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Mol Metab-Fetal development of subcutaneous white adipose tissue is dependent on Zfp423.pdf (6.05 MB)
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Mol Metab-Fetal development of subcutaneous white adipose tissue is dependent on Zfp423.pdf

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journal contribution
posted on 2019-03-04, 22:01 authored by Mengle Shao, Chelsea Hepler, Lavanya Vishvanath, Karen A. MacPherson, Napoleon Busbuso, Rana Gupta
Zfp423 is a multi zinc-finger transcription factor expressed in preadipocytes and mature adipocytes in vivo. Our recent work has
revealed a critical role for Zfp423 in maintaining the fate of white adipocytes in adult mice through suppression of the beige cell thermogenic gene
program; loss of Zfp423 in mature adipocytes of adult mice results in a white-to-beige phenotypic switch. However, the exact requirements of
Zfp423 in the fetal stages of early adipose development in vivo have not been clarified.Here, we utilize two models that confer adipose-specific Zfp423 inactivation during fetal adipose development (Adiponectin-Cre;
Zfp423loxP/loxP and Adiponectin-rtTA; TRE-Cre; Zfp423loxP/loxP). We assess the impact of fetal adipose Zfp423 deletion on the initial formation of
adipose tissue and evaluate the metabolic consequences of challenging these animals with high-fat diet feeding.Deletion of Zfp423 during fetal adipose development results in a different phenotype than is observed when deleting Zfp423 in adipocytes
of adult mice. Inactivation of Zfp423 during fetal adipose development results in arrested differentiation, specifically of inguinal white
adipocytes, rather than a white-to-beige phenotypic switch that occurs when Zfp423 is inactivated in adult mice. This is likely explained by the
observation that adiponectin driven Cre expression is active at an earlier stage of the adipocyte life cycle during fetal subcutaneous adipose
development than in adult mice. Upon high-fat diet feeding, obese adipose Zfp423-deficient animals undergo a pathological adipose tissue
expansion, associated with ectopic lipid deposition and systemic insulin resistance.Our results reveal that Zfp423 is essential for the terminal differentiation of subcutaneous white adipocytes during fetal adipose
tissue development. Moreover, our data highlight the striking adverse effects of pathological subcutaneous adipose tissue remodeling on visceral
adipose function and systemic nutrient homeostasis in obesity. Importantly, these data reveal the distinct phenotypes that can occur when
adiponectin driven transgenes are activated in fetal vs. adult adipose tissue.


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