Cystine knot of the gonadotropin α subunit is critical for intracellular behavior but not for in vitro biological activity

Asomi Sato, Emerald Perlas, David Ben-Menahem, Masataka Kudo, Mary R. Pixley, Madoka Furuhashi, Aaron J.W. Hsueh, Irving Boime

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44 Scopus citations


The common α subunit of glycoprotein hormones contains five disulfide bonds. Based on the published crystal structure, the assignments are 7-31, 59-87, 10-60, 28-82, and 32-84; the last three comprise the cystine knot, a structure also seen in a variety of growth factors. Previously, we demonstrated that the efficiency of secretion and the ability to form heterodimers by a subunits bearing single cysteine residue mutants in the cystine knot were significantly reduced. These results suggested that the cystine knot is critical for the intracellular integrity of the subunit. To assess if the presence of the free thiol affected the secretion kinetics, we constructed paired cysteine mutants of each disulfide bond of the α subunit. The secretion rate for these monomers was comparable with wild type except for the α-10-60 mutant, which was 40% lower. The recovery of the α7-31 and α59-87 mutants was greater than 95%, whereas for the cystine knot mutants, it was 20-40%. Co-expression of the wild-type chorionic gonadotropin β subunit with double cysteine mutants did not enhance the recovery of α mutants in the media. Moreover, compared with wild-type, the efficiency of heterodimer formation of the α10-60 or α32-84 mutants was less than 5%. Because subunit assembly is required for biological activity, studies on the role of these disulfide bonds in signal transduction were not possible. To bypass the assembly step, we exploited the single chain model, where the α and β subunits are genetically fused. The recovery of secreted tethered gonadotropins bearing mutations in the cystine knot was increased significantly. Although dimer-specific monoclonal antibodies discriminated the conformation of single chain α10-60 and α32-84 mutants from the native heterodimer, these mutants were nevertheless biologically active. Thus, individual bonds of cystine knot are important for secretion and heterodimer formation but not for in vitro bioactivity. Moreover, the data suggest that the native heterodimer configuration is not a prerequisite for receptor binding or signal transduction.

Original languageEnglish
Pages (from-to)18098-18103
Number of pages6
JournalJournal of Biological Chemistry
Issue number29
StatePublished - 18 Jul 1997
Externally publishedYes

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Cell Biology


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