Project description:Obesogenic compounds are chemicals that might have an influence on obesity development through in utero or chronic lifetime exposure. Tributyltin (TBT) is one of the most studied obesogenic compounds, inducing adipogenesis in vitro and increasing body fat after in utero exposure of mice. This study was designed to unravel the molecular mechanisms of TBT, using microarray analysis, and to evaluate the use of toxicogenomics for obesogen screening. The murine 3T3-L1 cell line was used to study TBT induced adipogenesis. Lipid staining as well as gene expression measurements of an adipocyte specific marker gene were performed to select relevant concentrations (10 nM, 50 nM) and time points (day1, day10) for microarray analysis. Additionally, solvent control and positive control (MDI) treated 3T3-L1 cells were included in the analysis. The microarray results were analysed using GO enrichment and Pathway analysis tools, which revealed enrichment of several GO terms involved in energy and fat metabolism after 10 days of TBT exposure. Pathway analysis unveiled PPAR signalling pathway as the sole pathway significantly enriched after 1 day and the most significantly enriched pathway after 10 days of exposure. By examination of effects on both cell physiological and gene expression level we provide a detailed overview of TBT induced obesogenic mechanisms. To our knowledge, this is the first study delivering an in depth mechanistic outline of the mode of action of TBT as an obesogen. Furthermore, our results show that combining omics with 3T3-L1 cells is promising for screening of potential obesogenic compounds. A separate v+2 A-optimal hybridization design was used for each time-point. Using this design each exposure condition is represented by three biological replicates, with each biological replicate analysed in technical duplicate while applying the dye swap principle to correct for dye bias. Two concentrations of TBT (10 nM, 50 nM), DMSO and MDI (positive control, adipogenic hormone cocktail) were the conditions tested, at two time-points (day 1 and day10).

Project description:The obesogen hypothesis states that exposure to environmental compounds early in life or throughout lifetime might have an influence on obesity development. In this paper a new approach for obesogen screening is proposed, namely the use of transcriptomics in the 3T3-L1 pre-adipocyte cell line. Based on the data from a previous study of our group using a lipid accumulation based adipocyte differentiation assay, several humanly relevant obesogenic compounds were selected: reference obesogens [Rosiglitazone (ROSI), Tributyltin (TBT)], test obesogens [Butylbenzyl phthalate (BBP), butylparaben (BP), propylparaben (PP), Bisphenol A (BPA)] and non-obesogens [Ethylene Brassylate (EB), Bis (2-ethylhexyl)phthalate (DEHP)]. In this paper, the high stability and reproducibility of the 3T3-L1 gene transcription patterns over different experiments and cell batches was shown. Obesogens and non-obesogen gene transcription profiles were clearly distinguished using hierarchical clustering. Furthermore, a gradual distinction corresponding to differences in induction of lipid accumulation could be made between test and reference obesogens based on transcription patterns, indicating the potential use of this strategy for classification of obesogens. Marker genes that are able to distinguish between non, test and reference obesogens were identified. Well known genes involved in adipocyte differentiation, as well as genes with unknown functions were selected, implying a potential adipocyte related function of the latter. Cell physiological lipid accumulation was well predicted based on transcription levels of the marker genes, indicating the biological relevance of omics data. In conclusion, this study shows the high relevance and reproducibility of this 3T3-L1 based in vitro toxicogenomics tool for classification of obesogens and biomarker discovery. The hybridization design was a reference design (reference sample was a mixture of equal aliquots from control and exposed samples), recommended for class discovery purposes (Knapen et al. 2009). The reference sample was labeled with Cy5, and the exposed samples with Cy3. Three biological replicates were measured for every condition.

Project description:The obesogen hypothesis states that exposure to environmental compounds early in life or throughout lifetime might have an influence on obesity development. In this paper a new approach for obesogen screening is proposed, namely the use of transcriptomics in the 3T3-L1 pre-adipocyte cell line. Based on the data from a previous study of our group using a lipid accumulation based adipocyte differentiation assay, several humanly relevant obesogenic compounds were selected: reference obesogens [Rosiglitazone (ROSI), Tributyltin (TBT)], test obesogens [Butylbenzyl phthalate (BBP), butylparaben (BP), propylparaben (PP), Bisphenol A (BPA)] and non-obesogens [Ethylene Brassylate (EB), Bis (2-ethylhexyl)phthalate (DEHP)]. In this paper, the high stability and reproducibility of the 3T3-L1 gene transcription patterns over different experiments and cell batches was shown. Obesogens and non-obesogen gene transcription profiles were clearly distinguished using hierarchical clustering. Furthermore, a gradual distinction corresponding to differences in induction of lipid accumulation could be made between test and reference obesogens based on transcription patterns, indicating the potential use of this strategy for classification of obesogens. Marker genes that are able to distinguish between non, test and reference obesogens were identified. Well known genes involved in adipocyte differentiation, as well as genes with unknown functions were selected, implying a potential adipocyte related function of the latter. Cell physiological lipid accumulation was well predicted based on transcription levels of the marker genes, indicating the biological relevance of omics data. In conclusion, this study shows the high relevance and reproducibility of this 3T3-L1 based in vitro toxicogenomics tool for classification of obesogens and biomarker discovery.

Project description:Ancestral environmental exposures to non-mutagenic agents can exert effects in unexposed descendants, adding a layer of complexity to long-standing attempts to clarify the relationships between genotypic and phenotypic variations. Transgenerational inheritance of environmental exposures has significant implications for understanding disease etiology. The environmental obesogen hypothesis proposes that exposure to obesogenic chemicals can lead to increased adiposity, in vivo. Here we show that exposure of F0 mice to the obesogen tributyltin (TBT) throughout pregnancy and lactation predisposes unexposed F4 male descendants to obesity when dietary fat is increased. Analyses of body fat, plasma hormone levels, and visceral white adipose tissue DNA methylome and transcriptome collectively indicate that the TBT-dependent F4 obesity is consistent with a leptin resistant, "thrifty phenotype". We found that ancestral TBT exposure induced global changes in DNA methylation together with altered expression of metabolism-relevant genes when the animals were exposed to dietary challenges. Analysis of chromatin accessibility in sperm revealed significant differences between DMSO and TBT groups when guided by DNA sequence composition, a proxy for higher order chromatin organization. Taken together, these data establish an independent connection between ancestral TBT treatment and altered chromatin accessibility that may reflect changes in higher order chromatin organization transmissible through meiosis and mitosis.

Project description:Organotin compounds are highly persistent organic pollutants that bioaccumulate in marine biota, behaving as potent endocrine disruptors. Tributyltin (TBT) has been described as an environmental obesogen, as it contributes in mammals to lipid accumulation in a mechanism mediated by PPARγ and RXR. With the aim of studying the molecular mechanisms that elicit TBT-induced pathogenesis in fish, thicklip grey mullets Chelon labrosus were exposed to low (10 ng/L) and high (500 ng/L) TBT concentrations for 1, 7 and 21 days, and gene transcription and metabolome profiles were studied. With this purpose, the multitissue transcriptome of mullet was sequenced by 454 pyrosequencing obtaining 126 Mb of sequence information. Assembly and annotation allowed spotting 8330 gene signatures on an oligonucleotide microarray that was used to identify hepatic gene transcription profiles specific to each TBT exposure set-up. Functional pathway analysis revealed that early profiles were characterized by genes related to response to organic substances and to oxidative stress and glucose metabolic processes. After 21 days of exposure, enriched GO terms in both concentrations were related to lipid homeostasis with a significant regulation of steroid metabolic and cholesterol biosynthetic processes. Also, the androgen receptor signalling pathway was regulated while PPAR signalling appeared as the most significantly regulated KEGG pathway. Neutral lipid accumulation measured by Oil-Red-O histochemistry did not show any treatment-related effect but hepatic and plasma NMR and GC-MS metabolomic analysis revealed distinctive metabolites. Aqueous profiles were characterised by lactate, glucose and alanine while GC-MS revealed a whole set of discriminating polyunsaturated fatty acids. Thus, TBT pathogenesis involves alterations of lipid metabolism through a mechanism that could involve PPARγ-regulated processes confirming the obesogen hypothesis for TBT in fish. Thicklip grey mullets were exposed to tributyltin (TBT). 3 treatments: control, TBT low dose (10ng/L), TBT high dose (500ng/L); 3 sampling times: 1 day, 1 week, 3 weeks. 6 mullets were dissected in each sampling point and group.

Project description:Exposure of pregnant F0 mouse dams to the obesogen tributyltin (TBT) predisposes unexposed male descendants to obesity and diverts mesenchymal stem cells (MSCs) toward the adipocytic lineage. TBT also promotes adipogenic commitment and differentiation of MSCs, in vitro. We sought to identify TBT-induced factors predisposing MSCs toward the adipocytic fate. We exposed mouse MSCs to TBT, the PPARγ-selective agonist rosiglitazone or the RXR-selective agonist LG-100268 and determined their transcriptomal profiles to determine candidate microRNAs (miR) regulating adipogenic commitment and differentiation. Of the top 10 candidate microRNAs predicted by Ingenuity Pathway Analysis, miR-21, miR-33 and miR-223 were expressed to regulate genes differentially expressed in adipogenesis. After exposing to 50 nM TBT for 24 hours, miR-223 levels of MSCs were increased and expression of its target genes ZEB1, NFIB, and FOXP1 decreased. Both ROSI and TBT increased miR-223 levels, and this induction was inhibited by PPARγ antagonists (T0070907) but not RXR antagonists (HX531, UVI3003), placing miR-223 downstream of PPARγ. Chromatin immunoprecipitation confirmed TBT-induced binding of PPARγ to regulatory elements in the miR-223 promoter. miR-223 levels were elevated in ancestral TBT exposed F2 and F3 male adipose tissues and further increased when animals were fed with a high fat diet. TBT induced miR-223 expression and adipogenesis in MSCs through the PPARγ pathway and promoted elevated miR-223 expression in white adipose tissue of F2 and F3 male descendants of F0 treated dams. This shows that transgenerationally increased expression of miR-223 plays an important role in the transmission of the obese phenotype after TBT exposure.

Project description:Organotin compounds are highly persistent organic pollutants that bioaccumulate in marine biota, behaving as potent endocrine disruptors. Tributyltin (TBT) has been described as an environmental obesogen, as it contributes in mammals to lipid accumulation in a mechanism mediated by PPARγ and RXR. With the aim of studying the molecular mechanisms that elicit TBT-induced pathogenesis in fish, thicklip grey mullets Chelon labrosus were exposed to low (10 ng/L) and high (500 ng/L) TBT concentrations for 1, 7 and 21 days, and gene transcription and metabolome profiles were studied. With this purpose, the multitissue transcriptome of mullet was sequenced by 454 pyrosequencing obtaining 126 Mb of sequence information. Assembly and annotation allowed spotting 8330 gene signatures on an oligonucleotide microarray that was used to identify hepatic gene transcription profiles specific to each TBT exposure set-up. Functional pathway analysis revealed that early profiles were characterized by genes related to response to organic substances and to oxidative stress and glucose metabolic processes. After 21 days of exposure, enriched GO terms in both concentrations were related to lipid homeostasis with a significant regulation of steroid metabolic and cholesterol biosynthetic processes. Also, the androgen receptor signalling pathway was regulated while PPAR signalling appeared as the most significantly regulated KEGG pathway. Neutral lipid accumulation measured by Oil-Red-O histochemistry did not show any treatment-related effect but hepatic and plasma NMR and GC-MS metabolomic analysis revealed distinctive metabolites. Aqueous profiles were characterised by lactate, glucose and alanine while GC-MS revealed a whole set of discriminating polyunsaturated fatty acids. Thus, TBT pathogenesis involves alterations of lipid metabolism through a mechanism that could involve PPARγ-regulated processes confirming the obesogen hypothesis for TBT in fish.

Project description:Obesogens such as tributyltin (TBT) are xenobiotic compounds that promote obesity, in part by distorting the normal balance of lipid metabolism. The obesogenic effects of TBT can be observed in directly exposed (F1 and F2 generations) and also subsequent generations (F3 and beyond) that were never exposed. To address the effects of TBT exposure on germ cells, we exposed pregnant transgenic OG2 mouse dams (F0), which specifically express EGFP in germline cells, to an environmentally relevant dose of TBT throughout gestation through drinking water. When fed with a high fat diet (HFD), F3 male offspring of TBT-exposed F0 dams (TBT-F3) accumulated much more body fat than did Control-F3 males. TBT-F3 males also lost more body fluid and lean compositions than did Control-F3 males. Expression of genes involved in transcriptional regulation or mesenchymal differ-entiation was upregulated in somatic cells of TBT-F1 (but not TBT-F3) E18.5 fetal testes, and promoter-associated CpG islands were hyper-methylated in TBT-F1 somatic cells. Global mRNA expression of protein-coding genes in F1 or F3 fetal testicular cells was unaffected by F0 exposure to TBT; however, expression of a subset of endogenous retroviruses was significantly affected in F1 and F3. We infer that TBT may directly target testicular somatic cells in F1 testes to irreversibly affect epigenetic suppression of endogenous retroviruses in both germline and somatic cells.

Project description:Paral1 is a novel adipocyte-specific lincRNA upregulated during adipogenesis of 3T3-L1 cells. Knockdown of Paral1 by siRNA transfection in 3T3-L1 cells followed by transcriptomic analyses was performed.

Project description:Metabolic syndrome is an important public concern and demand for effective therapeutic strategies. Abdominal obesity, especially an increase in the visceral adipose tissue, is the main cause of this syndrome. Flavonoids are expected to improve risk factors for metabolic syndrome. Bilberry, original species of blueberry containing anthocyanidin flavonoids have been used for centuries in Europe to ameliorate the symptoms of diabetes, but their effects and the mechanisms on lipid accumulation of adipocyte cells are not well defined. In the present study, we investigated effects of the Bilberry extract on differentiation of adipocytes using 3T3-L1 adipocyte cell line. Exposure to Bilberry extract during the early period of adipogenesis (6 days) was significantly inhibited adipocyte differentiation of 3T3-L1. During this period, Bilberry extract greatly down-regulated the mRNA levels of the key adipogenesis-associated markers peroxisome proliferator-activated receptor-γ (PPARγ). Furthermore, Bilberry extract significantly decreased expression of the transcription factor Sterol Regulatory Element Binding Protein 1c (SREBP1c), which plays a central role in adipocyte differentiation including the induction of PPARγ. The expression of SREBP1c is remarkably enhanced in response to insulin, thus raises the possibility that Bilberry extract might inhibit the Insulin pathway. So, We investigated whether Billberry extract and anthocyanidines turned the insulin signaling pathway using microarray. As a result, Gene Set Enrichment Analysis (GSEA) shows that these additives turned insulin signaling pathway certainly. We quantified expression profiles of whole mRNAs by microarray in the adipocyte from 3T3-L1 with or without additives. 3T3-L1 preadipocytes (American Type Culture Collection, Manassas, VA) were grown to confluence in DMEM media (Sigma Aldrich, Tokyo, Japan) with 10% calf serum and penicillin (100 U/ml)/streptomycin (100 ug/ml). Adipogenesis was induced using an adipogenesis assay kit (Chemicon International, Temecula, CA). On day 0, cells were induced with initiation media (10 ug/ml insulin, 1 uM dexamethasone and 0.5 uM IBMX in DMEM media added with 1: 0.1% DMSO, 2: 100 ug/ml Bilberry extract, 3: 100 nM Delphinidin or 4: 100 nM Cyanidin (total 4 samples). On day 2, harvested the cells, extracted total RNA and did microarray experiments.