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Comment
. 2022 Nov 16;110(22):3650-3652.
doi: 10.1016/j.neuron.2022.10.009.

Genetically tagging cholinergic diversity

Jiaqi Keith Luo  1 Lucas Pinto  2
Affiliations
Comment

Genetically tagging cholinergic diversity

Jiaqi Keith Luo et al. Neuron. .

Abstract

In this issue of Neuron, Li et al. (2022) identify and genetically target two sub-populations of cholinergic neurons in the basal forebrain. They show that these cholinergic subtypes have distinct projection patterns, electrophysiological phenotypes, and behavioral functions.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

Figures

Figure 1.
Figure 1.. Calbindin-D28K separates basal forebrain cholinergic neurons into two topographically, molecularly and functionally distinct sub-populations
(A) Combining triple-enzymatic-recombination-mutant (TERM) mice with recombinase-dependent viral injections allows for separate targeting of D28K+ and D28K neurons. (B) D28K+ and D28K neurons in the medial septum preferentially project to the ventral and dorsal hippocampus, respectively. (C) D28K+ neurons exhibited lower firing rate and higher firing threshold than D28K neurons. (D) A voltage-gated potassium channel (encoded by kcnh1) and a voltage-gated calcium channel (encoded by cacna1h) are selectively expressed in D28K+ and D28K neurons, respectively. This partly explains their distinct electrophysiological phenotypes. (E) Knockout of kcnh1 in D28K+ and cacna1h in D28K neurons has distinct behavioral effects.
See this image and copyright information in PMC

Comment on

References

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