Association of seminal polyaromatic hydrocarbons exposome with idiopathic male factor infertility: A proteomic insight into sperm function

Abstract

AbstractOxidative stress (OS) is implicated in 80% of idiopathic male infertility (IMI) patients where exposure to redox active environmental toxicants such as polyaromatic hydrocarbons (PAHs) may play. In the present study the seminal exposome of various PAH was analyzed in two separate cohorts including 43 fertile donors and 60 IMI patients by HPLC and receiver operator characteristic curve was applied to find out the cut-off limits. Furthermore, spermatozoa from both the groups were subjected to label free liquid chromatography mass spectroscopy (LC-MS/MS) followed by bioinformatics analysis to elucidate the molecular mechanism(s) involved and the key proteins from the affected pathways were validated by western blot along with oxidative modification of proteins. Of the 16 standard PAH 13 were detected in the semen. Receiver Operator Character (ROC) Curve analysis (AUCROC) revealed the PAHs having most significant effect on fertility are of the following order Anthracene<benzo(a)pyrene<benzo[b]fluoranthene<Fluoranthene<benzo(a)anthracene<indol (123CD)pyrene<pyrene<naphthalene<dibenzo(AH)anthracene<fluorene<2bromonaphthalene <chrysene<benzo(GH1)perylene. Benzo[a] pyrene is invariably present in all infertile patients while naphthalene is present in both fertile and IMI group. Of the total 773 detected proteins (Control: 631 and PAH: 717); 71 were differentially expressed (13 underexpressed, 58 overexpressed) in IMI patients resulting in impaired mitochondrial dysfunction and oxidative phosphorylation, DNA damage, Aryl hydrocarbon receptor (AHR) signalling, xenobiotic metabolism and induction of NRF-2 mediated oxidative stress response (increased in 4-hydroxynonenal and nitrosylated protein adduct formation, and declined antioxidant defence). The increased GSH/GSSG ratio in patients may be an adaptive response to metabolize the xenobiotics via conjugation as evidenced by overexpression of AHR and Heat shock protein 90 beta (HSP90β) in patients. Seminal PAH concentrations, oxidative protein modification along with protein markers (e.g. AHR and HSP90β) may help in better prediction and management of IMI. Contribution of environment borne PAH in semen should not undermined in infertility evaluation.