Microarray Data >
Microarray Analyses during Adipogenesis: Understanding the
Effects of Wnt Signaling on Adipogenesis and the Roles of
Liver X Receptor alpha in Adipocyte Metabolism.
Ross SE1, Erickson RL1, Gerin I1,
DeRose PM2, Bajnok L1, Longo KA1,
Misek DE3, Kuick R3, Hanash SM3,
Atkins KB4, Andresen SM5, Nebb HI5,
Madsen L6, Kristiansen K7, MacDougald
OA1,2*.
Department of Physiology,1 Cell and Molecular
Biology Program,2 Department of Pediatrics and
Communicative Diseases,3 Department of Internal
Medicine,4 University of Michigan School of Medicine,
Ann Arbor, Michigan 48109. Institute for Nutrition Research,
University of Oslo, Oslo,5 Department of Clinical
Biochemistry, University of Bergen, Bergen,6
Norway. Department of Biochemistry and Molecular Biology,
University of Southern Denmark, Odense, Denmark7
*Address all correspondence to:
Ormond A. MacDougald
Department of Molecular and Integrative Physiology
University of Michigan Medical School
1301 E. Catherine St.,
Ann Arbor, MI 48109-0622
Phone: (734) 647-4880.
Fax: (734) 936-8813
E-mail: macdouga@umich.edu |
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Summary
Wnt signaling maintains preadipocytes in an undifferentiated
state. When Wnt signaling is enforced, 3T3-L1 preadipocytes
no longer undergo adipocyte conversion in response to
adipogenic medium. Here we used microarray analyses
to identify subsets of genes whose expression is aberrant
when differentiation is blocked through enforced Wnt
signaling. Furthermore, we used the microarray data
to identify potentially important adipocyte genes and
chose one of these, the liver X receptor alpha (LXRalpha),
for further analyses. Our studies indicate that enforced
Wnt signaling blunts the changes in gene expression
that correspond to mitotic clonal expansion, suggesting
that Wnt signaling inhibits adipogenesis in part through
dysregulation of the cell cycle. Experiments designed
to uncover the potential role of LXRalpha in adipogenesis
revealed that this transcription factor, unlike CCAAT/enhancer
binding protein alpha and peroxisome proliferator-activated
receptor gamma, is not adipogenic but rather inhibits
adipogenesis if inappropriately expressed and activated.
However, LXRalpha has several important roles in adipocyte
function. Our studies show that this nuclear receptor
increases basal glucose uptake and glycogen synthesis
in 3T3-L1 adipocytes. In addition, LXRalpha increases
cholesterol synthesis and release of nonesterified fatty
acids. Finally, treatment of mice with an LXRalpha agonist
results in increased serum levels of glycerol and nonesterified
fatty acids, consistent with increased lipolysis within
adipose tissue. These findings demonstrate new metabolic
roles for LXRalpha and increase our understanding of
adipogenesis.
PMID: 12138207
Supplemental Data
Please acknowledge use of these data in any publications.
1.
Genes that define the adipocyte phenotype (from Figure
2)
2.
Gene expression profiles during adipogenesis (from Figure
3)
3.
Complete microarray data set.
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