Highly conductive n-type CH3NH3PbI3 single crystals are grown by bismuth doping and the optical fingerprints of bismuth induced donors in CH3NH3PbI3 perovskites are identified.
Published data on the association between the GST genes polymorphisms and male infertility risk are inconclusive. We investigated GST genes polymorphisms in a large sample size case-control study, and conducted a literature-based meta-analysis of 6934 individuals. Our case-control study showed the GSTM1 null genotype was significantly associated with idiopathic oligozoospermia, while the null genotype of GSTT1 was significantly associated with normozoospermia and azoospermia. Additionally, significantly elevated GSTT1 expression levels were observed in present genotype compared with null genotype. In the meta-analysis, the null genotype of GSTM1 was associated with a significantly increased risk of male infertility. Furthermore, a stratification analysis showed that the risk of GSTM1 polymorphism was associated with male infertility in both Asian and Caucasian groups. Further studies of GSTM1 and GSTT1 with their biological functions are needed to understand the role of these genes in the development of male infertility.I nfertility is a worldwide reproductive health problem which affects 10%-15% of couples and about half of the cases are due to male factors 1 . Although several causes have been identified for impaired male fertility 2 , the aetiology remains unknown in nearly half of all cases. It is currently accepted that genetics contributes to spermatogenetic failure for about 30% of idiopathic infertility in males 3 .Sperms are susceptible to oxidative damage and excessive reactive oxygen species (ROS) generation may lead to subfertility or infertility 4 . Glutathione S-transferases (GSTs) represent an important superfamily of phase II metabolic enzymes that catalyze the conjugation of reduced glutathione with electrophilic groups of a wide variety of environmental compounds. GSTs are responsible for detoxification of many xenobiotics and endogenous ROS by catalyzing the conjugation of reduced glutathione to the substrate or sequestering toxic compounds, and play a key role in protecting cells against oxidative stress 5 . Human GSTs are divided into eight distinct classes as alpha, kappa, mu, omega, pi, sigma, theta, and zeta based on the similarity of amino acid sequence and antibody cross-reactivity 6,7 . The GSTM1 and GSTT1 gene have been located on chromosome 1p13.3 and 22q11, respectively. Homozygotes for the null alleles (deletion) of GSTM1 and GSTT1 lack activity of the respective enzymes 8 . As a result, GSTs decrease the reactivity of electrophilic substrates, which can affect spermatogenesis and spermatozoa function with cellular macromolecules, such as nucleonic acid, lipid and protein.The enzymatic deficiency in isoforms of GSTs is correlated with increased risk to develop certain diseases associated with oxidative damage. In this case an association between the genotypes of GSTM1, GSTT1 and risk of idiopathic infertility is possible.Recently, a number of molecular epidemiological studies have been conducted to examine the association between GSTM1 and GSTT1 null polymorphisms and male infertil...
There is increasing concern that early-life exposure to endocrine disruptors affects male offspring reproduction. However, whether di-n-butyl phthalate (DBP), a widely used endocrine disruptor, has transgenerational effects and, if so, the exact underlying molecular mechanisms involved remain unknown. In our study, 5 of time-mated pregnant SD rats were exposed to 0 and 500 mg/kg DBP with corn oil as the vehicle via oral gavage from embryonic days (E8-E14). Epigenetic and metabolomic of testis were analyzed after post-natal 60 days. Sperm and testicular cell functions were examined to confirm the transgenerational effects. DBP exposure significantly decreased the sperm counts in F1 through F3 generation. We found distinct metabolic changes in the testis of both F1 and F3 generation offspring, specifically, a significantly increased level of betaine, which is an important methyl donor. In contrast, the expression of betaine homocysteine S-methyltransferase (BHMT), which catalyzes the transfer of methyl moiety from betaine to homocysteine, significantly decreased. There was accompanying global DNA hypomethylation, along with a reduction in follistatin-like 3 (Fstl3) promoter hypomethylation, which is a known modulator of Sertoli cell number and spermatogenesis. In summary, we conclude that metabolomic and epigenetic changes induced by the aberrant expression of BHMT represent a novel mechanism linking in utero DBP exposure to transgenerational spermatogenesis failure.
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