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Target Concepts:
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Query: UMLS:C0015695 (
fatty liver
)
13,941
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Peroxisome proliferator-activated receptor-gamma (PPARgamma), an orphan nuclear receptor, mediates adipocyte differentiation and is the cellular target for the thiazolidinedione group of insulin-sensitizing antidiabetic agents. We screened this receptor gene in a cohort of subjects with severe insulin resistance and have identified heterozygous missense mutations in several individuals from three families. Functional studies indicate that the receptor mutants are transcriptionally impaired and inhibit wild type PPARgamma action in a dominant-negative manner. The clinical phenotype of patients includes partial lipodystrophy, early-onset hypertension, dyslipidaemia and
hepatic steatosis
. Factors which contribute to the severe insulin resistance in affected individuals include diminished body fat mass, impaired lipid flux in adipose tissue and reduced circulating levels of adiponectin. In a large kindred of five individuals with severe insulin resistance, we have identified frameshift/premature stop mutations in PPARGAMMA; and the muscle-specific regulatory subunit of protein phosphatase 1 (
PPP1R3A
). The frameshift PPARgamma mutant exhibits complete loss of function with no dominant-negative activity; the
PPP1R3A
truncation mutant is mislocalized intracellularly. Individuals harbouring either gene defect alone have normal circulating insulin levels, but a combination of both genetic abnormalities co-segregates with severe insulin resistance.
...
PMID:Peroxisome proliferator-activated receptor-gamma and insulin action: insights from human genetics. 1467 97
Liver glycogen metabolism plays an important role in glucose homeostasis. Glycogen synthesis is mainly regulated by glycogen synthase that is dephosphorylated and activated by protein phosphatase 1 (PP1) in combination with glycogen-targeting subunits or G subunits. There are seven G subunits (
PPP1R3A
to G) that control glycogenesis in different organs. PPP1R3G is a recently discovered G subunit whose expression is changed along the fasting-feeding cycle and is proposed to play a role in postprandial glucose homeostasis. In this study, we analyzed the physiological function of PPP1R3G using a mouse model with liver-specific overexpression of PPP1R3G. PPP1R3G overexpression increases hepatic glycogen accumulation, stimulates glycogen synthase activity, elevates fasting blood glucose level, and accelerates postprandial blood glucose clearance. In addition, the transgenic mice have a reduced fat composition, together with decreased hepatic triglyceride level. Fasting-induced
hepatic steatosis
is relieved by PPP1R3G overexpression. In addition, PPP1R3G overexpression is able to elevate glycogenesis in primary hepatocytes. The glycogen-binding domain is indispensable for the physiological activities of PPP1R3G on glucose metabolism and triglyceride accumulation in the liver. Cumulatively, these data indicate that PPP1R3G plays a critical role in postprandial glucose homeostasis and liver triglyceride metabolism via its regulation on hepatic glycogenesis.
...
PMID:Regulation of glucose homeostasis and lipid metabolism by PPP1R3G-mediated hepatic glycogenesis. 2426 75
