Hormonal and seminal evaluation of Leydig cell tumour patients before and after orchiectomy

Revisiting the gonadotropic regulation of mammalian spermatogenesis: evolving lessons during the past decade

Spermatogenesis is a multi-step process of male germ cell (Gc) division and differentiation which occurs in the seminiferous tubules of the testes under the regulation of gonadotropins - Follicle Stimulating Hormone (FSH) and Luteinising hormone (LH). It is a highly coordinated event regulated by the surrounding somatic testicular cells such as the Sertoli cells (Sc), Leydig cells (Lc), and Peritubular myoid cells (PTc). FSH targets Sc and supports the expansion and differentiation of pre-meiotic Gc, whereas, LH operates via Lc to produce Testosterone (T), the testicular androgen. T acts on all somatic cells e.g.- Lc, PTc and Sc, and promotes the blood-testis barrier (BTB) formation, completion of Gc meiosis, and spermiation. Studies with hypophysectomised or chemically ablated animal models and hypogonadal (hpg) mice supplemented with gonadotropins to genetically manipulated mouse models have revealed the selective and synergistic role(s) of hormones in regulating male fertility. We here have briefly summarized the present concept of hormonal control of spermatogenesis in rodents and primates. We also have highlighted some of the key critical questions yet to be answered in the field of male reproductive health which might have potential implications for infertility and contraceptive research in the future.

Clinical presentation, management and follow-up of 83 patients with Leydig cell tumors of the testis: a prospective case-cohort study

STUDY QUESTION

When should ‘not so rare’ Leydig cell tumors (LCTs) of the testis be suspected, diagnosed, and treated?

SUMMARY ANSWER

LCTs are more frequent than generally believed, are associated with male infertility, cryptorchidism and gynecomastia, and should be treated conservatively (in compliant patients) with active surveillance, which appears to be a safe alternative to surgical enucleation.

WHAT IS KNOWN ALREADY

Increasing referrals for testicular imaging have led to an increase in findings of LCTs. The features and natural history of these tumors remain largely unknown, as the available studies are small and heterogeneous. LCTs were previously treated aggressively and follow-up data are lacking.

STUDY DESIGN, SIZE, DURATION

A case-cohort study of consecutive patients diagnosed with LCTs over a 10-year period was prospectively enrolled from 2009 to 2018 and compared to matched cohorts of patients with seminomas or no testicular lesions screened in the same timeframe.

PARTICIPANTS/MATERIALS, SETTING, METHODS

Of the 9949 inpatients and outpatients referred for scrotal ultrasound, a total of 83 men with LCTs were included. Enrolled subjects underwent medical history and clinical examination and were asked to undergo routine blood tests, hormone investigations (FSH, LH, total testosterone, estradiol, inhibin B, sex hormone-binding globulin (SHBG), prolactin), and semen analysis. Patients who consented also underwent contrast-enhanced ultrasound, elastography, gadolinium-enhanced scrotal magnetic resonance imaging, and hCG stimulation test (5000 IU i.m.) with serum total testosterone and estradiol measured at 0, 24, 48, and 72 hours.

MAIN RESULTS AND THE ROLE OF CHANCE

In total, 83 patients diagnosed with LCTs were compared against 90 patients diagnosed with seminoma and 2683 patients without testicular lesions (NoL). LCTs were diagnosed by enucleation (48.2%), orchiectomy (13.3%), or clinical surveillance (38.5%). Testicular volume, sperm concentration, and morphology were lower (P = 0.001, P = 0.001, and P < 0.001, respectively) in patients with LCTs than in the NoL group. FSH, LH, and SHBG were higher and the testosterone/LH ratio was lower in LCTs than in the NoL group (P < 0.001). The LCT group showed higher SHBG (P = 0.018), lower sperm concentration (P = 0.029), and lower motility (P = 0.049) than the seminoma group. Risk factors for LCTs were cryptorchidism (χ² = 28.27, P < 0.001), gynecomastia (χ² = 54.22, P < 0.001), and low testicular volume (χ² = 11.13, P = 0.001). Five cases were recurrences or bilateral lesions; none developed metastases during follow-up (median, 66 months).

LIMITATIONS, REASONS FOR CAUTION

This study has some limitations. First, hCG and second-line diagnostic investigations were not available for all tumor patients. Second, ours is a referral center for infertility, thus a selection bias may have altered the baseline features of the LCT population. However, given that the comparison cohorts were also from the same center and had been managed with a similar protocol, we do not expect a significant effect.

WIDER IMPLICATIONS OF THE FINDINGS

LCTs are strongly associated with male infertility, cryptorchidism, and gynecomastia, supporting the hypothesis that testicular dysgenesis syndrome plays a role in their development. Patients with LCTs are at a greater risk of endocrine and spermatogenesis abnormalities even when the tumor is resected, and thus require long-term follow-up and prompt efforts to preserve fertility after diagnosis.

LCTs have a good oncological prognosis when recognized early, as tissue-sparing enucleation is curative and should replace orchiectomy. Conservative surgery and, in compliant patients, active surveillance through clinical and radiological follow-up are safe options, but require monitoring of testicular failure and recurrence.

STUDY FUNDING/COMPETING INTEREST(S)

The project was funded by the Ministry of University and Research Grant MIUR 2015ZTT5KB. There are no conflicts of interest.

TRIAL REGISTRATION NUMBER

ALCeP trial (ClinicalTrials.gov Identifier: NCT01206270).

Which patients with gynaecomastia require more detailed investigation?

Gynaecomastia may be due to medication, chronic liver or kidney disease, hypogonadism (primary or secondary to pituitary disease) or hyperthyroidism. Having excluded these aetiologies, it is imperative to be vigilant for underlying malignancy causing gynaecomastia. These include human chorionic gonadotrophin-secreting testicular and extratesticular tumours and oestrogen-secreting testicular tumours and feminising adrenal tumours.

The role of Ad-36 as a risk factor in males with gynecomastia

Gynecomastia is highly prevalent worldwide and Adenovirus-36 (Ad-36), recently implicated in increased adipose tissue deposition due to its affinity for adipose tissue, is a potential etiological agent in the development of obesity and therefore we hypothesized that Ad-36 may also play a role in the development of gynecomastia by possibly accompanying increased regional adiposity. To support our hypothesis, we conducted a study that included 33 adult males with gynecomastia (PG) and 15 adult males as the patient control group (HCG). Leptin and adiponectin levels were monitored using ELISA. A significant difference in Ad-36 antibody positivity was found between the groups (p<0.05). Average leptin levels were found to be higher, but average adiponectin levels were found to be lower in Ad-36 Ab(+) patient group. No Ad-36 DNA was detected in any tissue samples. In conclusion, we hypothesize that low-grade chronic inflammation, which was caused by Ad-36 infection, possibly caused an increase in circulating leptin. This in turn may have caused an increase in local or circulating estrogens and/or the estrogen/androgen ratio by stimulating the aromatase enzyme activity in adipose stromal cells and breast tissues. We suggest that gynecomastia may develop following an increase in aromatase enzyme activity, by which more oestrogen is produced and the estrogen-androgen balance disrupted. Also, regional adipose tissue enlargements may cause the excessive production of estrogens leading to gynecomastia. Adipose tissue has been recognized as a major endocrine organ in recent years. Another plausible explanation is excessive aromatization of androgens to estrogens by peripheral adipose tissue may promote gynecomastia in males. Moreover, our results suggest that there might be a relationship between Ad-36 and gynecomastia.

Endocrine control of spermatogenesis: Role of FSH and LH/ testosterone

Evaluation of testicular functions (production of sperm and androgens) is an important aspect of preclinical safety assessment and testicular toxicity is comparatively far more common than ovarian toxicity. This chapter focuses (1) on the histological sequelae of disturbed reproductive endocrinology in rat, dog and nonhuman primates and (2) provides a review of our current understanding of the roles of gonadotropins and androgens. The response of the rodent testis to endocrine disturbances is clearly different from that of dog and primates with different germ cell types and spermatogenic stages being affected initially and also that the end-stage spermatogenic involution is more pronounced in dog and primates compared to rodents. Luteinizing hormone (LH)/testosterone and follicle-stimulating hormone (FSH) are the pivotal endocrine factors controlling testicular functions. The relative importance of either hormone is somewhat different between rodents and primates. Generally, however, both LH/testosterone and FSH are necessary for quantitatively normal spermatogenesis, at least in non-seasonal species.

Management of prepubertal gynecomastia in two monozygotic twins with Peutz-Jeghers syndrome: from aromatase inhibitors to subcutaneous mastectomy

BACKGROUND

Prepubertal gynecomastia is characterized by the presence of palpable uni- or bilateral breast tissue in boys without other signs of sexual maturation. It may be the endocrine expression of rare syndromes such as Peutz-Jeghers syndrome (PJS). This study aimed to evaluate the effectiveness of anastrozole and to describe an innovative surgical approach.

METHODS

This report presents twins with PJS, bilateral prepubertal gynecomastia, and testicular multifocal calcifications. Both twins were treated with anastrozole for 2 years. After finishing treatment, both were followed before subcutaneous mastectomy was performed by the "modified" Webster technique.

RESULTS

Growth velocity decreased and gynecomastia diminished during anastrozole treatment. After discontinuation of therapy due to a sharp reduction in growth velocity, both twins showed regrowth of gynecomastia, with painful and strained breasts. A significant reduction in breast volume with glandular removal was achieved.

CONCLUSIONS

The findings of this study showed a multidisciplinary approach to prepubertal gynecomastia due to the synergy of pediatricians, radiologists, and plastic surgeons. The follow-up evaluation after the anastrozole treatment showed it to be an efficacious medical treatment, as an alternative to orchidectomy, to control the effects of circulating estrogens. Moreover, the results observed in the patients confirmed the validity and feasibility of the "modified" Webster technique in terms of aesthetic and functional results, patient satisfaction, and absence of complications.

Elevated levels of the steroidogenic factor 1 are associated with over-expression of CYP19 in an oestrogen-producing testicular Leydig cell tumour

BACKGROUND AND OBJECTIVES

Testicular Leydig cell tumours (LCTs) are rare, steroid-secreting tumours. Elevated levels of aromatase (CYP19 or CYP19A1) mRNA have been previously described in LCTs; however, little is known about the mechanism(s) causing CYP19 over-expression. We report an LCT in a 29-year-old male with elevated plasma oestradiol caused by enhanced CYP19 transcription.

DESIGN AND METHODS

First, we measured the intra-tumour expression of CYP19 and determined the use of CYP19 promoters by qPCR. Secondly, we explored CYP19 and promoter II (PII) for gene amplifications and activating mutations in PII by sequencing. Thirdly, we analysed intra-tumour expression of steroidogenic factor 1 (SF-1 (NR5A1)), liver receptor homologue-1 (LRH-1 (NR5A2)) and cyclooxygenase-2 (COX2 (PTGS2)). Finally, we analysed SF-1 for promoter mutations and gene amplifications.

RESULTS

Similar to what has been recorded in normal Leydig cells, we first found the bulk of tumour CYP19 transcripts to be PII derived, excluding promoter shift as a cause of enhanced transcription. Secondly, we excluded CYP19 and PII gene amplifications, and activating mutations in PII, as causes of elevated CYP19 mRNA. We found SF-1 mRNA to be up-regulated in the tumour, while LRH-1 and COX2 were down-regulated. The finding of elevated SF-1 levels in the tumour was confirmed by immunohistochemistry. The elevated level of SF-1 was not due to promoter mutations or amplifications of the SF-1 gene.

CONCLUSIONS

Our results strongly suggest that the elevated levels of SF-1 have induced PII-regulated CYP19 transcription in this tumour. These findings are of relevance to the understanding of CYP19 up-regulation in general, which may occur in several tissues, including breast cancer.

Effects of endogenous FSH on normal human spermatogenesis in adults

Unilateral orchiectomy (UO) in adult bonnet monkeys and boars elicits a compensatory increase in size and sperm production of the remaining testis. The objective of this study was to investigate whether a similar effect is evident also in humans. We prospectively studied 50 patients from October 2003 to December 2005 who underwent UO for seminomatous tumour, with sperm concentration >20 × 10(6) /mL or total sperm count >40 × 10(6) at diagnosis and without elevation of serum tumour markers. Patients were followed-up with surveillance and they were studied at the time of diagnosis of testicular cancer (T(-1) ), 1 month after unilateral orchiectomy (T(0) ) and yearly for 3 years (T(1) , T(2) , T(3) ) with semen analysis, measurement of plasma levels of luteinizing hormone (LH), follicle-stimulating hormone (FSH), inhibin B, total testosterone, and oestradiol and ultrasonographic scanning of the remaining testis. A decline in circulating inhibin B and an increase in FSH levels were evident 1 month after UO. The elevation of FSH was maintained up to 3 years and was associated with a significant increase in testicular volume of 19 and 30%, 2 and 3 years after UO respectively. Although patients had normozoospermia at the time of diagnosis of testicular cancer, they showed a statistically significant increase in total sperm count at T(2) and T(3) with respect to T(-1) and T(0.) In conclusion, we showed that in humans, the testes are not normally operating at their maximal potential in terms of spermatogenesis. Therefore, in physiological situations, FSH secretion is insufficient to stimulate spermatogenesis to its ceiling. A sustained endogenous increase in FSH secretion might drive human testes towards their maximal function.

Sirolimus-associated infertility: case report and literature review of possible mechanisms

The mammalian-target-of-rapamycin/mTOR-inhibitor sirolimus as a component of the immunosuppressive strategy after solid organ transplantation is effective at preventing allograft rejection. However, recent reports indicate that sirolimus is associated with altered sex hormone levels and impaired sperm quality parameters. Herein, we report on a case of sirolimus-associated infertility in a young male heart-lung transplant recipient and provide a detailed synopsis of potential mechanisms by which sirolimus may negatively influence spermatogenesis. Testicular immunohistochemistry, the course of sex hormone and sperm quality parameters of our patient support the hypothesis that mTOR might act as an important key regulator in the reproductive system. Fortunately, due to withdrawal of sirolimus as part of the maintenance, immunosuppression improved sperm quality and sex hormone parameters could be observed. Recently, these improvements even resulted in a spontaneous pregnancy of the patient's wife more than 1 year after the drug was withdrawn. In our view, oligospermia as a possible and at least partly reversible side-effect of mTOR inhibitors has to be taken into consideration, particularly, when administrated to young male patients.

Detection of aromatase and estrogen receptors (ERalpha, ERbeta1, ERbeta2) in human Leydig cell tumor

A Leydig cell tumor is a rare neoplasm, deriving from the interstitial cells, whose pathogenesis has not been still defined. Leydig cells of normal adult testis are known as physiological targets for estrogens. However, some studies on transgenic rodents suggest a role of estrogens in the development of Leydig cell hyperplasia and Leydig cell tumor. Therefore, with the aim to evaluate a possible link between estrogens and testicular tumorigenesis, this study investigated the expression of aromatase and estrogen receptors (ERalpha, ERbeta(1), ERbeta(2)) in testes from two patients with Leydig cell tumor. A strong immunoreactivity for aromatase, ERbeta(1), and ERbeta(2), together with a detectable ERalpha immunostaining, was revealed in tumoral tissues. These findings were confirmed by western blot analysis of tumor extracts detecting a 55 kDa P450arom, a 67 kDa ERalpha band, a 59 kDa ERbeta(1) band, and a 53 kDa ERbeta(2) band. The pattern of ER expression in neoplastic cells appears different from that of control Leydig cells exhibiting only ERbeta(1) and ERbeta(2) isoforms. The authors hypothesize how the high estrogen production could play a role in the neoplastic transformation of Leydig cells, while the exclusive presence of ERalpha in tumoral cells could amplify estradiol-17beta signaling contributing to the tumor cell growth and progression.

[Fertility before and after treatment of patients with Leydig cell tumour]

OBJECTIVE

To determine the long-term fertility status of patients treated for Leydig cell testicular tumour.

MATERIAL AND METHODS

[corrected] In a series of 506 testicular tumours observed in the Midi-Pyrenées region between 1980 and 1998, 17 were Leydig cell tumours (3.3%) and constituted the study population. Andrological records were available for all patients. Information concerning fertility before and after orchidectomy was obtained by validated letter questionnaire. All patients completed the questionnaire.

RESULTS

The mean follow-up was 84 months (range: 36-173). The mean age at diagnosis was 32 years (range: 24-51). The presenting symptom was gynaecomastia in 9 cases (53%), enlarged testis in 4 cases (24%), scrotal pain in 2 cases (12%) and male infertility in 2 cases (12%). Before onset of their disease, 13/17 (76.5%) patients had tried to have a child and 6 (46.2%) had successfully fathered a child. After treatment of their Leydig cell tumour, 10/17 (58.8%) had tried to have a child and 7 (70%) were successful.

CONCLUSION

The population of men with Leydig cell tumour of the testis is a population with decreased fertility before treatment of the tumour. Resection of the tumour improves this situation, but 3 out of 10 patients remain infertile, indicating the need for semen storage measures in this population.

Long-term followup after elective testis sparing surgery for Leydig cell tumors: a single center experience

PURPOSE

Although most Leydig cell tumors are benign, radical orchiectomy is currently considered the standard therapy. We retrospectively analyzed the long-term followup of a series of patients with Leydig cell tumors electively treated with testis sparing surgery.

MATERIALS AND METHODS

Between November 1990 and December 2005, 17 consecutive patients with Leydig cell tumors underwent testis sparing surgery on an elective basis. Preoperative evaluation included physical examination, serum markers for germ cell tumors, scrotal ultrasound, abdominal computerized tomography, chest x-ray and hormonal profile if clinically required. Testis sparing surgery was performed via an inguinal approach with spermatic cord clamping. Frozen section examination was performed in all cases, revealing Leydig cell tumors. Followup consisted of physical examination, scrotal ultrasound, abdominal computerized tomography and chest x-ray every 6 months for the first 2 years, then annually. Tumor recurrence and survival were evaluated.

RESULTS

Mean patient age was 41.6 years (range 28 to 55). Medical referral was prompted by symptoms/signs such as infertility, gynecomastia or self-palpation of scrotal mass in 11 patients (64.7%), while in the remaining 6 (35.3%) the lesions were incidentally diagnosed. Hormonal profile was performed in 9 patients, showing abnormalities in all. Mean tumor diameter was 13.4 mm (range 5 to 31). Definitive pathological examination confirmed benign Leydig cell tumor in all cases. After a mean followup of 91 months (range 12 to 192), neither local recurrence nor distant metastases have been detected and all patients are alive without evidence of disease.

CONCLUSIONS

In patients with Leydig cell tumors testis sparing surgery with frozen section examination provides an excellent long-term oncological outcome.

Non-tumoural parenchyma in Leydig cell tumours: pathogenetic considerations

Little is known about the pathogenesis of Leydig cell tumours (LCTs) of the testis. The observation of several associated dysgenetic features in the non-tumoural parenchyma and in the contralateral testes of men with testicular germ cell neoplasms has served as the basis to propose that there may be a common mechanism for different male reproductive disorders. However, the possible relationship between LCTs and other testicular lesions has not been explored. Here we describe the presence of primary lesions in the non-tumoural parenchyma of testes with LCT, from which we try to establish possible pathogenetic associations. We studied the non-tumoural parenchyma adjacent to 16 LCT specimens. Parameters as Leydig cell hyperplasia (LCHY), qualitative evaluation of the germinal epithelium and spermatogenesis, the presence of Sertoli cell-only tubules (SCOT), and the Sertoli cell nuclear morphology were consistently assessed in all cases. SCOT associated with Sertoli cell dysgenetic morphology was the most frequent finding, present in 50% of the cases. Another interesting finding was the presence of LCHY in four cases (25%). Abnormal spermatogenesis was found in 81.25% of the cases, and it consisted of lesions of the adluminal or basal compartments of seminiferous tubules. The occurrence of either dysgenetic Sertoli cells or LCHY adjacent to LCTs could represent primary anomalies, resulting from a common insult also involved in tumourigenesis. The abnormalities in spermatogenesis observed here are likely to represent consequences of either tumour compression or abnormal hormonal production. The significance of these associations merits further investigation regarding a common pathogenesis.

Leydig cell tumour-induced bilateral gynaecomastia in a young man: endocrine abnormalities

Among the various causes of gynaecomastia, testicular malignancies are an uncommon, life-threatening condition, which require prompt treatment. The case of a 26-year-old healthy man is described, who reported a 6-month painful bilateral gynaecomastia associated with secondary hypogonadism. Normal circulating 17beta-oestradiol (E2) levels showed an enhanced response to human chorionic gonadotrophin (hCG) testing, which led to a reduced testosterone (T)/E2 ratio. Both clinical and hormonal findings normalized following surgical exeresis of a left testicular mass, which proved to be a Leydig cell tumour (LCT) at histology. This report underlines the importance of ultrasonographic evaluation of the testes, whenever breast enlargement occurs in a healthy man, despite unremarkable findings on testicular examination. In addition, our case demonstrates that normal unstimulated circulating E2 levels do not allow the presence of a stromal testicular tumour to be ruled out and that the response of restored T levels to hCG testing can remain blunted up to 1 year after surgery. Finally, we claim that T/E2 ratio may be a useful tool in evaluating derangement of the endocrine milieu secondary to LCT.

Estrogens and health in males

Estrogen receptor concentrations are higher in the male reproductive tract than in other organs. Brain structure, neuronal organization and behavioral sex differences result from brain conversion of testosterone into estradiol within the brain. Estrogens modulate hormonal secretion at pituitary level and immune function at thymus level. Estrogens promote vasodilatatory and protective effects on the cardiovascular system by acting on the vascular smooth muscle and endothelium. Adult men with mutations in genes for estrogen receptor or aromatase are affected by osteopenia and tall stature, open epiphysis, which is corrected by estrogen treatment. Over the past few years there has seen a decline in sperm concentration, which has been attributed to exposure of fetal testes to estrogens. Many substances have estrogen-like properties and inhibit the action of estradiol or testosterone action. In conclusion, estrogens play a pivotal role in men also. In particular, taking in account their prevalent origin from testosterone aromatization at tissue and peripheral levels the presence and the distribution of the two receptors (ERalpha and ERbeta) are responsible for different responses in physiological and pathological conditions.