Tfm Lac: A second isolation of testicular feminization in mice

Tfm ^Lac, a new occurrence of the X-linked mutation testicular feminization, has been isolated in a stock of mice and mapped to the same region as the originalTfm ^H mutation. We compared these two mutants to determine if there are differences in their putative residual androgen receptors or androgen responsiveness. Such differences have been reported forTfm mutations in humans. We found no evidence for induction of ornithine decarboxylase (ODC) activity inTfm ^Lac despite androgen treatment for up to 3 weeks. This is in agreement with findings forTfm ^H. Both of these mutants expressed small amounts of androgen binding activity which shared some properties with the normal androgen receptors in mouse kidney. The binding was distinguishable between the two mutants, however, as determined by hormone saturation experiments utilizing DNA-cellulose chromatography. These findings confirm the independence of the two mutations and are consistent with their being allelic: both result in severe deficits of androgen binding and response.This work was supported by NIH Grants HD17666 and HD20327 (TOF), research grants from the March of Dimes-Birth Defects Foundation (TOF), and a postdoctoral National Research Service Award (J.A.P.) in Endocrinology (AM07337).     

β-Glucuronidase activity is present in the microscopic epididymis of the Tfm/Y mouse

The sex-linked recessive gene Tfm in the mouse produces a condition of testicular feminization (androgen insensitivity syndrome, AIS) in hemizygotes, comparable to the condition of the same name in humans. The murine mutant was originally believed to have no derivatives of the mesonephric duct system (MDS), and this absence was ascribed to dependence of these derivatives on androgens for survival. However, microscopical epi-didymides, retia testes, and vasa deferentia were identified in these animals in our laboratory. These micro-organs may play a role in meiosis induction in Tfm/Y animals. The present study was designed to determine whether survival of these organs is due to retention of an ability to respond to androgens, or whether they are unique amongst MDS derivatives in being independent of androgens. Previous studies in our laboratory demonstrated that the enzyme β-glucuronidase (βG) is androgen sensitive in the epididymis of the normal mouse. In the present investigation we used this enzyme as a marker to study androgen sensitivity in the microscopical epididymides of Tfm/Y hemizygotes and in the epididymides of control +/Y litter-mate brothers. Both mutant and control animals were studied with and without exogenous androgen stimulation. Tfm/Y hemizygotes demonstrated low levels of diffuse, cytoplasmic βG activity that appears to be unresponsive to exogenous androgen stimulation. In light of our previous studies, this distribution of βG reaction products suggests some degree of androgen sensitivity. The survival of these micro-organs and their partial androgen sensitivity may be related to the role of the MDS in inducing meiosis.     

Univalent sex chromosomes in spermatocytes of Sxr-carrying mice

Pachytene configurations of the sex chromosomes were studied in whole-mount, silver-stained preparations of spermatocytes in mice with XY,Sxr, XX,Sxr, XO,Sxr, XO,Sxr+5¹² and T(X;4)37H,YSxr chromosomes, and non-Sxr-carrying controls. XY,Sxr males showed an increased number of X and Y univalents and of self-synapsed Y chromosomes. In T(X;4)37H,YSxr males an increased proportion of trivalent+Y configurations was also accompanied by higher numbers of self-paired Y univalents; the proportion of trivalent+X⁴ was not increased, but that of self-synapsed X⁴ univalents was. There was more selfsynapsis in cells containing one univalent than in cells containing two univalents. Spermatocytes of XX,Sxr mice contained single univalent X, which was never seen to be self-synapsed, but self-synapsis of the X occurred in a proportion of cells in XO,Sxr males. There were no self-paired X chromosomes in the XO,Sxr+5¹² mouse although lowlevel pairing of the 5¹² chromosome occurred. All four XX,Sxr and XO,Sxr males contained testicular sperm, and testicular sperm were also present in one T(X;4)37H male, while another such male had sperm in the caput. It is concluded that (1) self-synapsis of univalents is affected by variable conditions in the cell as well as by the DNA sequences of the chromosome, and (2) that the level of achievable spermatogenesis is not always rigidly predetermined by a chromosome anomaly but can be modulated by the genetic background.     

TfM mutation and masculinization versus feminization of the mouse central nervous system

The sexual behavior of mice of various genotypes has been studied in our stock in which X-linked genes, Tfm and (O^hv), as well as an autosomal dominant gene, Sxr, are maintained. Since the absence of neonatal imprinting in Tfm (O^hv)/Y^ leads to no sexual behavior, we conclude that neonatal imprinting is the prerequisite for feminization as well as masculinization of the central nervous system. Since individual components of sexual behavior may become feminine or absent instead of being masculine in sex-reversed Tfm (O^hv)/+(O⁺, Sxr/+^♂ with mosaic brains, we conclude that neonatal imprinting directly involves individual neurons, and that different degrees of imprinting by the same agent lead to masculinization or feminization. In accordance with recent views, we believe estradiol to be this imprinting agent.We envisage the role of the Tfm locus in the central nervous system as follows: within individual neurons for sexual behavior, the synthesis of aromatizing enzymes is normally inducible by androgens; these enzymes are therefore noninducible in Tfm (O^hv)/Y^. In normal neonates, exposure to testosterone leads to the induced intracellular conversion of testosterone to estradiol, self imprinting by estradiol causing masculinization. Feminization may normally be due to the direct exposure of these neurons to a low circulating concentration of estradiol. An alternative explanation might be that the estradiol-receptor protein in these neurons also is normally inducible by testosterone. In this case, neonatally testosterone-exposed neurons would become inherently more responsive to estradiol than neonatally estradiol-exposed neurons.     

Metabolic cooperation between Tfm and wild-type cells in mosaic mice after induction of DNA synthesis

Mosaic mice composed of androgen-insensitive Tfm and androgen-sensitive wild-type cells are constructed by virtue of the natural X inactivation: XX mice heterozygous for X-linked testicular feminization (Tfm) are reverted to males by the sex reversal (Sxr) mutation. After stimulation with testosterone, in the epididymis of the mosaic mice, the incorporation of ³H-thymidine is compared in both cell fractions. The labeling index of Tfm and wild-type cells is in the same order of magnitude. The result indicates that the stimulus for DNA synthesis exerted by testosterone is conveyed from the androgen-sensitive wild-type to the androgen-insensitive Tfm cells by metabolic cooperation on tissue level.On the other hand, the proportion of Tfm cells in the epididymal mosaic is far less than expected from X inactivation. The reason is that in the mosaic, in spite of normal proliferation, the undifferentiated Tfm cells die off steadily. Typical dense bodies are observed as signs of physiological cell death.     

Genetic homology and crossing over in the X and Y chromosomes of mammals

Summary The X-Y crossover model described in this paper postulates that (1) the pairing observed between the X and the Y chromosome at zygotene is a consequence of genetic homology, (2) there is a single obligatory crossover between the X and Y pairing segments, and (3) the segment of the X which pairs with the Y is protected from subsequent X inactivation. Genes distal to the proposed crossover (pseudoautosomal genes) will appear to be autosomally inherited because they will be transmitted to both male and female offspring. Some criteria for identifying pseudoautosomal genes are outlined.The existence of a single obligatory crossover between the X and Y of the mouse is strongly supported by a recent demonstration that the sex-reversing mutation Sxr, which is passed equally to XX and XY offspring by male carriers, is transmitted on the sex chromosomes. Pseudoautosomally inherited genes may also be responsible for XX sex reversal in goats and familial XX sex reversal in man.     

Androgen Spares Androgen-Insensitive Motoneurons from Apoptosis in the Spinal Nucleus of the Bulbocavernosus in Rats

The spinal nucleus of the bulbocavernosus (SNB) is a sexually dimorphic motor nucleus in the rat lumbar spinal cord. The sex difference arises through the androgenic sparing of the motoneurons and their target muscles from ontogenetic cell death. Indirect evidence suggests that androgen acts on the target muscles rather than directly on SNB motoneurons to spare them from death. The testicular feminization mutation (Tfm), a defect in the androgen receptor (AR), blocks androgenic sparing of SNB motoneurons and their targets. The pattern of AR immunocytochemistry was previously found to be different in adultTfmand wild-type rats: immunostaining was nuclear in most SNB cells of wild-type rats, but very few SNB cells display nuclear AR immunostaining in affectedTfmrats. Because theTfmmutation is carried on the X chromosome, random X inactivation during development makes female carriers ofTfm(+/Tfm) genetic mosaics for androgen sensitivity.Tfmcarriers, their wild-type sisters, and affectedTfmmales were treated with perinatal testosterone and immunocytochemistry was used to detect androgen receptor in the SNB when the rats reached adulthood. Mosaic females could be distinguished from their wild-type sisters by external morphology. In such perinatally androgenized mosaics, adult SNB cells were equally divided between wild-type andTfmgenotype, as indicated by AR immunocytochemistry. In contrast, the pattern of AR immunocytochemistry in target muscles of mosaics appeared similar to that of wild-type females. These results indicate that early androgen spared both androgen-sensitive and -insensitive motoneurons from cell death, confirming a site of androgen action other than the motoneurons themselves.     

Sex chromosome pairing patterns in male mice of novel Sxr genotypes

The influence of the sex-reversal factor (Sxr) on X and Y chromosome pairing was examined by comparing males with novel and standard Sxr genotypes. The novel Sxr males were exceptional in carrying Sxr on their X rather than their Y chromosome, or homozygously on both their X and Y chromosomes, or on a Y chromosome of different origin to that on which the factor arose. Regardless of its chromosomal location, Sxr was found to elevate the frequency of X-Y separation. Univalent X and Y chromosomes were observed to undergo self-association in a variable proportion of spermatocytes of all Sxr-carrying males. There was a suggestion that chromosomal location of the factor could influence the frequency of univalent self-association. Our observations do not support the published hypothesis of Y self-pairing as the cause of the elevated rate of X-Y separation at pachytene in Sxr-carrying males. Rather, they suggest that heterozygosity due to the presence of Sxr in the XY pairing region may be sufficient to disrupt pairing and cause univalence, or alternatively, that Sxr is an inefficient promoter of X-Y pairing initiation.     

Enzymes of arginine utilization and their formation in Aeromonas formicans NCIB 9232

In Aeromonas formicans two inducible catabolic pathways of L-arginine have been characterized. The arginine decarboxylase is induced by arginine which also induces the three enzymes of the arginine deiminase pathway but only in stress conditions such as a shift from aerobic growth conditions to very low oxygen tension. Addition of glucose to medium containing arginine leads to repression of the enzymes involved in the arginine deiminase pathway while exogenous cAMP prevents that repression of enzyme synthesis by glucose. This suggests that the induction of arginine deiminase pathway is regulated by carbon catabolite repression and the energetic state of the cell.     

Demonstration of 2n spermatids in carriers of the “sex reversed” factor in the mouse by feulgen cytophotometry

Summary The Sex Reversed factor (Sxr) leads to development of XX males. The condition is transmitted by XY-Sxr males. The testes of XY-Sxr carriers are characterized by patches of defective spermatogenesis with meiotic failure and appearance of extraordinary large spermatids. In the present study DNA content of the large spermatids is determined by Feulgen DNA measurement using a scanning cytophotometer. The large spermatids in XY-Sxr testes are shown to be 2n.This study is dedicated to Prof. Dr. W. Graumann on occasion of his 65th birthday     

Androgen receptors are required for full masculinization of nitric oxide synthase system in rat limbic-hypothalamic region

The neuronal nitric oxide synthase (nNOS) is involved in the control of male and female sexual behavior and its distribution in several regions of the limbic–hypothalamic system, as well as its coexistence with gonadal hormones' receptors, suggests that these hormones may play a significant role in controlling its expression. However, data illustrating the role of gonadal hormones in controlling the nNOS expression are, at present, contradictory, even if they strongly suggest an involvement of testosterone (T) in the regulation of nNOS. The action of T may be mediated through androgen (AR) or, after aromatization to estradiol (E₂), through estrogen receptors.To elucidate the role of AR on nNOS expression, we compared male and female rats with a non-functional mutation of AR (Tfm, testicular feminization mutation) to their control littermates. We investigated some hypothalamic and limbic nuclei involved in the control of sexual behavior [medial preoptic area (MPA), paraventricular (PVN), arcuate (ARC), ventromedial (VMH) and stria terminalis (BST) nuclei]. In BST (posterior subdivision), VMH (ventral subdivision), and MPA we detected a significant sexual dimorphism in control animals and a decrease of nNOS positive elements in Tfm males compared to their littermate. In addition, we observed a significant increase of nNOS positive elements in BST (posterior) of Tfm females. No significant changes were observed in the other nuclei. These data indicate that, contrary to current opinions, androgens, through the action of AR may have a relevant role in the organization and modulation of the nNOS hypothalamic system.     

Isolation and characterization of oxaloacetate decarboxylase of Salmonella typhimurium,a sodium ion pump

Anaerobic growth of Salmonella typhimurium on citrate is Na⁺-dependent and requires induction of the necessary enzymes during a 20–40 h lag phase. The citrate fermentation pathway involves citrate lyase and oxaloacetate decarboxylase. The decarboxylase is a membrane-bound. Na⁺-activated, biotin-containing enzyme that functions as a Na⁺ pump. Oxaloacetate decarboxylase was isolated by affinity chromatography of a Triton X-100 extract of the bacterial membranes on avidin-Sepharose. The enzyme consists of three subunits , , , with apparent molecular weights of 63800, 34500 and 10600. The -chain contains a covalently attached biotin group and binds to antibodies raised against the -subunit of oxaloacetate decarboxylase from Klebsiella pneumoniae. The Na⁺ transport function was reconstituted by incorporation of the puriried enzyme into proteoliposomes.     

Nucleosome transactions on the<Emphasis Type="Italic"> Hypocrea jecorina</Emphasis> (<Emphasis Type="Italic"> Trichoderma reesei</Emphasis>) cellulase promoter<Emphasis Type="Italic"> cbh2</Emphasis> associated with cellulase induction

The 5 regulatory region of the cbh2 gene of Hypocrea jecorina contains the cbh2 activating element (CAE) which is essential for induction of cbh2 gene expression by sophorose and cellulose. The CAE consists of two motifs, a CCAAT box on the template strand and a GTAATA box on the coding strand, which cooperate during induction. Northern analyses of cbh2 gene expression has revealed an absolute dependence on induction, but no direct effect of Cre1-mediated carbon catabolite repression. Investigation of the chromatin structure in the wild-type strain showed that, under repressing conditions, there is a nucleosome free region (nfr) around the CAE, which is flanked by strictly positioned nucleosomes. Induction results in a loss of positioning of nucleosomes –1 and –2 downstream of the CAE, thus making the TATA box accessible. Simultaneous mutation of both motifs of the CAE, or of the CCAAT-box alone, also leads to shifting of nucleosome –1, which normally covers the TATA-box under repressing conditions, whereas mutation of the GTAATA element results in a narrowing of the nfr, indicating that the proteins that bind to both motifs in the CAE interact with chromatin, although in different ways. A cellulase-negative mutant strain, which has previously been shown to be altered in protein binding to the CAE, still displayed the induction-specific changes in nucleosome structure, indicating that none of the proteins that directly interact with CAE are affected, and that nucleosome rearrangement and induction of cbh2 expression are uncoupled. Interestingly, the carbon catabolite repressor Cre1 is essential for strict nucleosome positioning in the 5 regulatory sequences of cbh2 under all of the conditions tested, and induction can occur in a promoter that lacks positioned nucleosomes. These data suggest that Cre1, the Hap2/3/5 complex and the GTAATA-binding protein are all involved in nucleosome assembly on the cbh2 promoter, and that the latter two respond to inducing conditions by repositioning nucleosome –1.Communicated by C. A. M. J. J. van den Hondel     

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 Rnr ^s allele and is induced to higher levels by treatment with dihydrotestosterone (DHT). To determine whether the difference in basal activity between high (Rnr ^s/Rnr^s) and low (Rnr ^b/Rnr^b) strains is due to enhanced sensitivity of Rnr ^s/Rnr^s 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 Rnr ^s introduced from AKR/J into the background of C57L/J, an Rnr ^b/Rnr^b 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.This work has been aided by Grants GM26414 and AM03892 from the National Institutes of Health, a grant from the Texas affiliate of the American Heart Association, and by research contract NO1-CP33255 from the Division of Cancer Cause and Prevention, the National Cancer Institute. The Jackson Laboratory is fully accredited by the American Association for Accreditation of Laboratory Animal Care.     

Putative androgen receptors distinguished in wild-type and testicular-feminized (Tfm) mice.

The reduced level of putative androgen receptor in the mouse mutant, testicular feminization (Tfm), chromatographs on DNA-cellulose differently from the bulk of wild-type receptors. While the elution maximum for extracts of Tfm/Y kidney is in the 180–190 mM NaCl range, wild-type kidney extracts exhibit two maxima of elution at 140–150 mM NaCl and 180–190 mM NaCl, respectively. For hypothalamus-preoptic area, Tfm/Y has one elution maximum at approximately 180 mM NaCl, while the wild-type exhibits a major elution maximum at 140–150 mM NaCl, with a minor peak at approximately 180 mM NaCl. Mixing experiments between wild-type and Tfm/Y cytosols reveal that the different characteristic elution patterns are intrinsic to the binding complexes and are not conveyed simply by other soluble factors. The distinctive pattern for Tfm indicates that the mutation does not cause merely a reduced level of wild-type receptor. Rather the residual receptor of the mutant may be either an abnormal protein or a minor form of wild-type receptor, not readily seen in wild-type tissue due to the presence of more preponderant species. Differences in the elution profiles of androgen receptor species of wild-type kidney with the two bound androgens, testosterone and dihydrotestosterone, are also presented. A model of the androgen receptor system is proposed which includes several binding classes for androgen ligands and metabolites. In light of aromatization of androgens to estrogens and its probable role in some androgenic responses, we include the “estrogen receptor” in this mechanism.     

Excess histidine enzymes cause AICAR-independent filamentation in Escherichia coli

High-level expression of the hisHAFI genes in Escherichia coli, cloned under the control of an IPTG-inducible promoter, caused filamentation, as previously reported in Salmonella typhimurium. We speculated that this filamentation might be produced by an action of the HisH and HisF enzymes on their product AICAR (amino-imidazole carboxamide riboside 5-phosphate), a histidine by-product and normal purine precursor, possibly by favouring the formation of ZTP, the triphosphate derivative of AICAR. However, filamentation occured even in the absence of carbon flow through the histidine and purine pathways, as observed in a hisG purF strain lacking the first enzyme in each pathway. Filamentation thus does not require either the normal substrate or products of the overproduced histidine enzymes and must reflect another activity.     

Histidine utilization by Alcaligenes eutrophus: Regulation of histidase formation under heterotrophic conditions of growth

Histidine supported good growth of Alcaligenes eutrophus strain H 16 as a nitrogen source, but only poor growth as a carbon and energy source. The facultative chemolithoautotrophic bacterium was also able to utilize urocanic acid, the first intermediate of histidine catabolism. The products of histidine degradation were ammonium, formate and glutamate. Three enzymes of the pathway, histidase, urocanase and formiminoglutamate hydrolase, were present in histidine-grown cells. Two types of spontaneous mutants, derived from the wild type, were characterized by an increased growth rate on histidine. One of these types was found to produce histidase constitutively and at a higher activity compared with the parental strain. The second type of mutant had apparently gained an improved histidine uptake system, which is supposed to be growth rate-limiting in the wild type. From the physiological studies the conclusion was drawn that the control of histidine-degrading enzymes is based on induction by urocanate and catabolite repression by carbon sources supporting fast growth, such as succinate or pyruvate. Ammonium was found not to affect catabolite repression, however, we obtained evidence that histidine uptake is subject to a nitrogen control.Abbreviation CTAB hexadecyltrimethylammonium bromide     

The sporulation capable (sca) mutation of Saccharomyces cerevisiae is an allele of the SIR2 gene

Summary We have used the special properties of the spo13-1 mutation in order to study the regulation of yeast meiosis by the mating type loci. We have found that both the rme1-1 mutation and the sca mutation allow haploid meiosis in spo13-1 strains. Therefore, haploid meiosis is regulated in the same manner as diploid meiosis. Unlike rme1-1, the sca mutation allows meiosis through derepression of the silent mating type cassettes; sca strains can sporulate only because they express both MAT a and MAT information. We have found further that sca is an allele of SIR2, one of the genes involved in repression of the silent cassettes. Therefore, the RME1 gene is the only known candidate for a master negative regulator through which the MAT locus controls meiosis.     

The induction and repression of benzene and catechol oxidizing capacity of Pseudomonas putida ML2 studied in perturbed chemostat culture

The oxidation of catechol, an intermediate in benzene catabolism, was studied using transient variations in dissolved oxygen tension (DOT) when a succinate limited steady state culture of Pseudomonas putida ML2 was perturbed with a pulse of another substrate. A model was developed and tested for the effect of fluctuations in oxidizing enzyme activity on DOT. It was found that the rate of induction of catechol oxidizing enzymes was independent of dilution rate up to a relative growth rate /_max of 0.75. Only at higher dilution rates was catabolite repression observed.Abbreviations DOT dissolved oxygen tension - K _L a gas transfer coefficient - specific growth rate - _max maximum specific growth rate - K_s substrate saturation constant