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ApoA-I Protects Pancreatic β-Cells From Cholesterol-Induced Mitochondrial Damage and Restores Their Ability to Secrete Insulin

Bikash Manandhar, Elvis Pandžić, Nandan Deshpande, Sing-Young Chen, Valerie C. Wasinger, Maaike Kockx, Elias N. Glaros, Kwok Leung Ong, Shane R. Thomas, Marc R. Wilkins, Renée Whan, Blake J. Cochran, Kerry‐Anne Rye

2023Arteriosclerosis Thrombosis and Vascular Biology12 citationsDOIOpen Access PDF

Abstract

BACKGROUND: High cholesterol levels in pancreatic β-cells cause oxidative stress and decrease insulin secretion. β-cells can internalize apo (apolipoprotein) A-I, which increases insulin secretion. This study asks whether internalization of apoA-I improves β-cell insulin secretion by reducing oxidative stress. METHODS: Ins-1E cells were cholesterol-loaded by incubation with cholesterol-methyl-β-cyclodextrin. Insulin secretion in the presence of 2.8 or 25 mmol/L glucose was quantified by radioimmunoassay. Internalization of fluorescently labeled apoA-I by β-cells was monitored by flow cytometry. The effects of apoA-I internalization on β-cell gene expression were evaluated by RNA sequencing. ApoA-I-binding partners on the β-cell surface were identified by mass spectrometry. Mitochondrial oxidative stress was quantified in β-cells and isolated islets with MitoSOX and confocal microscopy. RESULTS: An F 1 -ATPase β-subunit on the β-cell surface was identified as the main apoA-I-binding partner. β-cell internalization of apoA-I was time-, concentration-, temperature-, cholesterol-, and F 1 -ATPase β-subunit-dependent. β-cells with internalized apoA-I (apoA-I + cells) had higher cholesterol and cell surface F 1 -ATPase β-subunit levels than β-cells without internalized apoA-I (apoA-I − cells). The internalized apoA-I colocalized with mitochondria and was associated with reduced oxidative stress and increased insulin secretion. The IF 1 (ATPase inhibitory factor 1) attenuated apoA-I internalization and increased oxidative stress in Ins-1E β-cells and isolated mouse islets. Differentially expressed genes in apoA-I + and apoA-I − Ins-1E cells were related to protein synthesis, the unfolded protein response, insulin secretion, and mitochondrial function. CONCLUSIONS: These results establish that β-cells are functionally heterogeneous, and apoA-I restores insulin secretion in β-cells with elevated cholesterol levels by improving mitochondrial redox balance.

Topics & Concepts

InternalizationInsulinSecretionOxidative stressEndocrinologyBiologyInternal medicineIsletCell biologyCellBiochemistryMedicinePancreatic function and diabetesDiabetes, Cardiovascular Risks, and LipoproteinsCaveolin-1 and cellular processes
ApoA-I Protects Pancreatic β-Cells From Cholesterol-Induced Mitochondrial Damage and Restores Their Ability to Secrete Insulin | Litcius