Abstract
Naturally occurring germ line mutations in the X-linked human androgen receptor (AR) gene cause incomplete masculinization of the external genitalia by disrupting AR function in males with androgen insensitivity syndrome. Almost all AR missense mutations that cause androgen insensitivity syndrome are located in the highly structured DNA and ligand binding domains. In this report we investigate the functional defect associated with an AR exon 1 missense mutation, R405S, that caused partial androgen insensitivity. The 46,XX heterozygous maternal carrier had a wild-type Arg-405 CGC allele but transmitted an AGC mutant allele coding for Ser-405. At birth, the 46,XY proband had a bifid scrotum, hypospadias, and micropenis consistent with clinical stage 3 partial androgen insensitivity. Androgen-dependent transcriptional activity of AR-R405S expressed in CV1 cells was less than wild-type AR and refractory in androgen-dependent AR NH(2)- and carboxyl interaction transcription assays that depend on the coregulator effects of melanoma antigen-A11. This mutation created a Ser-405 phosphorylation site evident by the gel migration of an AR-R405S NH(2)-terminal fragment as a double band that converted to the wild-type single band after treatment with λ-phosphatase. Detrimental effects of the R405S mutation were related to the proximity of the AR WXXLF motif (433)WHTLF(437) required for melanoma antigen-A11 and p300 to stimulate transcriptional activity associated with the AR NH(2)- and carboxyl-terminal interaction. We conclude that the coregulator effects of melanoma antigen-A11 on the AR NH(2)- and carboxyl-terminal interaction amplify the androgen-dependent transcriptional response to p300 required for normal human male sex development in utero.
Highlights
Androgen receptor (AR) regulation of transcription is required for male genital development in utero
The results show that the AR NH2-terminal 433WHTLF437 WXXLF motif that lies in close proximity to the AR R405S mutation is required for transcriptional activation associated with the coregulator effects of melanoma antigen-A11 (MAGE-11) and p300
The results suggested that MAGE-11 or p300 increases transcriptional activity associated with the AR NH2- and carboxyl-terminal (N/C) interaction and that the inhibitory effect of the AR R405S mutation on AR N/C interaction activation by MAGE-11 can be overcome by increasing the expression of p300
Summary
Androgen receptor (AR) regulation of transcription is required for male genital development in utero. Occurring gene mutations in the 5␣-reductase enzyme that converts testosterone to DHT can cause a phenotype similar to AIS at birth and demonstrate the requirement for optimal androgen signaling for normal human male genital development in utero [3]. We provide evidence that the functional defect associated with naturally occurring AR NH2-terminal missense mutation AR-R405S caused clinical stage 3 partial AIS by interference with the stimulatory effects of the AR coregulator MAGE-11. The Arg-405-to-Ser-405 mutation with amino acid numbering on the basis of human AR reported by Lubahn et al [31], created a new phosphorylation site and interfered with the effects of MAGE-11 on androgen-dependent transcriptional activity associated with the AR N/C interaction. The results show that the AR NH2-terminal 433WHTLF437 WXXLF motif that lies in close proximity to the AR R405S mutation is required for transcriptional activation associated with the coregulator effects of MAGE-11 and p300
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