Tagging Active Neurons by Soma-targeted Cal-Light

Overview

Journal Nat Commun

Specialty Biology

Date 2022 Dec 12

PMID 36509775

Authors

Jung Ho Hyun

Kenichiro Nagahama

Ho Namkung

Neymi Mignocchi

Seung-Eon Roh

Patrick Hannan

Sarah Krussel

Chuljung Kwak

Abigail McElroy

Bian Liu

Mingguang Cui

Seunghwan Lee

Dongmin Lee

Richard L Huganir

Paul F Worley

Akira Sawa

Hyung-Bae Kwon

Affiliations

Soon will be listed here.

Abstract

Verifying causal effects of neural circuits is essential for proving a direct circuit-behavior relationship. However, techniques for tagging only active neurons with high spatiotemporal precision remain at the beginning stages. Here we develop the soma-targeted Cal-Light (ST-Cal-Light) which selectively converts somatic calcium rise triggered by action potentials into gene expression. Such modification simultaneously increases the signal-to-noise ratio of reporter gene expression and reduces the light requirement for successful labeling. Because of the enhanced efficacy, the ST-Cal-Light enables the tagging of functionally engaged neurons in various forms of behaviors, including context-dependent fear conditioning, lever-pressing choice behavior, and social interaction behaviors. We also target kainic acid-sensitive neuronal populations in the hippocampus which subsequently suppress seizure symptoms, suggesting ST-Cal-Light's applicability in controlling disease-related neurons. Furthermore, the generation of a conditional ST-Cal-Light knock-in mouse provides an opportunity to tag active neurons in a region- or cell-type specific manner via crossing with other Cre-driver lines. Thus, the versatile ST-Cal-Light system links somatic action potentials to behaviors with high temporal precision, and ultimately allows functional circuit dissection at a single cell resolution.

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