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- Title
Adipose tissue‐derived FABP4 mediates glucagon‐stimulated hepatic glucose production in gestational diabetes.
- Authors
Ron, Idit; Mdah, Ragad; Zemet, Roni; Ulman, Rakefet Yoeli; Rathaus, Moran; Brandt, Benny; Mazaki‐Tovi, Shali; Hemi, Rina; Barhod, Ehud; Tirosh, Amir
- Abstract
Aims: One of the most common complications of pregnancy is gestational diabetes mellitus (GDM), which may result in significant health threats of the mother, fetus and the newborn. Fatty acid‐binding protein 4 (FABP4) is an adipokine that regulates glucose homeostasis by promoting glucose production and liver insulin resistance in mouse models. FABP4 levels are increased in GDM and correlates with maternal indices of insulin resistance, with a rapid decline post‐partum. We therefore aimed to determine the tissue origin of elevated circulating FABP4 levels in GDM and to assess its potential contribution in promoting glucagon‐induced hepatic glucose production. Materials and Methods: FABP4 protein and gene expression was determined in biopsies from placenta, subcutaneous (sWAT) and visceral (vWAT) white adipose tissues from GDM and normoglycaemic pregnant women. FABP4 differential contribution in glucagon‐stimulated hepatic glucose production was tested in conditioned media before and after its immune clearance. Results: We showed that FABP4 is expressed in placenta, sWAT and vWAT of pregnant women at term, with a significant increase in its secretion from vWAT of women with GDM compared with normoglycaemic pregnant women. Neutralizing FABP4 from both normoglycaemic pregnant women and GDM vWAT secretome, resulted in a decrease in glucagon‐stimulated hepatic glucose production. Conclusions: This study provides new insights into the role of adipose tissue‐derived FABP4 in GDM, highlighting this adipokine, as a potential co‐activator of glucagon‐stimulated hepatic glucose production during pregnancy.
- Subjects
GESTATIONAL diabetes; ADIPOSE tissues; FATTY acid-binding proteins; GLUCOSE; PREGNANCY complications; PREGNANT women; INSULIN resistance
- Publication
Diabetes, Obesity & Metabolism, 2023, Vol 25, Issue 11, p3192
- ISSN
1462-8902
- Publication type
Article
- DOI
10.1111/dom.15214