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8 April 2024 Genetic Disruption of cyp21a2 Leads to Systemic Glucocorticoid Deficiency and Tissues Hyperplasia in the Teleost Fish Medaka (Oryzias latipes)
José Carranza, Kazuki Yamada, Yuta Sakae, Jongsung Noh, Man Ho Choi, Minoru Tanaka
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Abstract

cytochrome P-450, 21-hydroxylase (cyp21a2), encodes an enzyme required for cortisol biosynthesis, and its mutations are the major genetic cause of congenital adrenal hyperplasia (CAH) in humans. Here, we have generated a null allele for the medaka cyp21a2 with a nine base-pair insertion which led to a truncated protein. We have observed a delay in hatching and a low survival rate in homozygous mutants. The interrenal gland (adrenal counterpart in teleosts) exhibits hyperplasia and the number of pomca-expressing cells in the pituitary increases in the homozygous mutant. A mass spectrometry-based analysis of whole larvae confirmed a lack of cortisol biosynthesis, while its corresponding precursors were significantly increased, indicating a systemic glucocorticoid deficiency in our mutant model. Furthermore, these phenotypes at the larval stage are rescued by cortisol. In addition, females showed complete sterility with accumulated follicles in the ovary while male homozygous mutants were fully fertile in the adult mutants. These results demonstrate that the mutant medaka recapitulates several aspects of cyp21a2-deficiency observed in humans, making it a valuable model for studying steroidogenesis in CAH.

José Carranza, Kazuki Yamada, Yuta Sakae, Jongsung Noh, Man Ho Choi, and Minoru Tanaka "Genetic Disruption of cyp21a2 Leads to Systemic Glucocorticoid Deficiency and Tissues Hyperplasia in the Teleost Fish Medaka (Oryzias latipes)," Zoological Science 41(3), 263-274, (8 April 2024). https://doi.org/10.2108/zs230107
Received: 31 October 2023; Accepted: 29 December 2023; Published: 8 April 2024
KEYWORDS
21-hydroxylase deficiency
CAH
cortisol biosynthesis
CYP21A2
Oryzias latipes
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