[Effects of urogenital mycoplasma and chlamydial infections on male fertility].

Objective： This study aimed to assess the impact of urogenital ureaplasma urealyticum (Uu), Mycoplasma hominis (Mh), and Chlamydia trachomatis (Ct) infections on semen quality in men.Methods： In this study, 1022 males were enrolled at the Department of Reproductive Medicine, Rizhao People's Hospital, Shandong Province from October 2014 to January 2023. The participants included 393 in the infertility group, 139 in the recurrent miscarriage group, and 490 in the control group. Based on age, 852 cases were < 36 years old, and 170 cases were ≥ 36 years old. All patients underwent routine semen analysis and tests for Uu, Mh, and Ct, with results statistically analyzed for their impact on semen quality and compared among different age groups. Results: Among the 1022 patients, 344 (33.6%) were Uu-positive, 49 (4.7%) were Mh-positive, and 31 (3.0%) were Ct positive. The sperm concentration, total sperm count, forward sperm motility rate (PR), sperm motility rate (PR+NP) and normal sperm morphology rate of Uu Mh and/or Ct-positive patients were significantly lower than those of the negative group, and the overall difference between the two groups was statistically significant (P<0.05). The positive rate of Uu infection was 41.7% in the infertility group, 30.2% in the recurrent miscarriage group and 28.2% in the control group, and the overall positive rate of the three groups was statistically significant(P<0.05). The positive rate of Mh infection was 6.9% in the infertility group, 8.6% in the recurrent miscarriage group and 2.0% in the control group, and the overall positive rate of the three groups was statistically significant (P<0.001). The positive rate of Ct infection was 6.1% in the infertility group, 2.9% in the recurrent miscarriage group and 0.6% in the control group, and the overall positive rate of the three groups was statistically significant (P<0.001). The positivity rate of Uu infection was 35.8% at the age of <36 years and 22.9% at the age ≥ 36 years, and there was a statistically significant difference in the positivity rate between the two groups (P<0.05). Conclusion: The prevalence of Uu infection in the male urogenital tract is significantly higher than that of Mh and Ct, which is the main pathogen of urogenital tract infection in men. Uu, Mh and Ct infections have adverse effects on sperm concentration, total sperm count, sperm forward motility rate (PR), sperm motility rate (PR+NP) and normal sperm morphology rate, which will lead to a decrease in semen quality and affect male fertility. Genital tract infections are closely related to age, and the prevalence of Uu infection is higher in the younger age group.

Hyperuricemia induces lipid disturbances by upregulating the CXCL-13 pathway.

The molecular mechanism underlying hyperuricemia-induced lipid metabolism disorders is not clear. The purpose of the current study was to investigate the mechanism of lipid disturbances in a hyperuricemia mice model. RNA-Seq showed that differentially expressed genes (DEGs) in the fatty acid synthesis signaling pathway were mainly enriched and CXCL-13 was significantly enriched in protein-protein interaction networks. Western blotting, Q-PCR, and immunofluorescence results further showed that hyperuricemia upregulated CXCL-13 and disturbed lipid metabolism in vivo and in vitro. Furthermore, CXCL-13 alone also promoted the accumulation of lipid droplets and upregulated the expression of FAS and SREBP1, blocking AMPK signaling and activating the PKC and P38 signaling pathways. Silencing CXCL-13 reversed uric-acid-induced lipid droplet accumulation, which further downregulated FAS and SREBP1 expression, inhibited the p38 and PKC signaling, and activated AMPK signaling. In conclusion, hyperuricemia induces lipid metabolism disorders via the CXCL-13 pathway, making CXCL-13 a key regulatory factor linking hyperuricemia and lipid metabolism disorders. These results may provide novel insights for the treatment of hyperuricemia.NEW & NOTEWORTHY The underlying molecular mechanism of hyperuricemia-induced lipid metabolism disorders is still unclear. The study aimed to investigate the mechanism of lipid disturbance in hyperuricemia mice model. To our knowledge, we proposed for the first time that CXCL-13 may be a key regulator of hyperuricemia and lipid metabolism disorders. These results may provide new insights for the clinical treatment of hyperuricemia.