Aromatase and estrogen receptors in male reproduction.

Aromatase is a terminal enzyme which transforms irreversibly androgens into estrogens and it is present in the endoplasmic reticulum of numerous tissues. We have demonstrated that mature rat germ cells express a functional aromatase with a production of estrogens equivalent to that of Leydig cells. In humans in addition to Leydig cells, we have shown the presence of aromatase in ejaculated spermatozoa and in immature germ cells. In most tissues, high affinity estrogen receptors, ERalpha and/or ERbeta, mediate the role of estrogens. Indeed, in human spermatozoa, we have successfully amplified ERbeta mRNA but the protein was not detectable. Using ERalpha antibody we have detected two proteins in human immature germ cells: one at the expected size 66 kDa and another at 46 kDa likely corresponding to the ERalpha isoform lacking exon 1. In spermatozoa only the 46 kDa isoform was present, and we suggest that it may be located on the membrane. In addition, in men genetically deficient in aromatase, it is reported that alterations of spermatogenesis occur both in terms of the number and motility of spermatozoa. All together, these observations suggest that endogenous estrogens are important in male reproduction.

Testicular and blood steroid levels in aged men.

In this study, we have evaluated the hypophyso-gonadal axis in three groups of men aged 60-69, 70-79 and 80-91 years by measuring the intratesticular concentrations of several steroids (pregnenolone, progesterone, DHEA, DHEA-S, testosterone, estradiol) and serum levels of FSH, LH, testosterone, estradiol and sex hormone binding globulin (SHBG). The histological examination of testes revealed normal spermatogenesis in all examined samples. No significant changes in serum hormone and SHBG concentrations as well as in testicular steroid contents among the three groups of patients were found. However, the mean serum SHBG level was three times higher in the oldest men than in other groups and a positive correlation between patient's age and serum SHBG was observed. Therefore, the bioavailability of estradiol in the oldest men was likely diminished. Consequently, the hormonal status in aged men is rather unchanged but great variations observed between patients imply special cautious when the SHBG and estradiol levels are concerned.

The promoter(s) of the aromatase gene in male testicular cells.

Aromatase is the terminal enzyme responsible for estrogen biosynthesis in mammals; it is present in various testicular cells including germ cells. The aromatase gene (Cyp19) is unique in humans and its expression is regulated in a tissue and more precisely, in a cell-specific manner via the alternative use of various promoters located in the first exon. Nevertheless, there is little information concerning the regulation of the testicular aromatase especially in germ cells. This prompted us to study the control of Cyp19 gene expression and its role in the regulation of the testicular androgen/estrogen ratio. Gonadotrophins and cAMP modulate aromatase expression in somatic cells which confirms that promoter II is controlled via CRE. Moreover, we have demonstrated that in highly purified germ cells from adult rats (pachytene spermatocytes and round spermatids), transforming growth factor beta (TGFbeta) inhibited the expression of Cyp19 in both germ cell types. In contrast, tumor necrosis factor alpha (TNFalpha) stimulated Cyp19 expression in pachytene spermatocytes. The effect of TNFalpha is amplified in presence of dexamethasone. Therefore, we suggest that in germ cells, TNFalpha enhances expression of aromatase through promoter PI.4 in pachytene spermatocytes, possibly via an AP1 site upstream the GAS element, while in round spermatids TNF requires glucocorticoids as a co-stimulator to increase Cyp19 gene expression. In addition, we have shown that androgens and estrogens by themselves modulate Cyp19 gene expression in all testicular cell types studied suggesting the presence of ARE and ERE on the Cyp19 gene promoter(s). Finally, in presence of seminiferous tubules or Sertoli cell-conditioned media, aromatase transcripts are increased in both Leydig cells and germ cells suggesting that other locally produced modulators (e.g. LRH-1) are involved in the regulation of the aromatase gene expression especially in Leydig cells. Using RACE (Rapid Amplification of cDNA Ends)-PCR, we have confirmed that promoter II mainly directs expression of the aromatase gene in all testicular cell types studied in the rat. However, involvement of another promoter such as PI.4 is suggested as well.

Differential expression of steroidogenic factor-1/adrenal 4 binding protein and liver receptor homolog-1 (LRH-1)/fetoprotein transcription factor in the rat testis: LRH-1 as a potential regulator of testicular aromatase expression.

Aromatase converts testicular androgens to estrogens, which are essential for male fertility. Aromatase expression in testis occurs via transcription from promoter II, and requires the presence of a nuclear receptor half-site that binds the orphan receptor steroidogenic factor-1 [SF-1 (nuclear receptor 5A1)] to mediate basal and (in part) cAMP-induced transcription. We hypothesized that liver receptor homolog-1 (LRH-1) (nuclear receptor 5A2), a receptor closely related to SF-1, could also play a role in regulating aromatase expression in the testis. We demonstrate expression of LRH-1 in adult rat and immature mouse Leydig cells (LHR-1 > SF-1) as well as in pachytene spermatocytes and round spermatids but not in Sertoli cells, which in contrast, express high levels of SF-1. In transient transfection assays using TM3 Leydig cells and TM4 Sertoli cells, a rat promoter II luciferase reporter construct was stimulated by cotransfection of LRH-1 expression vector. Mutation analysis showed that induction by LRH-1 in TM3 and TM4 cells requires an AGGTCA motif at position -90, to which LRH-1 bound in gel shift analysis. We therefore provide evidence that LRH-1 plays an important role in the regulation of aromatase expression in Leydig cells. The colocalization of LRH-1 and aromatase to multiple testis cell types suggests that LRH-1 may have important effects on estrogen production, testis development, spermatogenesis, and testicular carcinogenesis.

Aromatase expression and role of estrogens in male gonad : a review.

The ability of the testis to convert irreversibly androgens into estrogens is related to the presence of a microsomal enzymatic complex named aromatase, which is composed of a specific glycoprotein, the cytochrome P450 aromatase (P450arom) and an ubiquitous reductase. The aromatase gene is unique in humans and contained 18 exons, 9 of them being translated. In the rat testis we have immunolocalized the P450arom not only in Leydig cells but also in germ cells and especially in elongated spermatids. Related to the stage of germ cell maturation, we have shown that the level of P450arom mRNA transcripts decreases, it is much more abundant in pachytene spermatocytes and round spermatids than in mature germ cells whereas the aromatase activity is 2-4 fold greater in spermatozoa when compared to the younger germ cells. Using a highly specific quantitative competitive RT-PCR method we have evidenced that several factors direct the expression of the aromatase gene in Leydig cells, Sertoli cells, pachytene spermatocytes and round spermatids, and it is obvious that promoter PII is the main one but other promoters could be concerned. In the bank-vole testis we have observed a positive correlation between a fully developed spermatogenesis and a strong immunoreactivity for both P450arom and estrogen receptor beta not only in Sertoli cells but also in pachytene spermatocytes and round spermatids. Our recent data obtained from ejaculated human spermatozoa demonstrate the presence of aromatase both in terms of mRNA and protein, and in addition, we suggest that aromatase could be involved in the acquisition of sperm motility. Indeed in men the congenital aromatase deficiency is associated with severe bone maturation problems and sterility. Together with the widespread distribution of estrogen receptors in testicular cells these data clearly show that estrogens play a physiological role in the regulation of spermatogenesis in mammals.

Expression of aromatase in human ejaculated spermatozoa: a putative marker of motility.

Cytochrome p450 aromatase (p450arom) is a key enzyme responsible for the irreversible transformation of androgens into estrogens. In the present study, we have analysed the ability of human ejaculated spermatozoa to produce estrogens and for that purpose we have looked for the expression of specific aromatase transcript and protein. We have confirmed the presence of p450arom transcript in all normospermic purified samples by nested PCR. The sequence of PCR products from purified spermatozoa shares 98% identity with published human p450arom sequence. Using a semi-quantitative approach, we have observed in immotile sperm a significant decrease (28%) of the aromatase/glyceraldehyde-3-phosphate dehydrogenase ratio compared with the motile sperm fraction. On Western blot with a monoclonal antibody directed against aromatase, we have detected two bands (53 and 49 kDa) in microsome preparations from purified spermatozoa. In total protein extracts of purified spermatozoa (with and without cytoplasmic droplets), we have only found the aromatase as a 49 kDa band with a stronger intensity when cytoplasmic droplets are present. Moreover, the band seems to be weaker in immotile spermatozoa (with and without cytoplasmic droplets). Our data demonstrate the expression of aromatase both in terms of mRNA and protein in each sample of human purified spermatozoa and in addition, our results suggest that aromatase could be concerned with the acquisition of sperm motility.

[Testicular aromatase]. / L'aromatase testiculaire.

The cytochrome P450 aromatase (P450arom) is the terminal enzyme involved in the irreversible transformation of androgens into estrogens. The P450arom plays a role in development, reproduction, sexual differentiation and behaviour, but also in bone and lipid metabolisms, brain functions and diseases such as breast and testicular tumors. Besides testicular somatic cells, where the aromatase gene is expressed via promoter II and I.4, this gene is transduced in a fully active protein in rat germ cells providing evidences for an additional site of estrogen production within the male gonad of rodents (our results and these in the literature). In addition we provided evidence for the expression of P450arom in ejaculated human spermatozoa. Together with the widespread distribution of estrogen receptors (ER alpha and ER beta) in various testicular cells as well as in the other parts of the genital tract, these data suggest a physiological role for these female hormones in the regulation of spermatogenesis especially in the postmeiotic steps.

Reproductive system: aromatase and estrogens.

The cytochrome P450 aromatase (P450arom) is the terminal enzyme responsible for the formation of estrogens from androgens. In the rat testis we have immunolocalized the P450arom not only in Leydig cells but also in germ cells and especially in elongated spermatids. Related to the stage of germ cell maturation, we have shown that the level of P450arom transcripts decreases, it is much more abundant in pachytene spermatocytes (PS) than in mature germ cells whereas the aromatase activity is two- to fourfold greater in spermatozoa when compared to younger germ cell preparations. In rat germ cells, the aromatase gene expression is not only under androgen and cyclic AMP control but also subjected to cytokine (TNFalpha) and growth factor (TGFbeta) regulation. In the bank-vole testis we have evidenced a positive correlation between a fully developed spermatogenesis and a strong immunoreactivity for both P450arom and estrogen receptor (ERbeta) not only in Sertoli cells but also in PS and round spermatids (RS). Therefore, the aromatase gene expression and its translation in a fully active protein in rodent germ cells evidence an additional site for estrogen production within the testis. Our recent data showing that human ejaculated spermatozoa expressed specific transcripts for P450arom reinforced the observations reported in germ cells of other mammalian species. Together with the widespread distribution of ERs in testicular cells these data bring enlightenment on the hormonal regulation of spermatogenesis.