Carol M. Wilson

A and B forms of the androgen receptor are expressed in a variety of human tissues.

Human genital skin fibroblasts contain both the full-length 110 K androgen receptor protein (AR-B, apparent M(r) approximately 110,000) and an 87 K N-terminally truncated AR isoform (AR-A, apparent M(r) approximately 87,000). These two AR species are structurally analogous to the A- and B-isoforms of the progesterone receptor (PR). We examined the distribution pattern of human AR isoforms in a variety of fetal and adult tissues by Western blot analysis. Relative levels of immunoreactive AR proteins in high salt tissue extracts were estimated by densitometry in comparison to a standard normal genital skin fibroblast preparation. High AR levels (AR-A + AR-B = 0.8-7.7) were present in male and female reproductive tissues from mid-trimester fetuses, including penis, prostate, testis, epididymis, scrotal skin, labial skin, uterus/cervix, and ovary. AR-A and AR-B (0.08-0.9) also were found in 14 non-genital fetal tissues (bladder, fat, lung, great vessel, trachea, muscle, scalp skin, kidney, thyroid, intestine, thymus, ureter, stomach and rectum). AR-A accounted for 4-26% of the AR protein detected in these tissues. Ten other fetal tissues had low levels of AR-B (0.02-0.3) and little or no detectable AR-A. AR-B also was the predominant or only immunoreactive AR species found in 17 adult human tissues. AR levels in adult reproductive tissues (prostate, endometrium, ovary, uterus, fallopian tube, testis, seminal vesicle, myometrium, and ejaculatory duct) ranged from 0.1 to 2.2. Immunoreactive AR (0.4-0.8) also was present in specimens of prostate carcinoma, endometrial carcinoma, thyroid carcinoma and kidney. Lower levels of AR (0.03-0.1) were detected in adult breast, colon, lung and adrenal gland specimens. This study demonstrates that immunoreactive AR protein is present in a wide variety of human fetal and adult tissues and that two AR isoforms are expressed in many tissues.

Androgen increases androgen receptor protein while decreasing receptor mRNA in LNCaP cells

We have examined the effect of androgen treatment on androgen receptor mRNA and protein expression in the LNCaP human prostate carcinoma cell line. Incubation with androgen caused a decrease in cellular androgen receptor mRNA content that was concentration and time dependent. Maximal suppression to approximately 35% of control level was observed after 49 h of exposure to androgen. By contrast, incubation of LNCaP cells with androgen resulted in a 2-fold increase in the cellular content of androgen receptor protein at 24 h. At 49 h androgen receptor protein increased 30% as assayed by immunoblots and 79% as assayed by ligand binding. These results suggest that ligand-induced changes in androgen receptor stability and/or the translational efficiency of androgen receptor mRNA account for the phenomenon of androgen receptor upregulation observed in cultured LNCaP cells. Furthermore, the suppression of androgen mRNA and protein that is caused by prolonged incubation with androgen is incomplete and is reversible upon removal of ligand.

Mutations in the ligand-binding domain of the androgen receptor gene cluster in two regions of the gene

We have analyzed the nucleotide sequence of the androgen receptor from 22 unrelated subjects with substitution mutations of the hormone-binding domain. Eleven had the phenotype of complete testicular feminization, four had incomplete testicular feminization, and seven had Reifenstein syndrome. The underlying functional defect in cultured skin fibroblasts included individuals with absent, qualitative, or quantitative defects in ligand binding. 19 of the 21 substitution mutations (90%) cluster in two regions that account for approximately 35% of the hormone-binding domain, namely, between amino acids 726 and 772 and between amino acids 826 and 864. The fact that one of these regions is homologous to a region of the human thyroid hormone receptor (hTR-beta) which is a known cluster site for mutations that cause thyroid hormone resistance implies that this localization of mutations is not a coincidence. These regions of the androgen receptor may be of particular importance for the formation and function of the hormone-receptor complex.

Complete testicular feminization caused by an amino-terminal truncation of the androgen receptor with downstream initiation.

We have characterized the molecular defect causing androgen resistance in two 46,XY siblings with complete testicular feminization. Although binding studies in genital skin fibroblasts showed a reduced Bmax, an increased dissociation rate of ligand, and an 8S peak of dihydrotestosterone binding on sucrose density gradient centrifugation, no immunoreactive androgen receptor (AR) was detected in immunoblots using anti-NH2-terminal antibodies, suggesting an abnormal amino terminus. Sequence analysis of the AR gene revealed a point mutation CAG-->TAG (Gln-->Stop) at nucleotide 340. In vitro mutagenesis studies suggest the synthesis of the mutant AR is initiated downstream of the termination codon at reduced levels and that each molecule is functionally impaired. These results define a novel mechanism causing androgen resistance: the combination of decreased amount and functional impairment of AR caused by an abnormality within the amino terminus of the receptor. These findings suggest that domains important to the in vivo function of the receptor reside within the amino terminus and that disruption of these domains can occur with only subtle effects on receptor binding. Identification of this mutation made it possible to identify the mutant allele within the family and to ascertain antenatally that it was not present in a 46,XY fetal sibling of the proband at 9 wk gestation.

A single nucleotide substitution introduces a premature termination codon into the androgen receptor gene of a patient with receptor-negative androgen resistance.

Mutations of the androgen receptor that impair the action of 5 alpha-dihydrotestosterone and testosterone result in abnormal male sexual development. The definition of the organization of the androgen receptor gene has permitted us to examine its structure in nine patients with androgen resistance that exhibit absent 5 alpha-dihydrotestosterone binding in cultured fibroblasts (receptor-negative androgen resistance). Using labeled probes specific for each individual coding exon, we find no gross rearrangements, insertions, or deletions of the androgen receptor gene in these patients. To analyze the genetic defect in these receptor-negative patients, we used the polymerase chain reaction to amplify each individual exon of the androgen receptor gene in nine affected patients. In all patients, the size of each amplified exon segment was identical to that in normal individuals. The nucleotide sequence of the entire coding region of the androgen receptor was determined in one of these patients. A single nucleotide substitution was identified that results in a premature termination codon in exon 6 at amino acid 794. S1 nuclease protection assays demonstrated that normal levels of androgen receptor mRNA are present in skin fibroblasts of this patient. Transfection of a mutated androgen receptor cDNA containing a termination codon at position 794 into eukaryotic cells resulted in formation of a normal amount of receptor protein, as indicated by immunoblotting, but the expressed protein does not bind 5 alpha-dihydrotestosterone. These findings suggest that the presence of a premature termination codon at amino acid 794 of the androgen receptor is the cause of androgen resistance in this patient.

Amino acid substitutions in the hormone-binding domain of the human androgen receptor alter the stability of the hormone receptor complex.

We have investigated the basis of androgen resistance in seven unrelated individuals with complete testicular feminization or Reifenstein syndrome caused by single amino acid substitutions in the hormone-binding domain of the androgen receptor. Monolayer-binding assays of cultured genital skin fibroblasts demonstrated absent ligand binding, qualitative abnormalities of androgen binding, or a decreased amount of qualitatively normal receptor. The consequences of these mutations were examined by introducing the mutations by site-directed mutagenesis into the androgen receptor cDNA sequence and expressing the mutant cDNAs in mammalian cells. The effects of the amino acid substitutions on the binding of different androgens and on the capacity of the ligand-bound receptors to activate a reporter gene were investigated. Substantial differences were found in the responses of the mutant androgen receptors to incubation with testosterone, 5 alpha-dihydrotestosterone, and mibolerone. In several instances, increased doses of hormone or increased frequency of hormone addition to the incubation medium resulted in normal or near normal activation of a reporter gene by cells expressing the mutant androgen receptors. These studies suggest that the stability of the hormone receptor complex is a major determinant of receptor function in vivo.

Genetic and endocrine control of renin activity in the submaxillary gland of the mouse.

Basal activity of submaxillary gland (SMG) renin is high in female mice that carry the Rnrs allele and is induced to higher levels by treatment with dihydrotestosterone (DHT). To determine whether the difference in basal activity between high (Rnrs/Rnrs) and low (Rnrb/Rnrb) strains is due to enhanced sensitivity of Rnrs/Rnrs strains to endogenous androgen, we first studied the effect of several types of endocrine ablation on SMG renin in young female mice, and second, we removed normal androgen receptor protein by introducing the X-linked Tfm gene. Adrenalectomy with or without castration had no effect on basal SMG renin; hypophysectomy decreased basal renin activity 400-fold but did not abolish responsiveness to DHT. Loss of androgen receptor did not affect basal renin activity but did prevent enhancement by DHT. Basal and induced renin activities in L.AKR(Alll)/Cy, a congenic strain homozygous for Rnrs introduced from AKR/J into the background of C57L/J, an Rnrb/Rnrb type strain, are intermediate between levels observed in the original strains. We conclude that (1) the basal level of SMG renin is regulated directly or indirectly by some pituitary hormone(s) but not by androgen, (2) androgen induction of renin activity requires a normal androgen receptor, and (3) major gene(s) that regulate basal as well as induced SMG renin are in a circumscribed region of chromosome 1.

Expression and characterization of full-length and partial human androgen receptor fusion proteins. Implications for the production and applications of soluble steroid receptors in Escherichia coli

We have expressed fusion proteins encoding defined segments of the coding segment of the human androgen receptor (hAR) in Escherichia coli using the pGEX-2T expression vector. Large quantities of fusion proteins containing glutathione-S-transferase (GST) linked to the amino or carboxy terminal region of the receptor and a fusion protein containing the complete amino acid sequence of the androgen receptor were produced in soluble form. The GST hAR fusion proteins containing the hormone-binding domain of the androgen receptor exhibit high affinity specific binding for a variety of natural and synthetic androgens. Analysis of the binding properties of the complete and truncated androgen receptor fusion proteins revealed that the amino terminus affects the Kd of the fusion proteins for mibolerone (0.89 vs. 3.43 nM for the truncated and complete fusion proteins, respectively). Despite these differences, both the truncated and complete hAR fusion proteins exhibit a higher affinity for dihydrotestosterone than for testosterone, implying that the preferential affinity for dihydrotestosterone observed in androgen receptor prepared from native sources is a measure of the inherent structure of the hormone-binding domain. Furthermore, the ligand-receptor complex is stable, as the ligand is not easily displaced with unlabelled competitor and is stable to mild heat denaturation. Fusion proteins containing the DNA-binding domain demonstrate specific DNA binding, as evidenced by studies using segments of the mouse mammary tumor virus long terminal repeat (MMTV-LTR) and synthetic glucocorticoid response elements. These studies establish that GST hAR fusion proteins exhibit physical properties similar to those of native androgen receptor. Affinity purification using a glutathione affinity resin and cleavage of the fusion proteins at a thrombin cleavage site permits a marked enrichment using a two-step purification. The use of such methods will facilitate the study of the normal and mutant receptor proteins.

Induction of particle-bound renin and arginine esterase by testosterone in the mouse

Abstract We studied the induction of renin and a protease (arginine esterase) in the washed 105.000 g sediment of the homogenized submaxillary gland of 758 young female mice. Administration of testosterone propionate, α-methyltestosterone or an anabolic steroid such as nandrolone phenpropionate increased the particle-bound renin and arginine esterase activity in the animals sacrificed 7 days after the first injection. The enzyme activity rose significantly within 4 days. Actinomycin D blocked the induction of renin and arginine esterase. In addition, testosterone increased the weight of the animals, of the submaxillary glands and of the kidneys, the microsomal protein concentration of the submaxillary glands and the RNA content of the microsomal fraction of the glands and kidneys. Actinomycin D blocked these effects of testosterone as well. The particle-bound kallikrein activity of the submaxillary and the particle-bound renin activity of the kidney were not changed by testosterone administration. The 105,000 g sediment of kidney homogenate has arginine esterase activity which increased an average of 63 per cent after the injection of testosterone.

Effect of androgen and thyroid hormones on renin-1 messenger ribonucleic acid levels in mouse submandibular gland

The synthesis of renin and other biologically active polypeptides in the granular convoluted tubule cells of the mouse submandibular gland (SMG) is regulated by androgen and thyroid hormones. In this study genetically hypothyroid (hyt/hyt) mice carrying a single renin structural gene (Ren-1) were used to investigate the mechanism of hormonal action in mouse SMG. Treatment of female mice with 5 alpha-dihydrotestosterone (DHT) and/or thyroxine (T4) enhanced renin-1 activity and increased renin-1 mRNA, determined by Northern analysis. Compared to euthyroid (hyt/+) littermates, hyt/hyt mice had lower basal levels of renin-1 mRNA and a blunted response to either hormone alone. DHT and T4 acted synergistically to increase renin-1 activity and renin-1 mRNA in the SMG of hyt/hyt females. Furthermore, levels of renin-1 activity and renin-1 mRNA varied concordantly in the SMG of these animals. These data indicate that androgen and thyroid hormones influence levels of renin-1 in mouse SMG primarily by regulating the amount of renin-1 mRNA available for translation.