Abstract
The classical function of human chorionic gonadotropin (hCG) is its role in supporting pregnancy. hCG is a dimer consisting of two highly glycosylated subunits, alpha (CGA) and beta (CGB). The beta-hCG protein is encoded by CGB3, CGB5, CGB7 and CGB8 genes. CGB3, 5 and 8 code for an identical protein, CGB3/5/8, whereas CGB7 differs in three amino acids from CGB3/5/8. We had observed earlier that CGB7 and CGB3/5/8 display very distinct tissue expression patterns and that the tumor suppressor and transcription factor p53 can activate expression of CGB7 but not of CGB3/5/8 genes. Here, we investigate the glycan structures and possible functional differences of the two CGB variants. To this end, we established a system to produce and isolate recombinant CGA, CGB7 and CGB3/5/8 proteins. We found that N- and O-glycosylation patterns of CGB7 and CGB3/5/8 are quite similar. Functional assays were performed by testing activation of the ERK1/2 pathway and demonstrated that CGB7 and CGB5/5/8 appear to be functionally redundant isoforms, although a slight difference in the kinetics of ERK1/2 pathway activation was observed. This is the first time that biological activity of CGB7 is shown. In summary, the results lead to the hypothesis that CGB7 and CGB3/5/8 do not hold significant functional differences but that timing and cell type of their expression is the key for understanding their divergent evolution.
Highlights
Karina Biskup and Véronique Blanchard should be regarded as joint First AuthorsElectronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.The glycoprotein hormone human chorionic gonadotropin is known for its pregnancy-supporting role [1, 2]
We aimed at elucidating possible different glycosylation patterns and associated divergent functions of the human chorionic gonadotropin (hCG) subunits CGB7 and CGB3/5/8
As hCG is well known for its substantial glycosylation, it was debated whether functional differences between CGB7 and CGB3/5/8 could stem from varying glycosylation patterns
Summary
The glycoprotein hormone human chorionic gonadotropin (hCG) is known for its pregnancy-supporting role [1, 2]. It is produced mainly by trophoblast cells. HCG is important to induce immune tolerance at the fetal-maternal interface as it promotes decidualization and angiogenesis [1, 2, 6,7,8,9,10,11,12]. HCG is indispensable for the establishment and maintenance of early human pregnancy
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