Efficacy of Immunization against a Novel Synthetic 13-Amino Acid Betaglycan-Binding Peptide Sequence of Inhibin α Subunit on Promoting Fertility in Female Rats.
Xingfa HanXue XiaWeihao ChenFengyan MengXiaohan CaoGuixian BuTian GanXiaogang DuQiuxia LiangXianyin ZengPublished in: International journal of molecular sciences (2023)
Inhibins suppress the FSH production in pituitary gonadotrope cells by robustly antagonizing activin signaling by competitively binding to activin type II receptors (ACTR II). The binding of inhibin A to ACTR II requires the presence of its co-receptor, namely, betaglycan. In humans, the critical binding site for betaglycan to inhibin A was identified on the inhibin α subunit. Through conservation analysis, we found that a core 13-amino-acid peptide sequence <VRTTSDGGYSFKY> within the betaglycan-binding epitope on human inhibin α subunit is highly conserved across species. Based on the tandem sequence of such a conserved 13-amino-acid betaglycan-binding epitope (INHα13AA-T), we developed a novel inhibin vaccine and tested its efficacy in promoting female fertility using the female rat as a model. Compared with placebo-immunized controls, INHα13AA-T immunization induced a marked ( p < 0.05) antibody generation, enhanced ( p < 0.05) ovarian follicle development, and increased ovulation rate and litter sizes. Mechanistically, INHα13AA-T immunization promoted ( p < 0.05) pituitary Fshb transcription and increased ( p < 0.05) serum FSH and 17β-estradiol concentrations. In summary, active immunization against INHα13AA-T potently increased FSH levels, ovarian follicle development, ovulation rate and litter sizes, thus causing super-fertility in females. Therefore, immunization against INHα13AA is a promising alternative to the conventional approach of multiple ovulation and super-fertility in mammals.
Keyphrases
- amino acid
- polycystic ovary syndrome
- transcription factor
- dna binding
- binding protein
- endothelial cells
- childhood cancer
- high glucose
- oxidative stress
- induced apoptosis
- protein kinase
- young adults
- type diabetes
- monoclonal antibody
- pluripotent stem cells
- drug induced
- stress induced
- induced pluripotent stem cells
- cell cycle arrest