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Evolution of two‐pore domain potassium channels and their gene expression in zebrafish embryos.

Authors :
Park, Sung Jun
Silic, Martin R.
Staab, Peyton L.
Chen, Jiapei
Zackschewski, Ethan L.
Zhang, GuangJun
Source :
Developmental Dynamics; Aug2024, Vol. 253 Issue 8, p722-749, 28p
Publication Year :
2024

Abstract

Background: The two‐pore domain potassium (K2P) channels are a major type of potassium channels that maintain the cell membrane potential by conducting passive potassium leak currents independent of voltage change. They play prominent roles in multiple physiological processes, including neuromodulation, perception of pain, breathing and mood control, and response to volatile anesthetics. Mutations in K2P channels have been linked to many human diseases, such as neuronal and cardiovascular disorders and cancers. Significant progress has been made to understand their protein structures, physiological functions, and pharmacological modifiers. However, their expression and function during embryonic development remain largely unknown. Results: We employed the zebrafish model and identified 23 k2p genes using BLAST search and gene cloning. We first analyzed vertebrate K2P channel evolution by phylogenetic and syntenic analyses. Our data revealed that the six subtypes of the K2P genes have already evolved in invertebrates long before the emergence of vertebrates. Moreover, the vertebrate K2P gene number increased, most likely due to two whole‐genome duplications. Furthermore, we examined zebrafish k2p gene expression during early embryogenesis by in situ hybridization. Each subgroup's genes showed similar but distinct gene expression domains with some exceptions. Most of them were expressed in neural tissues consistent with their known function of neural excitability regulation. However, a few k2p genes were expressed temporarily in specific tissues or organs, suggesting that these K2P channels may be needed for embryonic development. Conclusions: Our phylogenetic and developmental analyses of K2P channels shed light on their evolutionary history and potential roles during embryogenesis related to their physiological functions and human channelopathies. Key Findings: K2P potassium channels have a deep evolutionary origin, and vertebrates gained more K2p channel genes through whole genome duplications.23 K2P channels were identified in zebrafish, some resulting from the teleost‐specific whole genome duplication.Zebrafish k2p channel genes are expressed in various tissues and organs. K2p genes from the same subtypes showed overlapped expression domains.Some K2P channels may be needed for embryonic development, indicated by their temporary expressions in specific tissues or organs. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10588388
Volume :
253
Issue :
8
Database :
Complementary Index
Journal :
Developmental Dynamics
Publication Type :
Academic Journal
Accession number :
178783578
Full Text :
https://doi.org/10.1002/dvdy.690