Perilipin 2 downregulation in β cells impairs insulin secretion under nutritional stress and damages mitochondria
Akansha Mishra, Siming Liu, Joseph Promes, Mikako Harata, William Sivitz, Brian Fink, Gourav Bhardwaj, Brian T. O’Neill, Chen Kang, Rajan Sah, Stefan Strack, Samuel Stephens, Timothy King, Laura Jackson, Andrew S. Greenberg, Frederick Anokye-Danso, Rexford S. Ahima, James Ankrum, Yumi Imai
Akansha Mishra, Siming Liu, Joseph Promes, Mikako Harata, William Sivitz, Brian Fink, Gourav Bhardwaj, Brian T. O’Neill, Chen Kang, Rajan Sah, Stefan Strack, Samuel Stephens, Timothy King, Laura Jackson, Andrew S. Greenberg, Frederick Anokye-Danso, Rexford S. Ahima, James Ankrum, Yumi Imai
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Research Article Endocrinology Metabolism

Perilipin 2 downregulation in β cells impairs insulin secretion under nutritional stress and damages mitochondria

Abstract

Perilipin 2 (PLIN2) is a lipid droplet (LD) protein in β cells that increases under nutritional stress. Downregulation of PLIN2 is often sufficient to reduce LD accumulation. To determine whether PLIN2 positively or negatively affects β cell function under nutritional stress, PLIN2 was downregulated in mouse β cells, INS1 cells, and human islet cells. β Cell–specific deletion of PLIN2 in mice on a high-fat diet reduced glucose-stimulated insulin secretion (GSIS) in vivo and in vitro. Downregulation of PLIN2 in INS1 cells blunted GSIS after 24-hour incubation with 0.2 mM palmitic acid. Downregulation of PLIN2 in human pseudoislets cultured at 5.6 mM glucose impaired both phases of GSIS, indicating that PLIN2 is critical for GSIS. Downregulation of PLIN2 decreased specific OXPHOS proteins in all 3 models and reduced oxygen consumption rates in INS1 cells and mouse islets. Moreover, we found that PLIN2-deficient INS1 cells increased the distribution of a fluorescent oleic acid analog to mitochondria and showed signs of mitochondrial stress, as indicated by susceptibility to fragmentation and alterations of acyl-carnitines and glucose metabolites. Collectively, PLIN2 in β cells has an important role in preserving insulin secretion, β cell metabolism, and mitochondrial function under nutritional stress.

Authors

Akansha Mishra, Siming Liu, Joseph Promes, Mikako Harata, William Sivitz, Brian Fink, Gourav Bhardwaj, Brian T. O’Neill, Chen Kang, Rajan Sah, Stefan Strack, Samuel Stephens, Timothy King, Laura Jackson, Andrew S. Greenberg, Frederick Anokye-Danso, Rexford S. Ahima, James Ankrum, Yumi Imai

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Figure 2

Islets from β cell–specific PLIN2-KO mice on high-fat diets showed impaired insulin secretion and impaired mitochondrial function.

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Islets from β cell–specific PLIN2-KO mice on high-fat diets showed impai...
(A) Insulin secretion measured by static incubation at indicated concentrations of glucose ± 0.5 mM PA for 1 hour corrected for total insulin contents in islets of high-fat diet–fed WT and β cell–specific PLIN2-KO mice (βKO). (B) Total insulin contents per islet for A. n = 9 for WT (3 WTfl and 6 WTcre) and 8 for βKO. #P < 0.05 versus WT 1.8 mM glucose, &P < 0.05 versus WT 16.8 mM glucose + PA by 1-way ANOVA with Sidak’s multiple-comparison test. (C and D) Expression of Ddit3 (C) and Hspa5 (D) in βKO and WT littermates determined by qPCR using Ppib as an internal control. n = 8 for WT (5 WTfl and 3 WTcre) and 6 for βKO. (E) Oxygen consumption rate (OCR) by Seahorse metabolic analyzer in high-fat fed WT (WTfl) and βKO islets corrected for DNA. (F and G) Glucose response (F) and maximal respiration (G) from E. n = 3 for WTfl and 4 for βKO. (H) Representative Western blot and densitometry data comparing OXPHOS complexes between WT and βKO islets from high-fat diet–fed mice. Data are expressed taking average of OXPHOS/α-tubulin in WT for each complex as 1. n = 7 for WT (2WTfl and 5 WTcre) and 7 for βKO. Data are mean ± SEM *P < 0.05 by Student’s t test.