Male fertility during and after immune checkpoint inhibitor therapy: A cross-sectional pilot study.

BACKGROUND: Immune checkpoint inhibitors (ICIs) are widely used and may induce long-term survival in various types of cancer. Yet, there is scarce evidence on potential effects on patient fertility and the necessity of cryopreservation before treatment onset. The aim of our study was to assess the prevalence of male infertility after initiation of ICI treatment. METHODS: This is a monocenter, cross-sectional pilot study. Fertility was investigated by spermiogram, analysis of sexual hormones and questionnaires on sexual function and sexual activity. Male patients under the age of 60 years previously or currently treated with ICI for cutaneous malignancies or uveal melanoma were included. RESULTS: Twenty-five patients were included, with a median age of 49 years. Eighteen of 22 (82%) available spermiograms showed no pathologies, all patients reported a normal sexual function and sexual activity. Of four patients with pathological spermiogram, three patients were diagnosed with azoospermia and one with oligoasthenoteratozoospermia. Three patients had significant confounding factors (previous inguinal radiotherapy, chemotherapy and chronic alcohol abuse, and bacterial orchitis). One patient with normal spermiogram before ICI treatment presented 1 year after initiation with azoospermia, showing an asymptomatic, inflammatory infiltrate with predominantly neutrophil granulocytes, macrophages and T-lymphocytes in the ejaculate. Infectious causes were ruled out; andrological examination was unremarkable. A second case with reduced sperm counts during treatment may be ICI-induced also. CONCLUSIONS: Most patients had no restrictions in fertility, yet an inflammatory loss of spermatogenesis seems possible. Cryopreservation should be discussed with all patients with potential future desire for children before treatment.

Evaluation of immune status in testis and macrophage polarization associated with testicular damage in patients with nonobstructive azoospermia.

OBJECTIVE: Immune cells residing in the testicular interstitial space form the immunological microenvironment of the testis. They are assumed to play a role in maintaining testicular homeostasis and immune privilege. However, the immune status and related cell polarization in patients with nonobstructive azoospermia (NOA) remains poorly characterized. System evaluation of the testis immunological microenvironment in NOA patients may help to reveal the mechanisms of idiopathic azoospermia. STUDY DESIGN: The gene expression patterns of immune cells in normal human testes were systematically analyzed by single-cell RNA sequencing (scRNA-seq) and preliminarily verification by the human protein atlas (HPA) online database. The immune cell infiltration profiles and immune status of patients with NOA was analyzed by single-sample gene set enrichment analysis (ssGSEA) and gene set variation analysis (GSVA) based on four independent public microarray datasets (GSE45885, GSE45887, GSE9210, and GSE145467), obtained from Gene Expression Omnibus (GEO) online database. The relationship between immune cells and spermatogenesis score was further analyzed by Spearman correlation analysis. Finally, immunohistochemistry (IHC) staining was performed to identify the main immune cell types and their polarization status in patients with NOA. RESULTS: Both scRNA-seq and HPA analysis showed that testicular macrophages represent the largest pool of immune cells in the normal testis, and also exhibit an attenuated inflammatory response by expressing high levels of tolerance proteins (CD163, IL-10, TGF-ß, and VEGF) and reduced expression of TLR signaling pathway-related genes. Correlation analysis revealed that the testicular immune score and macrophages including M1 and M2 macrophages were significantly negatively correlated with spermatogenesis score in patients with NOA (GSE45885 and GSE45887). In addition, the number of M1 and M2 macrophages was significantly higher in patients with NOA (GSE9210 and GSE145467) than in normal testis. GSVA analysis indicated that the immunological microenvironment in NOA tissues was manifested by activated immune system and pro-inflammatory status. IHC staining results showed that the number of M1 and M2 macrophages was significantly higher in NOA tissues than in normal testis and negatively correlated with the Johnson score. CONCLUSION: Testicular macrophage polarization may play a vital role in NOA development and is a promising potential therapeutic target.

External and Genetic Conditions Determining Male Infertility.

We explain environmental and genetic factors determining male genetic conditions and infertility and evaluate the significance of environmental stressors in shaping defensive responses, which is used in the diagnosis and treatment of male infertility. This is done through the impact of external and internal stressors and their instability on sperm parameters and their contribution to immunogenetic disorders and hazardous DNA mutations. As chemical compounds and physical factors play an important role in the induction of immunogenetic disorders and affect the activity of enzymatic and non-enzymatic responses, causing oxidative stress, and leading to apoptosis, they downgrade semen quality. These factors are closely connected with male reproductive potential since genetic polymorphisms and mutations in chromosomes 7, X, and Y critically impact on spermatogenesis. Microdeletions in the Azoospermic Factor AZF region directly cause defective sperm production. Among mutations in chromosome 7, impairments in the cystic fibrosis transmembrane conductance regulator CFTR gene are destructive for fertility in cystic fibrosis, when spermatic ducts undergo complete obstruction. This problem was not previously analyzed in such a form. Alongside karyotype abnormalities AZF microdeletions are the reason of spermatogenic failure. Amongst AZF genes, the deleted in azoospermia DAZ gene family is reported as most frequently deleted AZF. Screening of AZF microdeletions is useful in explaining idiopathic cases of male infertility as well as in genetic consulting prior to assisted reproduction. Based on the current state of research we answer the following questions: (1) How do environmental stressors lessen the quality of sperm and reduce male fertility; (2) which chemical elements induce oxidative stress and immunogenetic changes in the male reproductive system; (3) how do polymorphisms correlate with changes in reproductive potential and pro-antioxidative mechanisms as markers of pathophysiological disturbances of the male reproductive condition; (4) how do environmental stressors of immunogenetic disorders accompany male infertility and responses; and (5) what is the distribution and prevalence of environmental and genetic risk factors.

A novel protein biochip screening serum anti-sperm antibody expression and natural pregnancy rate in a follow-up study in Chinese infertility.

Production of anti-sperm antibody (ASA) often suffers from autoimmune reaction against sperms in human infertility. The antibodies are measured in both blood and seminal plasma of males. Here, we reported a simple protein biochip methodology that takes advantage of a functionalized self-assembled monolayer modified by N-hydroxysuccinimide (NHS) and enables identification of anti-sperm antibody in Chinese male infertility. To validate this biochip platform, we immobilized purified sperm protein on the biochip surface and tested a variety of parameters in quality controls for the protein assay, respectively. Then, we analyzed serum samples from 368 patients with infertility and 116 healthy donors by means of this biochip simultaneously. We found that positive rate of serum ASA was 20.92% (77/368) in the cases and 1.72% (2/116) in the controls, respectively. Furthermore, we further corroborated the biochip assay in comparison with ELISA method. We found that both methods were compatible for the detection of serum ASA in the patients. In addition, a follow-up study for natural conception in ASA-positive and ASA-negative patients was conducted. The result showed a significant correlation between serum ASA expression and natural pregnancy rate 6.5% in ASA-positive patients while 18.9% in ASA-negative patients, indicating the potential roles of ASA in naturally reproductive processes.

High prevalence of urogenital infection/inflammation in patients with azoospermia does not impede surgical sperm retrieval.

Considering infection/inflammation to be an important risk factor in male infertility, the aim of this study was to make a comprehensive evaluation of the prevalence of urogenital tract infection/inflammation and its potential impact on sperm retrieval in azoospermic patients. In this prospective study, 71 patients with azoospermia were subjected to an extensive andrological workup including comprehensive microbiological diagnostics (2-glass test, semen, testicular swab and testicular tissue analysis) and testicular biopsy/testicular sperm extraction (TESE). Medical history suggested urogenital tract infection/inflammation in 7% of patients, 11% harboured STIs, 14% showed significant bacteriospermia, 15% had seminal inflammation, 17% fulfilled the MAGI definition, and 27% had relevant pathogens. At the testicular level, 1 patient had a swab positive for bacteria, no viruses were detected, tissue specimens never indicated pathogens, whereas histopathology revealed focal immune cell infiltrates in 23% of samples. Testicular sperm retrieval rate was 100% in obstructive and 46% in nonobstructive azoospermia. None of the infection/inflammation-related variables was associated with the success of sperm retrieval or inflammatory lesions in the testis. The high prevalence of urogenital infection/inflammation among azoospermic men underpins their role as significant aetiologic factors in male infertility. However, this observation does not refer to the chances of sperm retrieval at the time of surgery/TESE.

Germ cell apoptosis and survival in testicular inflammation.

Male infertility is due to genetics, hormonal or environmental causes, or is idiopathic. Azoospermia is linked to local testicular microenvironment deregulation, with inflammatory cells present in the 15% of testicular biopsies of infertile patients. As widely reported, spermatogenesis and steroidogenesis are controlled by local immunoregulatory agents produced by immune and nonimmune cells. Moreover IL-6R, TNFR1, Fas and IL-1R are expressed on germ cells, indicating a direct action of pro-inflammatory agents on these cells. Beyond the known function of cytokines and nitric oxide on testicular function at the stable levels present in the normal testis, this review focalises on the effect of pro-inflammatory factors on germ cell survival and death when inflammatory conditions are established in the testis. As no cure for male infertility has been found up to the present, intracytoplasmic sperm injection is the therapeutic option for azoospermic patients who wish to achieve genetic parenthood. Therapies with antioxidant and anti-inflammatory agents in experimental models of testicular damage have been successful. However, clinical implementation is uncertain in cases with a prolonged inflammatory state of the testis. Therapies offering multiple approaches to treat infertility by restoring the spermatogonial stem cell niche and protecting germ cells from apoptosis should be considered.

Autoantibodies against protein disulfide isomerase ER-60 are a diagnostic marker for low-grade testicular inflammation.

STUDY QUESTION: Is there a non-invasive biomarker for the diagnosis of testicular inflammatory lesions? SUMMARY ANSWER: In sera from infertile azoospermic patients with histologically confirmed low-grade testicular inflammation, significantly elevated titers of autoantibodies against disulfide isomerase family A, member 3 (ER-60) were found. WHAT IS KNOWN ALREADY: Infection and inflammation of the genital tract are supposed to be responsible for up to 15% of cases among infertile males. However, specific seminal or serological markers are not available to assess subacute or chronic inflammatory conditions in the testis. STUDY DESIGN, SIZE, DURATION: This study consisted of the identification of autoantibodies for testicular antigens in sera of patients with low-grade testicular inflammation, validation of candidates, development of an ELISA for the most promising target antigen and measurement of autoantibodies titers in healthy normozoospermic men (n = 20); male blood donors (n = 14); men with impaired semen quality without (n = 14) or with (n = 26) symptoms of genital tract infection/inflammation; azoospermic men with histologically confirmed testicular inflammatory lesions (n = 16); men after pharmacotherapy of genital tract infection/inflammation (n = 15) and men with acute epididymo-orchitis (n = 30). PARTICIPANTS/MATERIALS, SETTING, METHODS: Proteins in lysates of normal testicular tissue were separated by high-resolution 2D gel electrophoresis and probed with sera of 13 patients with histologically confirmed chronic testicular inflammation. There were 14 proteins that immunoreacted with a majority of these sera and could be identified by mass spectrometry. Of these 14 proteins, disulfide isomerase family A, member 3 (ER-60), transferrin and chaperonin containing TCP1 complex, subunit 5 (epsilon) (CCT5) were considered as specific. Since ER-60 reacted with 92% of patient sera, an ER-60-autoantibody ELISA was developed. MAIN RESULTS AND THE ROLE OF CHANCE: The newly established ELISA detected significantly elevated titers of autoantibodies against ER-60 in the sera from infertile men with histologically confirmed chronic testicular inflammation (median 8.6; P < 0.01) compared with the control groups. Moreover, elevated levels of anti-ER-60 titers were detected in patients suffering from acute epididymo-orchitis (median 3.3; P < 0.05) as compared with healthy normozoospermic men (median 2.13; P < 0.001), male blood donors with unknown fertility status (median 2.72; P < 0.01), patients with impaired semen quality but no infection/inflammation (median 2.59; P < 0.001) and patients with symptoms of genital tract infections and/or inflammation (median 2.18; P < 0.001). Significantly lower levels of anti-ER-60 antibodies were measured in sera from patients after application of anti-inflammatory pharmacotherapy (median 1.9; P < 0.01) compared with those with histologically confirmed chronic testicular inflammation. The cut-off value of the assay was set to 6.6 U/ml based on a calculated sensitivity of 100% and a specificity of 81.2%. LIMITATIONS, REASONS FOR CAUTION: The results obtained in this study showed statistically significant elevated titers of ER-60 antibodies in sera from patients with histologically confirmed testicular inflammatory lesions and from a few patients with acute epididymo-orchitis. However, the number of serum samples tested was limited. Severe testicular damage seen in azoospermic patients could represent a bias towards ER-60 reactivity, while the assay does not allow for different etiologies of the lesions to be distinguished. Due to ethical reasons, the prevalence of testicular inflammatory lesions among controls and non-azoospermic men cannot be studied at the histological level. WIDER IMPLICATIONS OF THE FINDINGS: Measurement of ER-60 autoantibody titers in serum could be a novel non-invasive marker for the diagnosis of asymptomatic testicular inflammation causing male fertility disturbances. STUDY FUNDING/COMPETING INTERESTS: This study was supported by a grant of the Deutsche Forschungsgemeinschaft (ME 1323/4-4) and the Translational Science Fund (Wirtschafts-und Strukturbank Hessen-WI Bank). M.F., A.P., W.W., H.-C.S. and A.M. are supported by the LOEWE focus group 'MIBIE' (Male infertility during infection and inflammation). The ER-60 ELISA is protected by a patent to the Justus-Liebig-University of Giessen with A.M. and M.F. as inventors (patent no. DE 10 2008 053 503). T.Z. as employee of the DRG Company was responsible for the ELISA development.

Presence of IL-18 in testicular tissue of fertile and infertile men.

Recently, IL-18 was identified in human testes. Moreover, an inverse correlation was found between the levels of IL-18 and the number and motility of spermatozoa. We examined the presence of IL-18 protein in normal and impaired spermatogenesis. Testicular tissue specimens were taken from 25 nonobstructive azoospermic patients undergoing testicular sperm extraction and from autopsies of three healthy controls. The presence of IL-18 in human testicular cells was examined by immunohistochemical staining of paraffin-embedded sections, using a specific antibody for human IL-18. In testicular tissue of healthy controls as well as in study cases, presence of IL-18 was identified in somatic, mitotic, meiotic and post-meiotic cells in correlation with their presence. In all patients, Leydig cells were less intensively stained. Mitotic cells were immunostained in the control group and less intensively in hypospermatogenesis and maturation arrest subgroups. Primary spermatocytes were in general most efficiently stained. The expression of IL-18 mRNA (as examined by real-time PCR analysis) showed significantly lower expression in testicular tissues with impaired spermatogenesis when compared to normal tissues. We report the first study demonstrating the presence of IL-18 in human testicular tissue at the protein level. The presence of this cytokine in somatic as well as in different types of germ cells may suggest its involvement in the regulation of the spermatogenic process and steroidogenesis under physiological and pathological conditions.

Immunodeviation towards a Th17 immune response associated with testicular damage in azoospermic men.

Infection and inflammation of the male reproductive tract are thought to be a primary aetiological factor of male infertility. Furthermore, several studies suggest that T lymphocytes are critically involved as regulator in the pathogenesis of male infertility under these conditions and are thought to induce autoimmune orchitis. In this context of autoimmunity the recently described T helper (Th) 17 subset has been suggested to play an essential role so that the aim of this study was to investigate the expression and characteristics of Th17 cells as well as the presence of Th17 inducing antigen presenting cells (APCs) in azoospermic testis with chronic inflammation (ATCI) compared with normal spermatogenesis. By stereological analysis, we detected base line expression of Th17 cells in Con. However, increased expression intensity and number of Th17 cells and their cytokines [interleukin (IL)-17A, IL-21, IL-22] and a decreased level of Foxp3(+) and interferon-γ(+) cells could be demonstrated in ATCI. Moreover, along with these data, increased numbers of Th17-inducing IL-23 producing CD11c(+) and CD68(+) APCs could be detected in ATCI. From these data, a picture emerges that Th17 cells orchestrated by IL-23 producing APCs are critically involved in chronic inflammation in ATCI.

The role of cytokine expression in different subgroups of subfertile men.

PROBLEM: The aim of this study was to evaluate the levels of seminal plasma cytokines interleukin 6 (IL-6), interleukin 8 (IL-8), interleukin 10 (IL-10), interleukin 11 (IL-11), interleukin 12 (IL-12), tumour necrosis factor alpha (TNF-alpha) and interferon gamma (IFN-gamma) in male subfertility. METHOD OF STUDY: A total of 73 male partners of an infertile couple attending a regional andrology unit were recruited into this prospective study and subdivided into the various groups based on semen analysis. Concentrations of cytokines such as IL-6, IL-8, IL-10, IL-11, IL-12, TNF-alpha and IFN-gamma in the seminal plasma were determined using enzyme linked immunosorbent assay (ELISA). RESULTS: Significant higher concentrations (P < 0.05) of IL-6 in the mild and severe oligospermic group, IL-8 and IL-10 in the asthenospermic group and IL-6, IL-10, TNF-alpha and IFN-gamma in the obstructed azoospermic group were determined. IL-10 concentrations correlated significantly with other cytokines in the obstructed azoospermic group and the asthenospermic group. CONCLUSION: Our study confirms that cytokines rarely act in isolation, but rather in a network of other cytokines and may affect sperm function directly or indirectly. The presence of increased levels of cytokines in the obstructed azoospermic group suggests that the cytokines may not originate from the testis.