Project description:Spermatogenesis plays an important role in the mammalian testis, involving in the complex processes of mitosis, meiosis, and spermiogenesis. Spermatogenesis may also be disrupted in the absence of the immunological and ‘fence’ functions of the BTB, resulting in male subfertility or infertility. Mice lacking wild-type p53-induced phosphatase 1 (Wip1) display male reproductive organ defects, but the molecular mechanisms underlying these abnormalities remain unclear. We explored the function of Wip1 in spermatogenesis and fertility by examining differences in the expressed testis proteome and phosphoproteome between Wip1-deficient and wild-type mice using a proteomics approach. 90 proteins and 178 phosphoproteins were differentially regulated between these two groups of mice. These results suggested that proinflammatory cytokines may impair the blood–testis barrier dynamics by decreasing the expression of junction-associated proteins, which effect could be partially responsible for the subfertility and spermatogenesis defects in Wip1-knockout mice.

Project description:Tuberculosis (TB) remains a major public health problem and we lack a comprehensive understanding of how Mycobacterium tuberculosis (M. tb) infection impacts host immune responses. We compared, at two timepoints, the induced immune response to TB antigen, BCG and IL-1β stimulation between latently M. tb infected individuals (LTBI) and active TB patients. The immune response was assessed using the TruCulture system with a Null stimulation. samples were tested by Ultrahigh Performance Liquid Chromatography-Tandem Mass Spectroscopy (UPLC MS/MS) for a total of 696 metabolites.

Project description:Spermatogenesis plays an important role in the mammalian testis, involving in the complex processes of mitosis, meiosis, and spermiogenesis. Spermatogenesis may also be disrupted in the absence of the immunological and ‘fence’ functions of the BTB, resulting in male subfertility or infertility. Mice lacking wild-type p53-induced phosphatase 1 (Wip1) display male reproductive organ defects, but the molecular mechanisms underlying these abnormalities remain unclear. We explored the function of Wip1 in spermatogenesis and fertility by examining differences in the expressed testis proteome and phosphoproteome between Wip1-deficient and wild-type mice using a proteomics approach. Among a total of 6872 proteins and 4280 phosphorylation sites on 1614 proteins identified in our analysis, 58 proteins and 159 phosphorylation sites on 141 proteins were differentially regulated between these two groups of mice. These results suggested that proinflammatory cytokines may impair the blood–testis barrier dynamics by decreasing the expression of junction-associated proteins, which effect could be partially responsible for the subfertility and spermatogenesis defects in Wip1-knockout mice.

Project description:In the context of male reproductive health, epidemiological studies have observed reduced testis size and abnormal sperm counts and morphology in adult men exposed in utero, although these findings are not always repeated. The ambiguity of these reports is confounded by a lack of controlled animal studies investigating the effects of maternal cigarette smoke exposure on male offspring reproductive health. In this study we examined the effects of cigarette induced reproductive toxicity on male offspring exposed during the gestational and weaning period using our novel direct nasal exposure mouse model of cigarette smoke-induced chronic obstructive pulmonary disease and female subfertility. This was done too gain a better understanding of the adverse effects of gestational maternal smoking on male offspring fertility.

Project description:Acrylamide is a reproductive toxicant that has been detected in foods such as potato chips and breads. The consequences of chronic exposure to acrylamide in the human diet are unknown; however we previously reported that exposure to acrylamide at levels equivalent to human exposure produced high levels of genetic damage in early male germ cells of mice [Nixon et al. ToxSci 129(1), 135–145 (2012)]. In the present study, we examined changes in testicular gene expression in these mice to examine the potential mechanisms involved in acrylamide induced DNA damage in male germ cells and to provide a better understanding of the reproductive toxic effects of acrylamide in the male.

Project description:Male infertility is one of the most common complications of diabetes mellitus (DM). Dapagliflozin is widely used to manage the type II DM. This study aimed to assess the dapagliflozin’s effects on the spermatogenesis by administering either dapagliflozin (Dapa) or a vehicle (db) to diabetic male db/db mice, and using littermate male db/m mice as the control group (Con). We further performed the integrative analyses of the cecal shotgun metagenomics, cecal/plasmatic/testicular metabolomics, and testicular proteomics. We found that dapagliflozin treatment significantly alleviated the diabetes-induced spermatogenic dysfunction by improving sperm quality, including the sperm concentration and the sperm motility. The overall microbial composition was reshaped in Dapa mice and 13 species (such as Lachnospiraceae bacterium 3-1) were regarded as potential beneficial bacteria. Metabolites exhibited modified profiles, in which adenosine, cAMP, and 2’-deoxyinosine being notably altered in the cecum, plasma, and testis, respectively. Testicular protein expression patterns were similar between the Dapa and Con mice. In vivo results indicated that compared with db group, dapagliflozin treatment alleviated apoptosis and oxidative stress in testis tissues by down-regulating 2’-deoxyinosine. This was further validated by in vitro experiments using GC-2 cells. Our findings support the potential use of Dapa to prevent the diabetes-induced impaired sperm quality and to treat diabetic male infertility.

Project description:The centrosome is a conserved eukaryotic organelle essential for reproductive process, and centrosomal proteins (CEP) are necessary for composition of the centrosome. However, few CEPs have been genetically linked to fertility, and the related molecular mechanisms remains mysterious. Here, we identified a new CEP, CEP128, which is functional in spermatogenesis, fertilization and embryonic development in both humans and mice. The variants of CEP128/Cep128 could lead to aberrant centrosome structures of the sperm inducing to anomalies in sperm morphology, count as well as motility, and further result in male infertility, but did not grossly affect ciliogenesis. Mechanistically, both loss and up-regulation of CEP128 could cause suppressed expressions of the genes involved in the spermatogenesis and fertilization phase. Altogether, our findings unprecedentedly unveil a crucial role of CEP128 in male fertility and provides new insight into the function of CEPs in human disease.

Project description:Acrylamide is a reproductive toxicant that has been detected in foods such as potato chips and breads. The consequences of chronic exposure to acrylamide in the human diet are unknown; however we previously reported that exposure to acrylamide at levels equivalent to human exposure produced high levels of genetic damage in early male germ cells of mice [Nixon et al. ToxSci 129(1), 135–145 (2012)]. In the present study, we examined changes in testicular gene expression in these mice to examine the potential mechanisms involved in acrylamide induced DNA damage in male germ cells and to provide a better understanding of the reproductive toxic effects of acrylamide in the male. Adult male mice were subjected to chronic acrylamide exposure via the drinking water at concentrations of 0, 0.001, 0.01, 0.1, 1 and 10 µg/ml for 1, 6 and 12 months. The testes were collected at each time point for RNA extraction and hybridization on an Illumina Sentrix Mouse ref-8 v2 Beadchip.

Project description:In the context of male reproductive health, epidemiological studies have observed reduced testis size and abnormal sperm counts and morphology in adult men exposed in utero, although these findings are not always repeated. The ambiguity of these reports is confounded by a lack of controlled animal studies investigating the effects of maternal cigarette smoke exposure on male offspring reproductive health. In this study we examined the effects of cigarette induced reproductive toxicity on male offspring exposed during the gestational and weaning period using our novel direct nasal exposure mouse model of cigarette smoke-induced chronic obstructive pulmonary disease and female subfertility. This was done too gain a better understanding of the adverse effects of gestational maternal smoking on male offspring fertility. C57BL/6 5 week-old female mice were exposed via the nose-only to cigarette smoke [twelve 3R4F reference cigarettes (University of Kentucky, USA) twice/day, five times per week, for 12-18 weeks]. Each exposure lasted 60 minutes. Control mice received room air. In total, 27 mice underwent cigarette smoke exposure. Eleven week-old female mice exposed to cigarette smoke for 6 weeks were separated into groups of three and housed with a single control stud male aged 7-8 weeks with proven fertility for a maximum of 12 weeks. Females were monitored every second day for post-coital plugs and pregnancy. Pregnant females were separated into single cages and litter sizes/pup weights recorded. Smoke exposure via dams continued throughout mating/pregnancy/lactation until weaning of pups at 21days post birth. The testis of exposed offspring were then collected for RNA extraction and hybridization on an Illumina Sentrix Mouse ref-8 v2 Beadchip

Project description:This project aims at deciphering the human testis proteome and to discover and characterizedunknown proteins in order to better understand the male reproductive physiology.