Endothelial-derived FABP4 constitutes the majority of basal circulating hormone and regulates lipolysis-driven insulin secretion
Karen E. Inouye, Kacey J. Prentice, Alexandra Lee, Zeqiu B. Wang, Carla Dominguez-Gonzalez, Mu Xian Chen, Jillian K. Riveros, M. Furkan Burak, Grace Y. Lee, Gökhan S. Hotamışlıgil
Karen E. Inouye, Kacey J. Prentice, Alexandra Lee, Zeqiu B. Wang, Carla Dominguez-Gonzalez, Mu Xian Chen, Jillian K. Riveros, M. Furkan Burak, Grace Y. Lee, Gökhan S. Hotamışlıgil
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Research Article Endocrinology Metabolism

Endothelial-derived FABP4 constitutes the majority of basal circulating hormone and regulates lipolysis-driven insulin secretion

Abstract

Fatty acid binding protein 4 (FABP4) is a lipid chaperone secreted from adipocytes upon stimulation of lipolysis. Circulating FABP4 levels strongly correlate with obesity and metabolic pathologies in experimental models and humans. While adipocytes have been presumed to be the major source of hormonal FABP4, this question has not been addressed definitively in vivo. We generated mice with Fabp4 deletion in cells known to express the gene — adipocytes (Adipo-KO), endothelial cells (Endo-KO), myeloid cells (Myeloid-KO), and the whole body (Total-KO) — to examine the contribution of these cell types to basal and stimulated plasma FABP4 levels. Unexpectedly, baseline plasma FABP4 was not significantly reduced in Adipo-KO mice, whereas Endo-KO mice showed ~87% reduction versus WT controls. In contrast, Adipo-KO mice exhibited ~62% decreased induction of FABP4 responses to lipolysis, while Endo-KO mice showed only mildly decreased induction, indicating that adipocytes are the main source of increases in FABP4 during lipolysis. We did not detect any myeloid contribution to circulating FABP4. Surprisingly, despite the nearly intact induction of FABP4, Endo-KO mice showed blunted lipolysis-induced insulin secretion, identical to Total-KO mice. We conclude that the endothelium is the major source of baseline hormonal FABP4 and is required for the insulin response to lipolysis.

Authors

Karen E. Inouye, Kacey J. Prentice, Alexandra Lee, Zeqiu B. Wang, Carla Dominguez-Gonzalez, Mu Xian Chen, Jillian K. Riveros, M. Furkan Burak, Grace Y. Lee, Gökhan S. Hotamışlıgil

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Figure 7

Pancreas endothelial cells express FABP4, and Endo-KO islets show altered regulation of insulin secretion.

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Pancreas endothelial cells express FABP4, and Endo-KO islets show altere...
(A) Upper panel: Representative FABP4 immunostaining of pancreas of WT, Adipo-KO, Endo-KO, and Myeloid-KO mice. Islets are encircled by black dotted lines. Magnification, 400×. Lower panel: 2× enlargement of boxed area in upper panel. (B) Representative insulin immunostaining of pancreas from WT, Adipo-KO, Endo-KO, and Total-KO mice; magnification, 80×. (C) Quantification of insulin-positive area. Pool of 2 experiments. WT: n = 5; Adipo-KO, Endo-KO, Total-KO: n = 6/group. (D) Insulin secretion from isolated islets of WT, Adipo-KO, Endo-KO, and Total-KO mice in response to low glucose (LG, 2.8 mM), high glucose (HG, 16.7 mM), HG + forskolin (FSK, 10 μM), and HG + KCl (30 mM). Insulin secretion is normalized to cellular DNA. LG, HG: n = 4/group. HG + FSK or KCl: n = 3/group. (E) Fold-increase in insulin secretion induced by HG + FSK (10 μM) over HG from 7D. *P < 0.05, **P < 0.01, ***P < 0.001 by 1-way ANOVA followed by Tukey’s (C and E) or Dunnett’s (D) multiple-comparison test. HG Endo-KO is P < 0.05 by t test (D).