughput flow cytometry, and found 33 markers expressed in MSCs, and among them 3 were novel for MSCs and 13 have not been reported for MSCs from mice. Furthermore, we obtained clonally derived MSC subpopulations and identified bipotential progenitors capable for osteo- and adipogenic differentiation, as well as monopotential osteogenic and adipogenic clones, and thus confirmed heterogeneity of MSCs. We found that expression of CD200 was characteristic for the clones with osteogenic potential, whereas SSEA4 marked adipogenic progenitors lacking osteogenic capacity, and CD140a was expressed in adipogenic cells independently of their efficiency for osteogenesis. We confirmed our observations in cell sorting experiments and further investigated the expression of those markers during the course of differentiation. Thus, our findings provide to our knowledge the most comprehensive characterization of surface antigens expression in mouse BM MSCs to date, and suggest CD200, SSEA4 and CD140a as markers differentially expressed in distinct types of MSC progenitors.

info:eu-repo/classification/ddc/610

ddc:610