TY - JOUR
T1 - ASXL2 Regulates Glucose, Lipid, and Skeletal Homeostasis
AU - Izawa, Takashi
AU - Rohatgi, Nidhi
AU - Fukunaga, Tomohiro
AU - Wang, Qun Tian
AU - Silva, Matthew J.
AU - Gardner, Michael J.
AU - McDaniel, Michael L.
AU - Abumrad, Nada A.
AU - Semenkovich, Clay F.
AU - Teitelbaum, Steven L.
AU - Zou, Wei
N1 - Publisher Copyright:
© 2015 The Authors.
PY - 2015/6/16
Y1 - 2015/6/16
N2 - ASXL2 is an ETP family protein that interacts with PPARγ. We find that ASXL2-/- mice are insulin resistant, lipodystrophic, and fail to respond to a high-fat diet. Consistent with genetic variation at the ASXL2 locus and human bone mineral density, ASXL2-/- mice are also severely osteopetrotic because of failed osteoclast differentiation attended by normal bone formation. ASXL2 regulates the osteoclast via two distinct signaling pathways. It induces osteoclast formation in a PPARγ/c-Fos-dependent manner and is required for RANK ligand- and thiazolidinedione-induced bone resorption independent of PGC-1β. ASXL2 also promotes osteoclast mitochondrial biogenesis in a process mediated by PGC-1β but independent of c-Fos. Thus, ASXL2 is a master regulator of skeletal, lipid, and glucose homeostasis. ASXL2 regulates glucose homeostasis, adipogenesis, and osteoclast differentiation by activating PPARγ. Izawa et al. find that ASXL2-deficient mice are insulin resistant, lipodystrophic, and osteopetrotic. ASXL2 promotes osteoclast formation in a Fos-dependent manner independent of PGC-1β. ASXL2 enhances osteoclast mitochondrial biogenesis in a process mediated by PGC-1β but independent of c-Fos.
AB - ASXL2 is an ETP family protein that interacts with PPARγ. We find that ASXL2-/- mice are insulin resistant, lipodystrophic, and fail to respond to a high-fat diet. Consistent with genetic variation at the ASXL2 locus and human bone mineral density, ASXL2-/- mice are also severely osteopetrotic because of failed osteoclast differentiation attended by normal bone formation. ASXL2 regulates the osteoclast via two distinct signaling pathways. It induces osteoclast formation in a PPARγ/c-Fos-dependent manner and is required for RANK ligand- and thiazolidinedione-induced bone resorption independent of PGC-1β. ASXL2 also promotes osteoclast mitochondrial biogenesis in a process mediated by PGC-1β but independent of c-Fos. Thus, ASXL2 is a master regulator of skeletal, lipid, and glucose homeostasis. ASXL2 regulates glucose homeostasis, adipogenesis, and osteoclast differentiation by activating PPARγ. Izawa et al. find that ASXL2-deficient mice are insulin resistant, lipodystrophic, and osteopetrotic. ASXL2 promotes osteoclast formation in a Fos-dependent manner independent of PGC-1β. ASXL2 enhances osteoclast mitochondrial biogenesis in a process mediated by PGC-1β but independent of c-Fos.
UR - http://www.scopus.com/inward/record.url?scp=84937632908&partnerID=8YFLogxK
U2 - 10.1016/j.celrep.2015.05.019
DO - 10.1016/j.celrep.2015.05.019
M3 - Article
C2 - 26051940
AN - SCOPUS:84937632908
SN - 2639-1856
VL - 11
SP - 1625
EP - 1637
JO - Cell Reports
JF - Cell Reports
IS - 10
ER -