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. 2024 Jan;476(1):87-99.
doi: 10.1007/s00424-023-02875-z. Epub 2023 Nov 7.

Zebrafish cardiac repolarization does not functionally depend on the expression of the hERG1b-like transcript

Christine E Genge #  1 Padmapriya Muralidharan #  1 Jake Kemp #  1 Christina M Hull  1 Mandy Yip  1 Kyle Simpson  1 Diana V Hunter  1 Thomas W Claydon  2
Affiliations

Zebrafish cardiac repolarization does not functionally depend on the expression of the hERG1b-like transcript

Christine E Genge et al. Pflugers Arch. 2024 Jan.

Abstract

Zebrafish provide a translational model of human cardiac function. Their similar cardiac electrophysiology enables screening of human cardiac repolarization disorders, drug arrhythmogenicity, and novel antiarrhythmic therapeutics. However, while zebrafish cardiac repolarization is driven by delayed rectifier potassium channel current (IKr), the relative role of alternate channel transcripts is uncertain. While human ether-a-go-go-related-gene-1a (hERG1a) is the dominant transcript in humans, expression of the functionally distinct alternate transcript, hERG1b, modifies the electrophysiological and pharmacologic IKr phenotype. Studies of zebrafish IKr are frequently translated without consideration for the presence and impact of hERG1b in humans. Here, we performed phylogenetic analyses of all available KCNH genes from Actinopterygii (ray-finned fishes). Our findings confirmed zebrafish cardiac zkcnh6a as the paralog of human hERG1a (hKCNH2a), but also revealed evidence of a hERG1b (hKCNH2b)-like N-terminally truncated gene, zkcnh6b, in zebrafish. zkcnh6b is a teleost-specific variant that resulted from the 3R genome duplication. qRT-PCR showed dominant expression of zkcnh6a in zebrafish atrial and ventricular tissue, with low levels of zkcnh6b. Functional evaluation of zkcnh6b in a heterologous system showed no discernable function under the conditions tested, and no influence on zkcnh6a function during the zebrafish ventricular action potential. Our findings provide the first descriptions of the zkcnh6b gene, and show that, unlike in humans, zebrafish cardiac repolarization does not rely upon co-assembly of zERG1a/zERG1b. Given that hERG1b modifies IKr function and drug binding in humans, our findings highlight the need for consideration when translating hERG variant effects and toxicological screens in zebrafish, which lack a functional hERG1b-equivalent gene.

Keywords: Electrophysiology; Phylogenetics; Zebrafish; Zkcnh; hERG1b; qRT-PCR; zERG.

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