Androgen receptor phosphorylation, turnover, nuclear transport, and transcriptional activation. Specificity for steroids and antihormones

Nuclear transport, phosphorylation, ligand binding, and degradation rate of the recombinant androgen receptor (AR) were analyzed in transfected COS cells in the presence of various steroids and antiandrogens. Transcriptional activation was assessed in CV1 cells by cotransfection with an androgen-responsive chloramphenicol acetyltransferase (CAT) reporter vector. Hormone binding specificity of recombinant AR was essentially identical to endogenous AR. AR localized in the nucleus in the presence of methyltrienolone (R1881, a synthetic androgen), dihydrotestosterone, testosterone, hydroxyflutamide, cyproterone acetate, estradiol, progesterone, and RU486. In the absence of hormone or with the antiandrogen, flutamide, AR remained largely in the cytoplasm with a perinuclear distribution. AR was degraded rapidly (t1/2 = 1 h) except in the presence of androgen (t1/2 = 6 h) which accounted for an apparent 2-4-fold androgen-induced increase in AR phosphorylation, indicating that AR phosphorylation was not enhanced by androgen. CAT activity was stimulated by R1881, dihydrotestosterone, testosterone, cyproterone acetate, estradiol, progesterone, and RU486 in a dose-dependent manner. The antiandrogens, flutamide and hydroxyflutamide, lacked agonist activity and inhibited R1881-induced activation of CAT and androgen stabilization of AR. Steroids and antiandrogens with moderate to low affinity for AR promoted both nuclear transport and transcriptional activation but only at high hormone concentrations. Hydroxyflutamide acted as a true antiandrogen since it lacked agonist activity and was an inhibitor of androgen-induced transcriptional activation.

An androgen-inducible expression system for Saccharomyces cerevisiae

A novel controllable expression system for Saccharomyces cerevisiae has been developed. Expression of the gene encoding the human androgen receptor, from a strong yeast promoter, results in transactivation of a hybrid promoter carrying androgen-responsive sequences such that a target gene may be expressed in an androgen-dependent manner. By selection of an appropriate combination of androgen receptor level, target-gene copy number and concentration of the androgenic ligand, dihydrotestosterone, the expression level can be set within a 1400-fold range with no detectable effect on normal cell growth.

The multistep proteolytic maturation pathway utilized by vaccinia virus P4a protein: a degenerate conserved cleavage motif within core proteins

The most abundant vaccinia virus (VV) core protein found within the virion is protein 4a, which represents approximately 14% of the particle's dry weight. The 4a protein is synthesized as a 102.5-kDa precursor, which is proteolytically processed to a 62-kDa product concomitant with virion assembly. To identify the pathway by which P4a is converted into 4a, immunological reagents which are specific for subregions of the P4a precursor were developed and used in concert with peptide mapping and protein sequencing procedures. The results obtained suggest that the 891 amino acid P4a precursor is cleaved at two locations, between residues 614 and 615 and 697 and 698. Both the large amino-terminal 4a protein (residues 1-614) and the carboxy-terminal-derived 23-kDa protein (residues 698-891) become major virion constituents. The location and fate of the small internal peptide (residues 615-697) is not known. Interestingly, an analysis of the predicted amino acid sequences at the sites of cleavage within the P4a precursor indicated the presence of an Ala-Gly decreases Thr motif flanking the 697-698 site and an Ala-Gly decreases Ser motif flanking the 614-615 site. Since both of these signals are quite similar to the Ala-Gly decreases Ala signal previously identified as the cleavage point within the VV P4b and P25K core protein precursors (VanSlyke et al., 1991.J. Gen. Virol. 72, 411-416), this suggests that processing of all three core protein precursors may be coordinately linked and/or catalyzed by the same proteinase during viral assembly.

Androgen receptor gene mutations in X-linked spinal and bulbar muscular atrophy

X-linked spinal and bulbar muscular atrophy (Kennedy's disease) is an adult-onset form of motorneuron disease which may be associated with signs of androgen insensitivity. We have now investigated whether the androgen receptor gene on the proximal long arm of the X chromosome is a candidate gene for this disease. In patient samples we found androgen receptor gene mutations with increased size of a polymorphic tandem CAG repeat in the coding region. These amplified repeats were absolutely associated with the disease, being present in 35 unrelated patients and none of 75 controls. They segregated with the disease in 15 families, with no recombination in 61 meioses (the maximum log likelihood ratio (lod score) is 13.2 at a recombination rate of 0). The association is unlikely to be due to linkage disequilibrium, because 11 different disease alleles were observed. We conclude that enlargement of the CAG repeat in the androgen receptor gene is probably the cause of this disorder.

Assembly and analysis of a functional vaccinia virus "amplicon" containing the C-repeat region from the M protein of Streptococcus pyogenes

Previous studies have shown that when inoculated intranasally into mice, vaccinia virus (VV) recombinants expressing the carboxyl half of the Streptococcus pyogenes M protein [which contains the C-repeat region (CRR)] could elicit a protective immune response against subsequent challenge by both homologous and heterologous serotypes of pathogenic group A streptococci. In the present study, an insertion plasmid was constructed that contained three tandem in-frame repeats of a 310-base-pair DNA sequence encoding the CRR from streptococcal M6 protein under control of a constitutive viral promoter. The plasmid was used to introduce the bacterial sequences into the VV genome by homologous recombination. Surprisingly, the recombinant VV:CRR3X virus that was isolated appeared to represent not an individual recombinant virus but a complex mixture of variants that contained from 1 to greater than 20 tandem copies of the CRR region at the insertion site. This genomic complexity was mirrored at the transcriptional level in that a nested set of coterminal transcripts was detected in VV:CRR3X-infected cells, which increased in size from 1400 to 6600 bases by increments of approximately 300 bases. All transcripts containing two or more CRR inserts appeared functional, as Western (immuno) blot analyses of VV:CRR3X-infected cell extracts revealed a family of CRR-related proteins with apparent molecular masses that increased from 30 kDa upward in increments of 10 kDa. All data are consistent with the hypothesis that variation in the VV:CRR3X recombinants is from random crossover events that occur within the CRR region during viral DNA replication. These results suggest that the genomic diversity generated by the "recombinogenic" properties of vaccinia recombinants containing tandem foreign inserts could be used to facilitate induction of a broadly protective immune response against antigenically diverse pathogenic agents.

A frameshift mutation destabilizes androgen receptor messenger RNA in the Tfm mouse

A composite mouse androgen receptor DNA sequence was obtained by amplifying genomic DNA or cDNA using the polymerase chain reaction. The open reading frame was 2,697 basepairs, encoding a polypeptide of 899 amino acids (98,204 mol wt). Amino acid sequence comparisons indicated that the mouse androgen receptor (AR) is 97% homologous with rat AR and 83% with human AR. The amino acid sequences of the three receptors are identical within the DNA- and steroid-binding domains. Northern blot analysis revealed the predominant mouse AR mRNA to be 10 kilobases (kb). A 1.7-kb mRNA species was detected in mouse kidney using a cDNA probe containing only 5' untranslated AR sequence. Lack of hybridization with AR-coding sequence probes suggested that the 1.7-kb mRNA was not a truncated form of AR mRNA. Sequencing of genomic DNA isolated from testicular feminized (Tfm) mice revealed a single base deletion in the N-terminal domain, resulting in a frameshift mutation. Cycloheximide treatment caused a dramatic increase in AR mRNA in kidneys of Tfm mice, but not wild-type mice, suggesting that the Tfm mutation results in an unstable AR mRNA.

The androgen receptor gene is located on a highly conserved region of the X chromosomes of marsupial and monotreme as well as eutherian mammals

The androgen receptor gene (AR), which is located on the long arm of the human X chromosome, was mapped by somatic cell analysis and in situ hybridization in marsupial and monotreme species. Both methods demonstrated that it was located on the X chromosome in each marsupial species, and also in the platypus. We conclude that this gene is part of a highly conserved region of the mammalian X, represented by the human Xq, which formed part of the X chromosome in a mammalian ancestor 150 million years ago. Since this gene is located proximally on the long arm of the monotreme X, which is G-band homologous to the Y and apparently exempt from X chromosome inactivation, the conservation of this region has evidently not depended on its isolation by X-Y differentiation or on X inactivation.

Transcriptional activation and nuclear targeting signals of the human androgen receptor

The androgen receptor (AR) is a signal-transducing protein required for sexual differentiation, development, and expression of the male phenotype. A series of human AR deletion mutants were created either by site-directed mutagenesis using restriction enzyme digestion, the polymerase chain reaction, or, for a series of unidirectional NH2-terminal deletions, exonuclease III digestion. Receptor mutants were expressed in monkey kidney COS cells as truncated AR proteins between 20 and 107 kDa as revealed on immunoblots, where wild type AR was a doublet of 114 and 108 kDa. Subcellular localization by immunocytochemical staining demonstrated androgen-dependent nuclear uptake of AR from a perinuclear region of the cytoplasm. A nuclear targeting signal similar in sequence and position to the glucocorticoid receptor and homologous to the SV40 large T antigen was required for androgen-induced nuclear uptake of wild type AR. AR mutants lacking the NH2-terminal and/or steroid binding domains were constitutively nuclear with reduced transcriptional activity. Transcriptional activation by wild type AR was androgen-dependent in cotransfection studies of CV1 cells using the chloramphenicol acetyltransferase reporter gene linked to the mouse mammary tumor virus promoter. Deletion mutagenesis revealed within the NH2-terminal region a domain required for full transcriptional activity and within the steroid binding domain, an inhibitory function, deletion of which yielded a constitutively active receptor. Inhibition of wild type AR by coexpression with an inactive NH2-terminal fragment suggested competition for nuclear factors required for transcriptional regulation. These studies demonstrate a concerted interplay among the domains of the AR protein in regulating gene transcription.

Calcium/calmodulin regulation of the rat prolactin gene is conferred by the proximal enhancer region

The effects of the calcium/calmodulin signaling system on expression of the rat PRL gene were studied in rat pituitary GH3 cells using two specific naphthalene sulfonamide calmodulin (CaM) antagonist drugs, W7 and a more potent and more highly specific iodo-derivative, 5-iodo-1-C8. PRL (but not GH) mRNA accumulation was markedly inhibited by W7, which in coincubations abolished the stimulation normally seen with TRH. Transient transfection assays showed that expression of the reporter gene chloramphenicol acetyl transferase (CAT) linked to 5'-flanking sequences from the PRL gene was inhibited by the calcium-channel blocker verapamil and by the two CaM antagonists. The calcium effects showed partial promoter specificity, in that transcription of PRL-CAT constructs was markedly inhibited by verapamil, but the Rous sarcoma virus-CAT construct also showed significant inhibition, whereas the pBL-CAT2 construct was unaffected. Three hundred ninety five base pairs were sufficient to confer the full inhibitory effect of calcium channel blockade or CaM antagonist seen with longer constructs. The data indicate that CaM is important for PRL gene transcription, and that the effects of CaM are exerted on DNA sequences within the proximal 395bp of prolactin 5'-flanking DNA.

Functional characterization of naturally occurring mutant androgen receptors from subjects with complete androgen insensitivity

Mutations in the androgen receptor (AR) are thought to cause complete androgen insensitivity (CAIS) in 46,XY human subjects who have a female phenotype despite normal adult male concentrations of plasma testosterone. Assays of AR binding in cultured skin fibroblasts from subjects with CAIS show either an apparent absence of AR (AR-) or normal levels of AR (AR+) binding. In several subjects with CAIS, AR-, no gross AR mutation was detected by Southern blot analyses of genomic DNA and normal sized 10 kilobase mRNA was present on Northern blots of poly(A+) RNA from cultured genital skin fibroblasts. We have used the polymerase chain reaction to amplify individual exons within the human AR gene of subjects with CAIS and have identified point mutations in three subjects. In one AR- subject (R774C), amino acid 774 was changed from arginine (CGC) to cysteine (TGC), in another AR- subject (R831Q), arginine (CGA) was changed to glutamine (CAA) at position 831, and in an AR+ subject (V866M) a methionine (ATG) was substituted for valine (GTG) at position 866. Transfection of wild type and mutant AR cDNA clones into COS cells results in detection of AR protein by immunoblotting. AR ligand binding activity is absent in cells transfected with AR mutants R774C and R831Q, but present with AR mutant V866M. Androgen binding in cells transfected with AR mutant V866M has a 6-fold lower apparent binding affinity than that of wild-type AR. Transcriptional activation of the MMTV-CAT reporter gene was androgen dependent and specific and nearly maximal at physiological concentrations (10(-10) M) of androgen when wild-type AR was transfected into cells, whereas neither AR mutants R774C nor R831Q were able to stimulate CAT activity even at 10(-8) M androgen. AR mutant V866M was able to stimulate CAT activity but the androgen dose dependency was shifted toward pharmacological concentrations of steroid that exceed in vivo levels. The molecular basis of CAIS in humans exhibits genetic heterogeneity. Our study shows that some cases of CAIS are explained by an inability to form a functional AR-steroid complex and hence, the AR is unable to activate transcription of genes essential for male sex differentiation during fetal development.

Immunohistochemical localization of the androgen receptor in rat and human tissues

Immunohistochemical localization of the androgen receptor (AR) was performed in reproductive tissues, submaxillary gland, pituitary, and brain of the rat and in human prostate. AR was visualized using either of two polyclonal antibodies raised against peptides with sequences derived from rat and human AR. Tissue sections of 6-8 microns, frozen in isopentane and fixed in paraformaldehyde, were stained using immunoglobulin G fractions of immune, preimmune, and peptide-adsorbed immune sera in the avidin-biotin peroxidase procedure. AR was prominent in nuclei of acinar epithelial cells of epididymis, ventral prostate, seminal vesicle, and ductus deferens from the intact rat. Androgen withdrawal, 3 days after castration, resulted in the loss of receptor immunostaining, which was restored within 15 min of androgen administration. Stromal cell staining was absent or weak in the ventral prostate of intact rats, but was more evident in the epididymis. AR was confined to nuclei of cells within and bordering the interstitial compartment of the testis, including Sertoli cells, peritubular myoid cells, and interstitial cells, and was undetectable in germ cells. Submaxillary gland epithelial cells and a population of rat anterior pituitary cells showed strong nuclear staining of AR. In rat brain, AR was present in the medial preoptic, arcurate, and ventromedial nuclei of the hypothalamus, the medial nucleus of the amygdala, the CA-1 hippocampus, and the cortex. AR was prominent in acinar epithelial cells in human benign prostatic hyperplasia and was also present in stroma of fibromuscular benign hyperplasia. Heterogeneous staining was observed in stromal and epithelial cells of prostatic adenocarcinoma. The results of these studies indicate that AR can be detected immunohistochemically in a variety of tissues and cell types using antipeptide polyclonal antibodies. The presence of AR in tissues correlated with their known androgen responsiveness.

Use of a cell-free system to identify the vaccinia virus L1R gene product as the major late myristylated virion protein M25

A 25-kDa vaccinia virus (VV) virion protein, designated M25, is modified in vivo by covalent addition of myristic acid. The predicted amino acid sequences of all VV open reading frames which have been reported were searched for the sequence M-G-X-X-X-(S/T/A), which has been proposed to be the consensus recognition signal for cotranslational modification of proteins by N-myristyltransferase. This conserved signal was found at the amino terminus of a single locus, which corresponded to the leftmost rightward-reading open reading frame (L1R) initiating within the VV HindIII L DNA fragment. By using synthetic oligonucleotides in concert with polymerase chain reaction techniques, a chimeric gene consisting of open reading fram L1R fused to a bacteriophage T7 promoter was constructed and cloned into a plasmid vector. Transcripts derived from the wild-type expression plasmid (designated pL1G1) were translated in vitro in a wheat germ extract to yield a polypeptide with an apparent molecular mass of 25 kDa. This polypeptide was labeled with either [35S]methionine or [3H]myristic acid and comigrated with in vivo-labeled protein M25 on sodium dodecyl sulfate-polyacrylamide gels. Polyclonal antiserum generated in rabbits against a trpE:L1R fusion protein immunoprecipitated a 25-kDa protein labeled either in vitro (the L1R gene product, designated protein L1) or in vivo (from purified VV, protein M25), identifying the M25 protein as the gene product of open reading frame L1R. Chromatographic analysis of the protein L1-bound fatty acid moieties liberated after acid methanolysis resulted in recovery of greater than 99% of the fatty acid as myristate-associated label. Cell-free translation of proteins derived from a set of deletions from the carboxy terminus of the open reading frame L1R suggested that the site of myristylation maps near the amino terminus of protein L1. This hypothesis was supported by cell-free translation of mutant L1R transcripts in which the penultimate glycine codon had been altered by site-directed mutagenesis to encode either an aspartic acid (pL1D1) or alanine (pL1A1) residue. In both cases, the mutant transcripts were translated into a 25-kDa protein which could be labeled in vitro with [35S]methionine but not with [3H]myristic acid. These data demonstrate that VV open reading frame L1R encodes a myristylated protein and provide evidence that the site of modification of protein L1 is the amino-terminal glycine residue.

Expression of recombinant androgen receptor in cultured mammalian cells

Full-length rat and human androgen receptor (AR) cDNA clones were expressed in COS-7 and CV1 monkey kidney cells to analyze the AR protein using immunological and cotransfection techniques. The studies were aided by the development of two rabbit polyclonal antibodies, designated AR32 and AR52, directed against epitopes within the N-terminal region of AR. Each antibody recognizes native AR by sucrose gradient analysis and detects a 114-kilodalton protein in COS cells transfected with human or rat AR cDNA. Covalent binding of the synthetic androgen [3H]methyltrienolone (R1881) to the 114-kDa protein was saturable. The endogenous native AR was similarly 114 kDa on immunoblots of a human prostate adenocarcinoma cell line, LNCaP, and rat sex accessory gland extracts. AR was localized in nuclei of transfected COS cells and in LNCaP cells by immunocytochemical staining. Androgen induction of CAT activity was dose dependent in CV1 cells cotransfected with the AR expression vector and a reporter plasmid containing the mouse mammary tumor virus promoter linked to the chloramphenicol acetyltransferase gene. It is concluded that antipeptide antibodies are useful reagents in characterizing both native and denatured forms of the AR protein. The 114-kDa protein expressed transiently in cultured cells represents the full-length AR protein, has a molecular size equivalent to that of endogenous AR, and mediates androgen-dependent transcriptional activation in CV1 cells.

Augmentation of glutathione in the fluid lining the epithelium of the lower respiratory tract by directly administering glutathione aerosol

Glutathione (GSH), a cysteine-containing tripeptide, functions as an antioxidant, provides cells with cysteine, and is required for optimal function of the immune system. Because the epithelial-lining fluid (ELF) of the lower respiratory tract normally contains high GSH levels and lung ELF GSH deficiency states can exist, we evaluated the feasibility of augmenting lung ELF GSH levels by (i) administering GSH to sheep i.v. and by direct aerosolization and then (ii) measuring the GSH levels in lung ELF, lung lymph, venous plasma, and urine. When GSH (600 mg) was administered i.v. (n = 11), GSH levels in venous plasma, lung lymph, and ELF rose, but only transiently, suggesting the i.v. route would not deliver adequate GSH to the alveolar epithelial surface. For directly administering GSH to the lung by the aerosol route, in vitro studies were first conducted to show that greater than 50% of a GSH solution could be converted to droplets less than 3 microns in aerodynamic diameter without oxidizing the GSH. To target functional GSH to the lower respiratory tract, an aerosolized solution of GSH (600 mg) was administered to sheep (n = 12). Significantly, the GSH level in ELF increased 7-fold at 30 min (preaerosol, 45.7 +/- 10 microM; 30-min postaerosol, 337 +/- 64 microM; P less than 0.001). The ELF GSH levels remained above baseline at 1 hr (P less than 0.01), returning toward baseline over a 2-hr period. In contrast, GSH levels in lung lymph, venous plasma, and urine were not significantly increased during the period--i.e., aerosol therapy selectively augmented the GSH levels only at the lung epithelial surface. Thus, functional GSH can be delivered by aerosol to directly augment the ELF GSH levels of the lower respiratory tract. Such an approach may prove useful in treating a variety of lung disorders.

A single base mutation in the androgen receptor gene causes androgen insensitivity in the testicular feminized rat

The complete form of androgen insensitivity is an inherited X-linked syndrome in which genetic males fail to undergo masculinization in utero due to defective functioning of the androgen receptor (AR). The molecular basis of androgen insensitivity was investigated in the testicular feminized (Tfm) rat with this syndrome. AR mRNA size and amount, as well as nuclear AR protein revealed by immunocytochemistry, suggested normal expression of the AR gene in the Tfm rat. Sequence analysis of the AR coding region from Tfm and wild-type littermate male rats revealed a single transition mutation, guanine to adenine, within exon E, changing arginine 734 to glutamine within the steroid-binding domain of the AR. This arginine is highly conserved among the family of nuclear receptors and may be part of a phosphorylation recognition site. A recreated mutant AR (Arg734----Gln) expressed in COS cells had only 10-15% of the androgen-binding capacity of wild-type AR; the reduced androgen-binding capacity was similar to that of AR in tissue extracts of the Tfm rat. Stimulation of transcriptional activity by the recreated mutant AR was reduced relative to wild-type AR in cotransfection assays in CV1 cells using as reporter plasmid the mouse mammary tumor virus promoter linked to the chloramphenicol acetyltransferase gene. Thus, arginine 734 appears essential for normal AR function both in androgen binding and transcriptional activation. Absence of these functions results in androgen insensitivity and lack of male sexual development.

Expression and localization of androgen receptor in the R-3327 Dunning rat prostatic adenocarcinoma

The Dunning R-3327 rat prostatic adenocarcinoma and its sublines have been developed as a model system to study prostate tumor progression. We have used this system to study the changes in androgen receptor (AR) and AR mRNA expression which occur during tumor progression from androgen dependent to androgen independent growth. Dorsal prostate and all tumor sublines contained a 10-kilobase AR mRNA on Northern blot analysis. The levels of AR mRNA in each subline compared to dorsal prostate (100%) were: H (75%) greater than G (48%) greater than HI (25%) greater than HI-F = AT-1 = AT-3 = MAT-Lu = MAT-Ly-Lu = less than 5%. Immunocytochemistry showed AR predominantly in acinar epithelial cells of dorsal prostate and the androgen sensitive H subline. In the H subline, both acinar epithelial cells and locally invasive adenocarcinoma cells within the stroma showed positive immunostaining. The androgen responsive, anaplastic G subline also showed strong positive immunostaining. The androgen resistant AT-1 and MAT-Lu sublines lacked immunostaining for the AR. Steroid autoradiography revealed a similar cellular distribution of AR. These data suggest that in the Dunning system the loss of androgen binding and responsiveness is primarily due to selective changes in gene expression and not to gene rearrangements or posttranscriptional or translational modification of the AR mRNA or protein.

Autologous down-regulation of androgen receptor messenger ribonucleic acid

Autoregulation of androgen receptor (AR) mRNA was investigated using Northern blot analysis with AR cDNA fragments as probes. The amount of AR mRNA increased 2- to 10-fold with androgen withdrawal and decreased below control levels after androgen stimulation in rat ventral prostate, coagulating gland, epididymis, seminal vesicle, kidney, and brain, and in a human prostate cancer cell line, LNCaP. In rat ventral prostate, AR mRNA increased 2- to 3-fold within 24 h after castration and remained elevated for 4 days. Treatment with testosterone propionate beginning 24 h after castration reduced ventral prostate AR mRNA 4-fold within 8 h of androgen replacement. Administration of estradiol 24 h after castration had no significant effect on prostatic AR mRNA. Androgens, including testosterone and the synthetic androgen methyltrienolone (R1881), or the antiandrogen cyproterone acetate down-regulated AR mRNA in vitro in LNCaP cells, whereas estradiol was without effect. Administration of testosterone propionate to rats with androgen insensitivity did not decrease AR mRNA. Down-regulation of AR mRNA by androgen is therefore a receptor-mediated process which occurs in vivo in rat tissues that differ in androgen responsiveness and in cultured human prostate cells.

Sequence of the intron/exon junctions of the coding region of the human androgen receptor gene and identification of a point mutation in a family with complete androgen insensitivity

Androgens act through a receptor protein (AR) to mediate sex differentiation and development of the male phenotype. We have isolated the eight exons in the amino acid coding region of the AR gene from a human X chromosome library. Nucleotide sequences of the AR gene intron/exon boundaries were determined for use in designing synthetic oligonucleotide primers to bracket coding exons for amplification by the polymerase chain reaction. Genomic DNA was amplified from 46,XY phenotypic female siblings with complete androgen insensitivity syndrome. AR binding affinity for dihydrotestosterone in the affected siblings was lower than in normal males, but the binding capacity was normal. Sequence analysis of amplified exons demonstrated within the AR steroid-binding domain (exon G) a single guanine to adenine mutation, resulting in replacement of valine with methionine at amino acid residue 866. As expected, the carrier mother had both normal and mutant AR genes. Thus, a single point mutation in the steroid-binding domain of the AR gene correlated with the expression of an AR protein ineffective in stimulating male sexual development.

Regulation of growth hormone secretion and messenger ribonucleic acid accumulation in human somatotropinoma cells in vitro

GH secretion and mRNA levels were measured in cultured cells obtained from six human pituitary somatotroph tumors to investigate their hormonal and intracellular regulation. The responses were variable between tumors, but, in general, mRNA levels were less responsive than GH release to in vitro manipulation. GH-releasing factor [GRF-(1-29) amide; 10 nM] increased GH release and mRNA levels in three of four tumors tested to 30-97% above control values, but the fourth tumor was unresponsive. Somatostatin (1 microM) inhibited GH release significantly in four of the six cases, to 35-79% of control levels, but had no inhibitory effect on GH mRNA accumulation, in contrast to earlier studies on rat pituitary tissue. Bromocriptine (100 nM) likewise inhibited GH release (50-75% of control), but not GH mRNA levels, in the four tumors tested. Forskolin (10 microM; used to activate adenylate cyclase) stimulated GH release and mRNA levels in the two cases that responded most clearly to GRF, but had no significant effect in the other tumors; however, the phorbol ester 12-O-tetradecanoyl phorbol-13-acetate (100 nM) had no consistent effect on mRNA levels despite stimulating secretion in four of six cases. Thus, there was considerable variation in responses among the tumors tested; however, the responsiveness to GRF was approximately paralleled by that to forskolin, consistent with the suggestion that adenylate cyclase activity and responsiveness are variable among these tumors. Furthermore, the divergent effects of somatostatin on GH release and mRNA suggest uncoupling between its receptor and transcriptional regulatory mechanisms.