光遗传学刺激迷走神经以增强葡萄糖刺激的胰岛素分泌和β细胞增殖。

Optogenetic stimulation of vagal nerves for enhanced glucose-stimulated insulin secretion and β cell proliferation.

作者信息

Kawana Yohei, Imai Junta, Morizawa Yosuke M, Ikoma Yoko, Kohata Masato, Komamura Hiroshi, Sato Toshihiro, Izumi Tomohito, Yamamoto Junpei, Endo Akira, Sugawara Hiroto, Kubo Haremaru, Hosaka Shinichiro, Munakata Yuichiro, Asai Yoichiro, Kodama Shinjiro, Takahashi Kei, Kaneko Keizo, Sawada Shojiro, Yamada Tetsuya, Ito Akira, Niizuma Kuniyasu, Tominaga Teiji, Yamanaka Akihiro, Matsui Ko, Katagiri Hideki

机构信息

Department of Metabolism and Diabetes, Tohoku University Graduate School of Medicine, Sendai, Japan.

Super-network Brain Physiology, Tohoku University Graduate School of Life Sciences, Sendai, Japan.

出版信息

Nat Biomed Eng. 2024 Jul;8(7):808-822. doi: 10.1038/s41551-023-01113-2. Epub 2023 Nov 9.

DOI:10.1038/s41551-023-01113-2

PMID:37945752

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11310082/

Abstract

The enhancement of insulin secretion and of the proliferation of pancreatic β cells are promising therapeutic options for diabetes. Signals from the vagal nerve regulate both processes, yet the effectiveness of stimulating the nerve is unclear, owing to a lack of techniques for doing it so selectively and prolongedly. Here we report two optogenetic methods for vagal-nerve stimulation that led to enhanced glucose-stimulated insulin secretion and to β cell proliferation in mice expressing choline acetyltransferase-channelrhodopsin 2. One method involves subdiaphragmatic implantation of an optical fibre for the photostimulation of cholinergic neurons expressing a blue-light-sensitive opsin. The other method, which suppressed streptozotocin-induced hyperglycaemia in the mice, involves the selective activation of vagal fibres by placing blue-light-emitting lanthanide microparticles in the pancreatic ducts of opsin-expressing mice, followed by near-infrared illumination. The two methods show that signals from the vagal nerve, especially from nerve fibres innervating the pancreas, are sufficient to regulate insulin secretion and β cell proliferation.

摘要

增强胰岛素分泌以及胰腺β细胞增殖是很有前景的糖尿病治疗方案。来自迷走神经的信号调节这两个过程，然而由于缺乏选择性和长时间刺激该神经的技术，刺激神经的有效性尚不清楚。在此，我们报告两种用于迷走神经刺激的光遗传学方法，这些方法可增强表达胆碱乙酰转移酶 - 通道视紫红质2的小鼠的葡萄糖刺激的胰岛素分泌并促进β细胞增殖。一种方法是在横膈膜下植入光纤，用于光刺激表达蓝光敏感视蛋白的胆碱能神经元。另一种方法可抑制小鼠中链脲佐菌素诱导的高血糖症，该方法是通过将发射蓝光的镧系元素微粒置于表达视蛋白的小鼠的胰管中，然后进行近红外照射，从而选择性激活迷走神经纤维。这两种方法表明，来自迷走神经的信号，尤其是来自支配胰腺的神经纤维的信号，足以调节胰岛素分泌和β细胞增殖。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4813/11310082/ebfdd6a45a4b/41551_2023_1113_Fig1_HTML.jpg

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光遗传学刺激迷走神经以增强葡萄糖刺激的胰岛素分泌和β细胞增殖。

Optogenetic stimulation of vagal nerves for enhanced glucose-stimulated insulin secretion and β cell proliferation.

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