Background: Common marmoset monkeys (Callithrix jacchus) are readily used in biomedical research. However, superovulation for embryonic stem cell production and developmental research still remain difficult. Inexplicably, follicle-stimulating hormone (FSH) as key player in superovulation has to be administered in extremely high dosages in this non-human primate compared to human.
Methods: To evaluate whether marmoset FSH (cjFSH) is functionally more competent than its human homologue on the marmoset FSH receptor (cjFSHR), we established in vitro a homologous system characterizing homologous and recombinantly produced cjFSH.
Results: Upon stimulation of two cell lines stably expressing either the marmoset or the human FSH receptor (cj/hFSHR), respectively, the second messenger signaling of the activated receptor displayed no significant difference in ED(50) values. Thermostability of cjFSH was significantly prolonged by roughly 20% on both FSHRs.
Conclusion: High FSH dosage in marmoset superovulation cannot be explained by enhanced biopotency of the natural animal's gonadotropin.
© 2010 John Wiley & Sons A/S.