A tool kit of highly selective and sensitive genetically encoded neuropeptide sensors

Huan Wang; Tongrui Qian; Yulin Zhao; Yizhou Zhuo; Chunling Wu; Takuya Osakada; Peng Chen; Zijun Chen; Huixia Ren; Yuqi Yan; Lan Geng; Shengwei Fu; Long Mei; Guochuan Li; Ling Wu; Yiwen Jiang; Weiran Qian; Li Zhang; Wanling Peng; Min Xu; Ji Hu; Man Jiang; Liangyi Chen; Chao Tang; Yingjie Zhu; Dayu Lin; Jiang‐Ning Zhou; Yulong Li

doi:10.1126/science.abq8173

A tool kit of highly selective and sensitive genetically encoded neuropeptide sensors

Huan Wang(Peking University), Tongrui Qian(Peking University), Yulin Zhao(Peking University), Yizhou Zhuo(Peking University), Chunling Wu(Peking University), Takuya Osakada(NYU Langone Health), Peng Chen(University of Science and Technology of China), Zijun Chen(Shenzhen Institutes of Advanced Technology), Huixia Ren(Peking University), Yuqi Yan(Peking University), Lan Geng(Peking University), Shengwei Fu(Peking University), Long Mei(NYU Langone Health), Guochuan Li(Peking University), Ling Wu(Peking University), Yiwen Jiang(NYU Langone Health), Weiran Qian(Peking University), Li Zhang(Huazhong University of Science and Technology), Wanling Peng(Chinese Academy of Sciences), Min Xu(Chinese Academy of Sciences), Ji Hu(ShanghaiTech University), Man Jiang(Huazhong University of Science and Technology), Liangyi Chen(Peking University), Chao Tang(Peking University), Yingjie Zhu(Shenzhen Institutes of Advanced Technology), Dayu Lin(NYU Langone Health), Jiang‐Ning Zhou(University of Science and Technology of China), Yulong Li(Peking University)

Science

November 16, 2023

10.1126/science.abq8173

Cited by 130Open Access

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Abstract

Neuropeptides are key signaling molecules in the endocrine and nervous systems that regulate many critical physiological processes. Understanding the functions of neuropeptides in vivo requires the ability to monitor their dynamics with high specificity, sensitivity, and spatiotemporal resolution. However, this has been hindered by the lack of direct, sensitive, and noninvasive tools. We developed a series of GRAB (G protein-coupled receptor activation‒based) sensors for detecting somatostatin (SST), corticotropin-releasing factor (CRF), cholecystokinin (CCK), neuropeptide Y (NPY), neurotensin (NTS), and vasoactive intestinal peptide (VIP). These fluorescent sensors, which enable detection of specific neuropeptide binding at nanomolar concentrations, establish a robust tool kit for studying the release, function, and regulation of neuropeptides under both physiological and pathophysiological conditions.

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