TY - JOUR
T1 - Expression of biologically active fusion genes encoding the common α subunit and the follicle-stimulating hormone β subunit
T2 - Role of a linker sequence
AU - Sugahara, Tadashi
AU - Sato, Asomi
AU - Rudolf, Masataka
AU - Ben-Menahem, David
AU - Pixley, Mary R.
AU - Hsueh, Aaron J.W.
AU - Boime, Irving
PY - 1996/5/20
Y1 - 1996/5/20
N2 - The gonadotropin/thyrotropin hormone family is characterized by a heterodimeric structure composed of a common α subunit noncovalently linked to a hormone-specific β subunit. The conformation of the heterodimer is essential for controlling secretion, hormone-specific post-translational modifications, and signal transduction. Structure-function studies of follicle-stimulating hormone (FSH) and the other glycoprotein hormones are often hampered by mutagenesis-induced defects in subunit combination. Thus, the ability to overcome the limitation of subunit assembly would expand the range of structure-activity relationships that can be performed on these hormones. Here we converted the FSH heterodimer to a single chain by genetically fusing the carboxyl end of the FSH β subunit to the amino end of the α subunit in the presence or absence of a linker sequence. In the absence of the CTP linker, the secretion rate was decreased over 3-fold. Unexpectedly, however, receptor binding/signal transduction was unaffected by the absence of the linker. These data show that the single-chain FSH was secreted efficiently and is biologically active and that the conformation determinants required for secretion and biologic activity are not the same.
AB - The gonadotropin/thyrotropin hormone family is characterized by a heterodimeric structure composed of a common α subunit noncovalently linked to a hormone-specific β subunit. The conformation of the heterodimer is essential for controlling secretion, hormone-specific post-translational modifications, and signal transduction. Structure-function studies of follicle-stimulating hormone (FSH) and the other glycoprotein hormones are often hampered by mutagenesis-induced defects in subunit combination. Thus, the ability to overcome the limitation of subunit assembly would expand the range of structure-activity relationships that can be performed on these hormones. Here we converted the FSH heterodimer to a single chain by genetically fusing the carboxyl end of the FSH β subunit to the amino end of the α subunit in the presence or absence of a linker sequence. In the absence of the CTP linker, the secretion rate was decreased over 3-fold. Unexpectedly, however, receptor binding/signal transduction was unaffected by the absence of the linker. These data show that the single-chain FSH was secreted efficiently and is biologically active and that the conformation determinants required for secretion and biologic activity are not the same.
UR - http://www.scopus.com/inward/record.url?scp=15844427850&partnerID=8YFLogxK
U2 - 10.1074/jbc.271.18.10445
DO - 10.1074/jbc.271.18.10445
M3 - Article
AN - SCOPUS:15844427850
SN - 0021-9258
VL - 271
SP - 10445
EP - 10448
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 18
ER -