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  • Title: Genetic fusion of an alpha-subunit gene to the follicle-stimulating hormone and chorionic gonadotropin-beta subunit genes: production of a bifunctional protein.
    Author: Kanda M, Jablonka-Shariff A, Sato A, Pixley MR, Bos E, Hiro'oka T, Ben-Menahem D, Boime I.
    Journal: Mol Endocrinol; 1999 Nov; 13(11):1873-81. PubMed ID: 10551781.
    Abstract:
    The human glycoprotein hormones, hCG, TSH, LH, and FSH, are composed of a common alpha-subunit assembled to a hormone-specific beta-subunit. The subunits combine noncovalently early in the secretory pathway and exist as heterodimers but not as multimers. LH/FSH are synthesized in the pituitary gonadotrophs, and several of the alpha-subunit sequences required for association with either the LHbeta or FSHbeta subunits are different. Thus, it is intriguing that no ternary complexes are observed for LH and FSH in vivo (e.g. two different beta-assembled to a single alpha-subunit). To examine whether the alpha-subunit can interact with more than one beta-subunit, and to study the conformational relationships between the ligand and the receptor, we constructed a vector encoding two tandemly arranged beta-subunits fused to a single alpha-subunit gene (FSHbeta-CGbeta-alpha). This approach permitted structure-function analyses of alpha/beta domain complexes without the possibility of subunit dissociation. We reported previously that the CGbeta or FSHbeta subunit gene can be genetically fused to the alpha-gene and the resulting single chains (CGbetaalpha and FSHbetaalpha, respectively) were biologically active. Here we demonstrate that a triple-domain single chain bearing the configuration FSHbeta-CGbeta-alpha is efficiently secreted from transfected Chinese hamster ovary (CHO) cells and exhibits high-affinity receptor binding to both FSH and LH/hCG receptors, comparable to the native heterodimers. These results indicate that the alpha-subunit can interact with each beta-subunit in the same complex and that an alpha-domain fused to a beta-domain can still interact with an additional beta-subunit. The data also demonstrate the remarkable flexibility of the receptor to accommodate the increased bulkiness of the triple-domain ligand. In addition, the formation of intrachain FSH- and CG-like complexes observed in a triple-domain single chain suggests that the alpha-subunit can resonate, i.e. shuttle between alpha-beta heterodimeric intermediates during the early stages of synthesis and accumulation in the endoplasmic reticulum. Such model compounds could be useful as substrates to generate a new class of analogs in which the ratio of the LH/FSH activity is varied. This could aid in the design of analogs that could be used to mimic the in vivo hormonal profiles.
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