Abstract
Cytochrome P450 lanosterol 14α-demethylase (CYP51) and its products, meiosis-activating sterols (MASs), were hypothesized by previous in vitro studies to have an important role in regulating meiosis and reproduction. To test this in vivo, we generated a conditional male germ cell-specific knockout of the gene Cyp51 in the mouse. High excision efficiency of Cyp51 allele in germ cells resulted in 85-89% downregulation of Cyp51 mRNA and protein levels in germ cells. Quantitative metabolic profiling revealed significantly higher levels of CYP51 substrates lanosterol and 24,25-dihydrolanosterol and substantially diminished levels of MAS, the immediate products of CYP51. However, germ cell-specific ablation of Cyp51, leading to lack of MAS, did not affect testicular morphology, daily sperm production, or reproductive performance in males. It is plausible that due to the similar structures of cholesterol intermediates, previously proposed biological function of MAS in meiosis progression can be replaced by some other yet-unidentified functionally redundant lipid molecule(s). Our results using the germ cell-specific knockout model provide first in vivo evidence that the de novo synthesis of MAS and cholesterol in male germ cells is most likely not essential for spermatogenesis and reproduction and that MASs, originating from germ cells, do not cell-autonomously regulate spermatogenesis and fertility.
Highlights
Cytochrome P450 lanosterol 14␣-demethylase (CYP51) and its products, meiosis-activating sterols (MASs), were hypothesized by previous in vitro studies to have an important role in regulating meiosis and reproduction
Isolated acrosomal membranes from ejaculated bull and bovine sperms were shown to transform lanosterol to Follicular fluid meiosis-activating sterol (FF-MAS) [14]. These results indicated that the regulation of cytochrome P450 lanosterol 14␣-demethylase (Cyp51) in testes is different in male germ cells than in somatic cells and pointed to the possible functional role of cholesterol biosynthesis intermediates (FF-MAS and testis meiosis-activating sterol (T-MAS)) in spermatogenesis
The expression of Cyp51 in whole testes of ko animals was reduced by 61% compared with wt littermate controls
Summary
Cytochrome P450 lanosterol 14␣-demethylase (CYP51) and its products, meiosis-activating sterols (MASs), were hypothesized by previous in vitro studies to have an important role in regulating meiosis and reproduction. To test this in vivo, we generated a conditional male germ cell-specific knockout of the gene Cyp in the mouse. Isolated acrosomal membranes from ejaculated bull and bovine sperms were shown to transform lanosterol to FF-MAS [14] These results indicated that the regulation of Cyp in testes is different in male germ cells than in somatic cells and pointed to the possible functional role of cholesterol biosynthesis intermediates (FF-MAS and T-MAS) in spermatogenesis. To test directly the in vivo role of Cyp function and MAS produced in germ cells on spermatogenesis and male reproduction, we generated and characterized a male germ cell-specific knockout of Cyp
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