DIFFERENCES IN THE ANTIGEN PATTERN RECOGNIZED BY ANTISPERM ANTIBODIES IN PATIENTS WITH INFERTILITY AND VASECTOMY

Characterization of a spontaneously occurring self-reactive antibody against sperm in mice

We previously established a spontaneously occurring monoclonal antibody, namely Ts3, that was reactive to sperm from an aged male mouse. The present study investigated the characteristic properties and reproductive functions of Ts3. Immunofluorescent staining revealed that Ts3 reacted to epididymal sperm, and the corresponding antigen was located in the midpiece and principal piece. Immunohistochemistry revealed positive reactions in the germ cells and Sertoli cells in the testis, the epithelial cells in the epididymis and vas deferens. Through western blotting with two-dimensional electrophoresis, we demonstrated that Ts3 reacted with four spots, which were around Mr ∼25,000-60,000 and pI 5-6. MALDI-TOF/TOF mass spectrometry identified outer dense fiber 2 (ODF2) as a candidate for Ts3. ODF2 is a cytoskeletal structural component located in the midpiece and principal piece of the flagella of mammalian sperm. This was validated with the result of immunofluorescent staining, suggesting that ODF2 was the main target antigen for Ts3. Sperm immobilization test showed that Ts3 possessed sperm immobilizing activity. Furthermore, Ts3 impaired early embryo development but not in vitro fertilization. These results suggest that ODF2 plays an important role in both sperm function and early embryonic development.

Immune infertility in men

Male factors are implicated as the cause of roughly half of cases of infertility, and the presence of antisperm antibodies (ASA) may be responsible for some of these. Their presence is associated with a reduction in natural conception and live birth and impacts the success of assisted reproductive technologies. Interpretation of the data regarding ASAs and fertility is complicated by a lack of standardization in testing methodology and test thresholds and a lack of data on their prevalence in the healthy fertile population. Although their pathogenesis remains elusive, and many cases are idiopathic, a disruption in the immunologic blood-testis barrier (BTB) appears to contribute to the formation of ASA. As delineation of the specific antigen targets of ASA advances, it has been recognized that they may affect almost all aspects of sperm function, and ASA against different targets likely have specific mechanisms of impairing fertility. Intracytoplasmic sperm injection (ICSI) appears to be the most reliable method by which to overcome fertility impairment due to ASA, achieving similar outcomes to ASA-negative patients with regard to fertilization rates, embryonic development, clinical pregnancy rates, and live birth rates. The lack of consistency in testing for and reporting ASA remains a substantial barrier to achieving clarity in describing their role in infertility and the optimal management approach, and future research should use a unified approach to the detection and description of ASA. Determination of the specific antigens targeted by ASA, and their function and clinical relevance, would contribute to improving the understanding of ASA-mediated impacts on fertility and tailoring treatment appropriately to achieve the best outcomes for patients.

Pathogenesis of Autoimmune Male Infertility: Juxtacrine, Paracrine, and Endocrine Dysregulation

According to global data, there is a male reproductive potential decrease. Pathogenesis of male infertility is often associated with autoimmunity towards sperm antigens essential for fertilization. Antisperm autoantibodies (ASAs) have immobilizing and cytotoxic properties, impairing spermatogenesis, causing sperm agglutination, altering spermatozoa motility and acrosomal reaction, and thus preventing ovum fertilization. Infertility diagnosis requires a mandatory check for the ASAs. The concept of the blood-testis barrier is currently re-formulated, with an emphasis on informational paracrine and juxtacrine effects, rather than simple anatomical separation. The etiology of male infertility includes both autoimmune and non-autoimmune diseases but equally develops through autoimmune links of pathogenesis. Varicocele commonly leads to infertility due to testicular ischemic damage, venous stasis, local hyperthermia, and hypoandrogenism. However, varicocelectomy can alter the blood-testis barrier, facilitating ASAs production as well. There are contradictory data on the role of ASAs in the pathogenesis of varicocele-related infertility. Infection and inflammation both promote ASAs production due to "danger concept" mechanisms and because of antigen mimicry. Systemic pro-autoimmune influences like hyperprolactinemia, hypoandrogenism, and hypothyroidism also facilitate ASAs production. The diagnostic value of various ASAs has not yet been clearly attributed, and their cut-levels have not been determined in sera nor in ejaculate. The assessment of the autoimmunity role in the pathogenesis of male infertility is ambiguous, so the purpose of this review is to show the effects of ASAs on the pathogenesis of male infertility.

Vasectomy reversal in humans

Vasectomy is the most common urological procedure in the United States with 18% of men having a vasectomy before age 45. A significant proportion of vasectomized men ultimately request vasectomy reversal, usually due to divorce and/or remarriage. Vasectomy reversal is a commonly practiced but technically demanding microsurgical procedure that restores patency of the male excurrent ductal system in 80–99.5% of cases and enables unassisted pregnancy in 40–80% of couples. The discrepancy between the anastomotic patency rates and clinical pregnancy rates following vasectomy reversal suggests that some of the biological consequences of vasectomy may not be entirely reversible in all men. Herein we review what is known about the biological sequelae of vasectomy and vasectomy reversal in humans, and provide a succinct overview of the evaluation and surgical management of men desiring vasectomy reversal.

Long-term study of vasectomy in Macaca radiata--histological and ultrasonographic analysis of testis and duct system

This study was aimed to investigate the long-term effect of vasectomy using the bonnet monkey (Macaca radiata) as a primate animal model. Animals weighing around 6 to 8 kg were randomly chosen for bilateral, unilateral vasectomy and sham-control. The postoperative periods of six months and two years were considered as short and long-term, respectively. Sperm were collected and subjected to analysis before euthanasia. The testes and epididymides were excised from euthanized animals then embedded in paraffin. Normal histological changes were observed in sham-operated animals and short-term contralateral testes. In contrast, marked alterations were observed in the testes and epididymides of both short and long-term groups. Seminiferous epithelium was thinned out showing marked depletion of germ cells in long-term; only a thin layer of Sertoli cells, spermatogonia, and fewer spermatocytes were seen. Exfoliation of germ cells and the occurrence of multinucleated giant cells were common features in these tubules. The epididymal tubular lumens were greatly dilated with accumulated spermatozoa in short and long-term animals; significant defects were observed in the epithelium of the long-term animals. Microscopic spermatic granulomas were noticed in epididymides and the vas deferens. Large granulomas were seen in long-term vasectomized monkeys, frequently compressing the surrounding structures. These granulomas could be visualized in ultrasound, however, only at the late stage of its occurrence. Sperm collected from the unilateral vasectomized animals showed a poor motility score in the capillary mucus penetration test (CMPT). Results indicate that the changes observed after vasectomy might be due to pressure initially, whereas in the long-term the damage was supplemented by autoimmune attack. With immunoglobulin (IgG) deposition in contra-lateral unoperated testis of unilateral vasectomized animals it also showed degenerative changes and a concomitant drop in sperm quality. Although, granulomatous reactions were observed in the epididymis and vas deferens but testes were spared from such reactions even in the long-term.

Value of serum antisperm antibodies in diagnosing obstructive azoospermia

PURPOSE

The requisite presence of active spermatogenesis for antisperm antibody production may be useful in identifying obstructive azoospermia. The diagnostic performance of serum antisperm antibody was evaluated as a test for obstructive azoospermia.

MATERIALS AND METHODS

A total of 484 men with male infertility who had undergone antisperm antibody testing were evaluated. Demographic data, patient history, and followup were recorded. Obstruction was confirmed by surgical exploration. Sensitivity, specificity, positive and negative predictive values, and positive and negative likelihood ratios were calculated to quantify diagnostic performance. ROC curves were calculated and compared.

RESULTS

Of 484 men 272 possessed documented obstruction of the vas or epididymis and 212 had documented infertility without azoospermia. The obstructed group had significantly increased antisperm antibody levels compared to the nonobstructed group. IgG, IgA, and IgM were analyzed as diagnostic tests for obstruction. The AUC for IgG, IgA and IgM ROC curves was 0.92, 0.85 and 0.67, respectively. The AUC for serum IgG against sperm tails was 0.92, 0.87 against sperm heads and 0.79 against sperm midpieces. IgG demonstrated the highest sensitivity (85%) with a specificity of 97% (chi-square test p <0.01). IgA possessed the highest specificity (99%), positive predictive value (99%) and positive likelihood ratio (70.0).

CONCLUSIONS

The presence of serum antisperm antibody was highly accurate in predicting obstructive azoospermia, particularly after vasectomy. It can obviate the need for testis biopsy, the current but more invasive and costly gold standard of detection. This allows the surgeon to proceed directly to surgical reconstruction or sperm retrieval after a simple blood test.

Intrauterine insemination and male subfertility

In this article we define male subfertility, review clinical indications for the use of intrauterine insemination, evaluate insemination preparation and administration technique, and ultimately advocate for its use as a first-line therapy in the treatment of infertile couples with male subfertility.

Organ-sparing surgery does not lead to greater antisperm antibody levels than orchidectomy

OBJECTIVE

To assess a possible development of antisperm antibodies (ASA), present in a high percentage of infertile patients, after organ-sparing surgery for small testicular tumours, to identify any additional immunogenic effect of this procedure compared with standard orchidectomy.

PATIENTS AND METHODS

Samples of sera were assessed from 54 men who had had surgery between 2000 and 2005 for testicular tumour; the men were divided into two groups, i.e. group A (23) had had organ-sparing tumour resection and group B (31) had had inguinal orchidectomy. Other possible causes of ASA besides testicular tumour were excluded in all patients. The blood samples were obtained during follow-up visits and the circulating ASA in serum determined using an enzyme-linked immunosorbent assay.

RESULTS

The mean (range) tumour diameter was statistically significantly greater (P < 0.03) in group B, at 33.6 (2-130) mm, than in group A, at 12 (2-30) mm. There were significantly more stromal tumours in group A than group B (P < 0.02). Most importantly, the mean (range) ASA levels were not statistically significantly (P > 0.3) higher in group A, at 29 (15-59) U/mL, than in group B, at 24.8 (12-39) U/mL. There was also no statistically significant correlation between ASA levels and clinical stage, length of follow-up after therapy, patient age, tumour size and type of histology.

CONCLUSION

From these data, organ-sparing surgery does not lead to greater ASA levels than orchidectomy and patients are therefore at no greater risk of developing an autoimmune infertility.

Mumps epididymo-orchitis with prolonged detection of virus in semen and the development of anti-sperm antibodies

Epididymo-orchitis is the most common complication of mumps in post-pubertal men. A case of MMR vaccine failure, in whom mumps and mumps-associated unilateral epididymo-orchitis developed, is presented in this article. Mumps virus was isolated from the semen 14 days after onset and mumps RNA was detected in semen for up to 40 days using RT-PCR. Epididymo-orchitis was associated with transient but significant reduction in sperm count and severe abnormalities in sperm morphology. It also led to the appearance of anti-sperm antibodies, which may have potential long-term adverse effects on the patient's fertility. Sequencing of the SH gene of the virus showed this to be a new mumps genotype distinct from the virus circulating currently in the UK.