BackgroundThe presence of human cytomegalovirus (HCMV) in male genital tract suggests its vertical transmission with spermatozoa and the development of a potentially dangerous fetal infection. The objective of the present study was to evaluate the possibility of intracellular HCMV localization in male germ cells and to examine the effect of the virus on human spermatogenesis.MethodsSemen samples from 91 infertile and 47 fertile men were analyzed. HCMV was detected by real time PCR, rapid culture method and PCR in situ. Human testis organotypic culture and quantitative karyological analysis were used to investigate viral effects on spermatogenesis. Localization of HCMV in immature germ cells and spermatozoa was studied by immunostaining with monoclonal antibodies and ultrastructural analysis of infected organotypic culture.ResultsViral DNA was detected in 12.3% samples of motile spermatozoa, while infectious activity only in 2.9% infertile and fertile men without statistically significant intergroup difference. According to PCR in situ, the mean percentage of infected cell in both groups was 1.5% (0.25%-15%), which can serve as a criterion for evaluating the risk of HCMV transmission. In HCMV-infected organotypic culture viral antigens were identified in spermatides on day 4, in spermatogonia and spermatocytes on day 8, and in spermatozoa on day 14. Empty and full capsides and virions were visualized in germ cells by electron microscopy. The number of cells before introduction in culture was taken for 100%. On day 14 infected culture contained 36.8% spermatogonia, 18.7% spermatocytes, 27.6% round spermatides and 42.5% elongated spermatides; in comparison with 82.2%, 51.5%, 70.4% and 65.7% in uninfected culture, respectively (all p < 0.05). There were no changes in the number and viability of spermatozoa.ConclusionsHCMV was detected in male germ cells, both in sperm samples and in testis organotypic culture. The virus may infect immature germ cells which develop to mature HCMV-carrying spermatozoa. A considerable decrease in the number of immature germ cells indicates that HCMV produces a direct gametotoxic effect and can contribute to male infertility.
SUMMARYAcute and chronic infections of the seminal tract are among the most common causes of male infertility. As at least half of male infertility cases are classified as idiopathic, some of these cases might be attributed to asymptomatic infection. The detection and quantification of Epstein-Barr virus (EBV), cytomegalovirus (CMV) and human herpes virus type 6 (HHV-6) DNA in semen samples were performed. A total of 232 patients were divided into five groups: (i) infertile men with varicocoele; (ii) men with idiopathic infertility; (iii) infertile men with chronic inflammatory urogenital tract diseases (IUTD); (iv) fertile men with IUTD and (v) men whose partners had a history of pregnancy loss. In the study population, the prevalence of viral DNA was 17.7, 3.4% for EBV, 5.2% for CMV, 6.5% for HHV-6, 0.43% for EBV + CMV, 0.87% for EBV + HHV-6 and 1.3% for CMV + HHV-6. The median viral loads for EBV, CMV and HHV-6 were 500, 2250 and 250 copies/mL respectively. Of the sperm cell fractions, derived from infected samples 87.5% contained viral DNA. No association between EBV and fertility disorders or IUTD was found. CMV detection was much higher in the group of patients with infertility and concomitant IUTD compared with the other groups combined (18.5% vs. 5.4%, p = 0.03) and associated with reduced sperm cell count (39.5 9 10 6 /mL vs. 72.5 9 10 6 /mL, p = 0.036). Immunostaining of spermatozoa from infected samples and in vitro-infected cells detected CMV in sperm heads, tails and connecting pieces and revealed attachment to sperm membrane and intracellular localization. HHV-6 was the more common in fertile men with chronic IUTD than in the other groups combined (19% vs. 6.3%, p = 0.018) and had no effect on sperm parameters. The results suggest that both CMV and HHV-6 may contribute to the aetiology of IUTD and, moreover, CMV-associated IUTD can lead to male sterility.
Objective. Men who have sex with men (MSM) have a high risk of lifelong anal cancer caused by high-risk human papillomavirus (HR HPV) infections. The aim of this study was to investigate the prevalence of anal canal HR HPV infection among men who have sex with men (MSM) with and without HIV infection in Moscow (Russia). We evaluated associations of some HIV coinfections (HSV and CMV) and HPV distribution among MSM with and without HIV infection. Methods. Two groups of HIV-positive (n = 60) and HIV-negative (n = 60) MSM were evaluated in the study. Fourteen high-risk (HR) HPV types, HSV1/2, and CMV were investigated in men anal swabs. Results. HR HPVs were found with nearly the same frequency of 66.7% in both groups: HIV-positive and HIV-negative MSM. HIV-positive status was statistically associated with the presence of several (more than two) HPV types ( p = 0.044 ). The most prevalent HR HPV genotypes were HPV18, HPV16, HPV56, and HPV33 for HIV-positive MSM and HPV56, HPV51, HPV66, and HPV16 for HIV-negatives. We found a statistically significant association of five HR HPV types with HIV status of MSM: HPV16 ( p = 0.028 ), HPV18 ( p = 0.00006 ), HPV58 ( p = 0.003 ), HPV33 ( p = 0.019 ), and HPV39 ( p = 0.026 ). The frequency of HSV1 (1.7%) and HSV2 (10%) infections and CMV (3.3%) infection was evaluated in the group of HIV-positive MSM. The frequency of HSV1 (5%) and HSV2 (6.7%) infections and CMV (0%) infection was evaluated, as well, in the group of HIV-negative MSM. Conclusion. Multiple HPV genotypes were detected significantly more often than single HPV genotype in the group of HIV-positive MSM. According to our data, 25% of HIV-positive MSM have HPV39; this is the only one of the five types of HR HPV (16, 18, 58, 33, and 39) associated with this group of MSM that has not yet been included in the HPV vaccines available on the market.
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