The NERP-4–SNAT2 axis regulates pancreatic β-cell maintenance and function

Weidong Zhang; Ayako Miura; Md Moin Abu Saleh; Koichiro Shimizu; Yuichiro Mita; Ryota Tanida; Satoshi Hirako; Seiji Shioda; Valery Gmyr; Julie Kerr-Conte; Francois Pattou; Chunhuan Jin; Yoshikatsu Kanai; Kazuki Sasaki; Naoto Minamino; Hideyuki Sakoda; Masamitsu Nakazato

doi:10.1038/s41467-023-43976-8

The NERP-4–SNAT2 axis regulates pancreatic β-cell maintenance and function

Weidong Zhang, Ayako Miura, Md Moin Abu Saleh, Koichiro Shimizu, Yuichiro Mita, Ryota Tanida, Satoshi Hirako, Seiji Shioda, Valery Gmyr, Julie Kerr-Conte, Francois Pattou, Chunhuan Jin, Yoshikatsu Kanai, Kazuki Sasaki, Naoto Minamino, Hideyuki Sakoda, Masamitsu Nakazato

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Insulin secretion from pancreatic β cells is regulated by multiple stimuli, including nutrients, hormones, neuronal inputs, and local signalling. Amino acids modulate insulin secretion via amino acid transporters expressed on β cells. The granin protein VGF has dual roles in β cells: regulating secretory granule formation and functioning as a multiple peptide precursor. A VGF-derived peptide, neuroendocrine regulatory peptide-4 (NERP-4), increases Ca²⁺ influx in the pancreata of transgenic mice expressing apoaequorin, a Ca²⁺-induced bioluminescent protein complex. NERP-4 enhances glucose-stimulated insulin secretion from isolated human and mouse islets and β-cell–derived MIN6-K8 cells. NERP-4 administration reverses the impairment of β-cell maintenance and function in db/db mice by enhancing mitochondrial function and reducing metabolic stress. NERP-4 acts on sodium-coupled neutral amino acid transporter 2 (SNAT2), thereby increasing glutamine, alanine, and proline uptake into β cells and stimulating insulin secretion. SNAT2 deletion and inhibition abolish the protective effects of NERP-4 on β-cell maintenance. These findings demonstrate a novel autocrine mechanism of β-cell maintenance and function that is mediated by the peptide–amino acid transporter axis.

Original language	English
Article number	8158
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-43976-8
Publication status	Published - 12-2023
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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Zhang, W., Miura, A., Abu Saleh, M. M., Shimizu, K., Mita, Y., Tanida, R., Hirako, S., Shioda, S., Gmyr, V., Kerr-Conte, J., Pattou, F., Jin, C., Kanai, Y., Sasaki, K., Minamino, N., Sakoda, H., & Nakazato, M. (2023). The NERP-4–SNAT2 axis regulates pancreatic β-cell maintenance and function. Nature communications, 14(1), Article 8158. https://doi.org/10.1038/s41467-023-43976-8

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title = "The NERP-4–SNAT2 axis regulates pancreatic β-cell maintenance and function",

abstract = "Insulin secretion from pancreatic β cells is regulated by multiple stimuli, including nutrients, hormones, neuronal inputs, and local signalling. Amino acids modulate insulin secretion via amino acid transporters expressed on β cells. The granin protein VGF has dual roles in β cells: regulating secretory granule formation and functioning as a multiple peptide precursor. A VGF-derived peptide, neuroendocrine regulatory peptide-4 (NERP-4), increases Ca2+ influx in the pancreata of transgenic mice expressing apoaequorin, a Ca2+-induced bioluminescent protein complex. NERP-4 enhances glucose-stimulated insulin secretion from isolated human and mouse islets and β-cell–derived MIN6-K8 cells. NERP-4 administration reverses the impairment of β-cell maintenance and function in db/db mice by enhancing mitochondrial function and reducing metabolic stress. NERP-4 acts on sodium-coupled neutral amino acid transporter 2 (SNAT2), thereby increasing glutamine, alanine, and proline uptake into β cells and stimulating insulin secretion. SNAT2 deletion and inhibition abolish the protective effects of NERP-4 on β-cell maintenance. These findings demonstrate a novel autocrine mechanism of β-cell maintenance and function that is mediated by the peptide–amino acid transporter axis.",

author = "Weidong Zhang and Ayako Miura and \{Abu Saleh\}, \{Md Moin\} and Koichiro Shimizu and Yuichiro Mita and Ryota Tanida and Satoshi Hirako and Seiji Shioda and Valery Gmyr and Julie Kerr-Conte and Francois Pattou and Chunhuan Jin and Yoshikatsu Kanai and Kazuki Sasaki and Naoto Minamino and Hideyuki Sakoda and Masamitsu Nakazato",

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doi = "10.1038/s41467-023-43976-8",

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AU - Zhang, Weidong

AU - Miura, Ayako

AU - Abu Saleh, Md Moin

AU - Shimizu, Koichiro

AU - Mita, Yuichiro

AU - Tanida, Ryota

AU - Hirako, Satoshi

AU - Shioda, Seiji

AU - Gmyr, Valery

AU - Kerr-Conte, Julie

AU - Pattou, Francois

AU - Jin, Chunhuan

AU - Kanai, Yoshikatsu

AU - Sasaki, Kazuki

AU - Minamino, Naoto

AU - Sakoda, Hideyuki

AU - Nakazato, Masamitsu

PY - 2023/12

Y1 - 2023/12

N2 - Insulin secretion from pancreatic β cells is regulated by multiple stimuli, including nutrients, hormones, neuronal inputs, and local signalling. Amino acids modulate insulin secretion via amino acid transporters expressed on β cells. The granin protein VGF has dual roles in β cells: regulating secretory granule formation and functioning as a multiple peptide precursor. A VGF-derived peptide, neuroendocrine regulatory peptide-4 (NERP-4), increases Ca2+ influx in the pancreata of transgenic mice expressing apoaequorin, a Ca2+-induced bioluminescent protein complex. NERP-4 enhances glucose-stimulated insulin secretion from isolated human and mouse islets and β-cell–derived MIN6-K8 cells. NERP-4 administration reverses the impairment of β-cell maintenance and function in db/db mice by enhancing mitochondrial function and reducing metabolic stress. NERP-4 acts on sodium-coupled neutral amino acid transporter 2 (SNAT2), thereby increasing glutamine, alanine, and proline uptake into β cells and stimulating insulin secretion. SNAT2 deletion and inhibition abolish the protective effects of NERP-4 on β-cell maintenance. These findings demonstrate a novel autocrine mechanism of β-cell maintenance and function that is mediated by the peptide–amino acid transporter axis.

AB - Insulin secretion from pancreatic β cells is regulated by multiple stimuli, including nutrients, hormones, neuronal inputs, and local signalling. Amino acids modulate insulin secretion via amino acid transporters expressed on β cells. The granin protein VGF has dual roles in β cells: regulating secretory granule formation and functioning as a multiple peptide precursor. A VGF-derived peptide, neuroendocrine regulatory peptide-4 (NERP-4), increases Ca2+ influx in the pancreata of transgenic mice expressing apoaequorin, a Ca2+-induced bioluminescent protein complex. NERP-4 enhances glucose-stimulated insulin secretion from isolated human and mouse islets and β-cell–derived MIN6-K8 cells. NERP-4 administration reverses the impairment of β-cell maintenance and function in db/db mice by enhancing mitochondrial function and reducing metabolic stress. NERP-4 acts on sodium-coupled neutral amino acid transporter 2 (SNAT2), thereby increasing glutamine, alanine, and proline uptake into β cells and stimulating insulin secretion. SNAT2 deletion and inhibition abolish the protective effects of NERP-4 on β-cell maintenance. These findings demonstrate a novel autocrine mechanism of β-cell maintenance and function that is mediated by the peptide–amino acid transporter axis.

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The NERP-4–SNAT2 axis regulates pancreatic β-cell maintenance and function

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