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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Reciprocal regulation of sex-dependent expression of testosterone 15 alpha-hydroxylase (P-450(15 alpha)) in liver and kidney of male mice by androgen. Evidence for a single gene.

Testosterone 15 alpha-hydroxylase activities and its mRNA levels are higher in kidneys than in livers from male 129/J mice. Castration of 129/J male mice resulted in repression of P-450(15 alpha) in kidney, but increased it in liver. Two types of cDNA ( p15 alpha-29 (Type I) and -15 (Type II)) encoding P-450(15 alpha) were previously cloned from 129/J female livers (Burkhart, B.A., Harada, N., and Negishi, M. (1985) J. Biol. Chem. 260, 15357-15361). With the use of p15 alpha-29 as a probe, Type I and II P-450(15 alpha) cDNAs were isolated from libraries of 129/J kidney poly(A)+ RNA. The nucleotide sequences of the cDNAs showed that Type I and II cDNAs from liver and kidney were identical and shared 98.3% similarity. The deduced amino acid sequence from a full-length Type I cDNA indicated that Type I P-450(15 alpha) consists of 494 amino acids with a molecular weight of 56,594. Nine amino acid substitutions were found in the Type II clone in 432 amino acids overlapping Type I. Type I cDNA clones accounted for approximately 90% P-450(15 alpha) clones isolated from a male kidney library, whereas approximately 90% of cDNA clones in a female kidney library were Type II. Liver cDNA libraries from males and females contained similar ratios of Type I and II. Effects of castration on Type I and II mRNAs were determined by Southern hybridization of a 32P-labeled ClaI-ClaI fragment from p15 alpha-29 to cDNAs synthesized from kidney and liver poly(A)+ RNAs prepared from sham-operated, castrated 129/J mice. The double-stranded cDNAs were digested with ClaI and PstI prior to gel electrophoresis to create the diagnostic restriction fragments specific for Type I or II. Castration resulted in decreased levels of Type I mRNA in male kidney. In male liver, only Type I mRNA rose significantly in response to castration. Testosterone administration returned the Type I mRNA to normal levels in castrated mice. It therefore appears that the high levels of P-450(15 alpha) in male kidney were due to androgen-dependent induction of Type I mRNA. Both Types I and II were repressed in male liver, which results in decreased levels of P-450(15 alpha). Androgen was responsible for the repression and expression of Type I in liver and kidney, but not Type II.[1]

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