Regulation of adipogenesis in obesity by hydroxymethylation More than two thirds of adults, and almost one third of adolescents in America are overweight or obese, with combined medical costs amounting to over $147 billion annually. In obesity, white adipose tissue expands due to the growth of existing adipocytes and the differentiation of new adipocytes from adipose stem cell progenitors (APs). It has been suggested that adipogenesis is regulated by hydroxymethylation, a form of epigenetic regulation. Epigenetics refers to heritable gene function changes that occur without nucleotide sequence changes. The Ten-eleven-translocation family of dioxygenases (TET1-3) regulates cell fate decisions by oxidizing 5-methylcytosine (5mC), a marker of gene silencing, to 5-hydroxymethylcytosine (5hmC), a stable marker of gene activation. Understanding the role of hydroxymethylation in regulating adipose differentiation is critical for understanding the mechanisms governing its expansion and may provide insight into novel targets for anti-obesity therapies. I will test the hypothesis that Tet1 catalyzes the hydroxymethylation required to upregulate adipogenic genes necessary for adipocyte progenitor differentiation.
My first aim i s to characterize the spatiotemporal changes in hydroxymethylation during diet-induced obesity (DIO) and identify the cell types in which these changes occur. Preliminary experiments using murine models of DIO indicate that hydroxymethylation patterns in visceral and subcutaneous adipose change dramatically over the course of obesity. Spatiotemporally mapping these changes will identify when epigenetic changes occur, and which cell types are affected.
My second aim i s to determine which genes are regulated by hydroxymethylation in adipose progenitor stem cells. In obesity, APs divide and differentiate, causing fat pad growth. This important population of cells can be isolated for study using fluorescence-activated cell sorting. Characterizing how changes in methylation patterns alter gene expression in APs may uncover novel insights into the regulation of adipogenesis. Antibodies that detect epigenetic modifications (5mC or 5hmC) can selectively enrich regions of DNA that have been modified, and combined with next-generation sequencing, this approach will identify genes that are being silenced or activated. These experiments may identify novel regulators of adipogenesis.
My third aim i s to determine if Tet1 is the enzyme that catalyzes hydroxymethylation to regulate adipogenesis. Preliminary studies in mouse visceral adipose tissue show that Tet1 mRNA increases after high-fat diet feeding and that 5hmC accumulates, but it is currently not known which Tet isoform is responsible. Transgenic mice lacking Tet1 have been generated, but the phenotype of their adipose tissue and their response to high-fat diet have not been explored. These experiments will help determine if Tet1 is required for adipogenesis.

Public Health Relevance

Obesity is defined by excess white adipose tissue, which expands by increasing the size of existing adipocytes and producing new adipocytes from stem cell precursors. This process is called adipogenesis and it may be regulated by epigenetics, which refers to changes in gene expression in the absence of changes to the nucleotide sequence. Understanding how epigenetic changes such as hdyroxymethylation regulate adipogenesis will further our understanding of the molecular pathways involved in adipose expansion, and may reveal new targets for anti-obesity therapies.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Individual Predoctoral NRSA for M.D./Ph.D. Fellowships (ADAMHA) (F30)
Project #
5F30DK112569-02
Application #
9378740
Study Section
Special Emphasis Panel (ZDK1)
Program Officer
Castle, Arthur
Project Start
2016-09-16
Project End
2018-09-15
Budget Start
2017-09-16
Budget End
2018-09-15
Support Year
2
Fiscal Year
2017
Total Cost
Indirect Cost
Name
Yale University
Department
Type
Graduate Schools
DUNS #
043207562
City
New Haven
State
CT
Country
United States
Zip Code
06520
Ying, Lee D; Breuer, Gregory A; Hubbard, Matthew O et al. (2018) Technical Feasibility of a Murine Model of Sleeve Gastrectomy with Ileal Transposition. Obes Surg :