N, was greater in the follicular walls of prepubertal than in mature hCG-treated gilts. GSN modulates estrogen receptor function and aromatase expression52. PLG is converted to plasmin through ovulation, which in turn decreases the follicular tensile strength at ovulation6. Aside from its iron-binding properties, TF plays a important part inside the local regulation of ovarian function, inhibiting aromatase activity40 or differentiation64 of rat granulosa cells. TF also inhibits FSH-stimulated aromatase activity in porcine granulosa cells22. However, no correlation was noted amongst TF and CYP19A1 PI3KC3 Accession protein in follicular walls, but a negative correlation was observed among CYP17A1 protein expression and E2 concentration in follicular fluid. Hence, the role of TR in the porcine granulosa layer Neuropeptide Y Receptor Antagonist Gene ID demands further investigation. The other class of proteins with high expression inside the follicular walls of mature hCG-treated gilts was related together with the efficient folding of proteins and keeping protein homeostasis in cells. We observed that the abundance of HSPA8 and SERPINH1 (HSP47) was significantly larger in follicular walls of mature hCG-treated gilts. HSPs can stop the incorrect folding of proteins and possess antiapoptotic properties and oxidative stress30,35,38. HSPA8, a chaperone protein, plays a essential function in regulation of steroid hormone function by modulating their receptor activity, including estrogen, progesterone, and androgen receptors50,55. HSP47 is essential for the right folding of procollagen33. Elevated collagen and HSP47 expression are implicated within the pathogenesis of fibrotic ailments and cyst formation57. Our previous study suggested that HSPs have a protective function in preovulatory follicles through differentiation of estrogen-producing follicular cells to progesterone-producing luteal cells41. Proteins linked with lipid metabolism had a greater abundance within the follicular walls of mature hCG- or GnRH-A-treated gilts. Among them, the redox protein CYB5A is involved in lipid biosynthesis, delivering electrons to microsomal desaturases that synthesize steroids and fatty acids59. It was shown to have a certain function in porcine granulosa and theca layers15 and intraovarian androstenedione production46. We also observed a rise within the abundance of ANXA1 and GC in mature animals. ANXA1 is a calcium and phospholipid-binding protein of the annexin superfamily56, whose expression is stimulated by 17-beta-estradiol and is involved in cell growth, differentiation, apoptosis, and membrane fusion34. GC has essential physiological functions, including vitamin D transport and storage61. Grzesiak and coworkers27 reported that vitamin D regulates follicular P4 and E2 synthesis, and recommended its critical role in follicular development in mature gilts. The altered abundance of proteins associated with lipid metabolism inside the follicular walls of mature hCG- and GnRH-traded gilts suggest, respectively, early luteinization of preovulatory follicles and positive stimulation of follicular growth. Amongst proteins identified by 2D-DIGE, only 1 enzyme involved inside the steroidogenic pathway was identified, i.e., CYP11A1. Research have shown CYP11A1 expression in theca cells of antral follicles, which elevated during porcine follicle maturation25. Having said that, porcine follicles exposed to LH preovulatory surge did not show a decline in CYP11A1 mRNA2. The higher CYP11A1 protein abundance impacted by native LH (GnRH-A) seems to confirm these earlier.
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