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KMID : 1161520210250030171
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Animal Cells and Systems
2021 Volume.25 No. 3 p.171 ~ p.181
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Luteinizing hormone-like and follicle-stimulating hormone-like activities of equine chorionic gonadotropin ¥â-subunit mutants in cells expressing rat luteinizing hormone/chorionic gonadotropin receptor and rat follicle-stimulating hormone receptor
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Byambaragchaa Munkhzaya
Park A-Young
Gil So-Jin
Lee Hae-Won
Ko Yun-Jeong
Choi Seung-Hee
Kang Myung-Hwa
Min Kwan-Sik
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Abstract
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To identify the specific region of eCG involved in FSH-like activity, the following mutant expression vectors were constructed targeting the amino acid residues 102?104 of the eCG ¥â-subunit: single mutants, eCG¥âV102G/¥á, eCG¥âF103P/¥á, and eCG¥âR104K/¥á; double mutants, eCG¥âV102G;F103P/¥á, eCG¥âV102G;R104K/¥á, and eCG¥âF103P;R104K/¥á; triple mutant, eCG¥âV102G;F103P;R104K/¥á. The LH-like and FSH-like activities of eCG mutants were examined in CHO-K1 cells expressing rat LH/CG receptor and rat FSH receptor. The levels of eCG¥âV102G/¥á, eCG¥âR104K/¥á, and eCG¥âV102G;R104K/¥á in the culture supernatant were markedly lower than those of eCG¥â/¥á-wt. The other mutants and rec-eCG¥â/¥á-wt were efficiently secreted into the culture supernatant. The LH-like activities of eCGV104G/¥á, eCG¥âV102G;R104K/¥á, and eCG¥âF103P;R104K/¥á were approximately 61%, 52%, and 54%, respectively, of those of eCG-wt. The Rmax values of the mutants were 58.9%?78.8% those of eCG-wt with eCG¥âR104K/¥á exhibiting the lowest value. The FSH-like activities of single mutants were only 16%?20% of those of eCG-wt. Additionally, the FSH-like activity of double mutants was less than 10% of that of eCG-wt. In particular, the FSH-like activities of ¥âV102G;R104K/¥á and ¥âF103P;R104K/¥á were 2.5?2.9% of that of eCG-wt. These results suggest that the amino acid residues 102?104 of the eCG ¥â-subunit are dispensable and that the residue 104 of the eCG ¥â-subunit plays a pivotal role in signal transduction through the rat FSH receptor. Thus, these mutants may aid future studies on eCG interactions with mammalian FSH receptors in vitro and in vivo.
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KEYWORD
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eCG, CHO-S cells, rLH/CGR, rFSHR, cAMP assay
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