AI Article Synopsis
- The quaternary structures of human, bovine, and ovine Follicle-Stimulating Hormones (FSH) and Luteinizing Hormone (LH) were analyzed using sandwich ELISA methods, focusing on the stability of heterodimeric forms after thermal treatment.
- Different FSH preparations showed varying thermal stability, with human and ovine FSH dissociating at higher temperatures (68-74 °C) compared to bovine FSH (61-64 °C), which was less stable.
- Notably, some natural and recombinant forms of oFSH and hLH displayed resistance to high temperatures (up to 93 °C), suggesting covalent bonding between subunits, indicating potential inter-subunit connections
Article Abstract
Quaternary structure of human, bovine and ovine Follicle-Stimulating Hormones (hFSH, bFSH and oFSH) and Luteinizing Hormone was assessed in sandwich ELISAs using monoclonal anti-oFSHβ or anti-oLHβ antibodies, respectively, for capture and a biotinylated anti-hFSHα (α4 epitope) for detection. Neither free subunit gave any signal in this assay so that it was possible to measure the residual heterodimeric fraction after thermal treatment of the gonadotropins under study. The hormones were subjected to 5-min heating between 37 and 90 °C before rapid cooling in melting ice before ELISA. The data show half-dissociation of natural and recombinant human and ovine FSH preparations between 68 and 74 °C whereas bovine FSH preparations exhibited lower stability in these conditions with half-dissociation between 61 and 64 °C. Moreover, whereas all human and bovine as well as most ovine FSH preparations were fully dissociated at temperatures above 80 °C, one natural oFSH and one recombinant hLH preparations contained an important fraction that resisted dissociation even at 93 °C and retained in vitro bioactivity. This suggests the existence of gonadotropin αβ heterodimer with covalently linked subunits. Similarly, about 20% of the recombinant hLH preparation was also found withstand heat denaturation and also probably to have cross-linked subunits. The origin and chemical nature of these inter-subunit bonds remain to be determined.
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| http://dx.doi.org/10.1016/j.ygcen.2014.03.033 | DOI Listing |
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