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INRA, CNRS, Université François Rabelais de Tours, Physiologie de la Reproduction et des Comportements, INRA Centre de Recherches de Tours-Nouzilly, 37 380 Nouzilly, France

(Correspondence should be addressed to C Cahoreau; Email: claire.cahoreau{at}tours.inra.fr)

S Legardinier is now at CNRS, RMN-Interactions Lipides-Protéines Faculté de Médecine, Avenue du Professeur Léon Bernard, 35 043 Rennes, France

Recombinant equine LH/chorionic gonadotropin (eLH/CG) was expressed in the baculovirus–Sf9 insect cell system either as a single-chain with the C-terminus of the β-subunit fused to the N-terminus of the -subunit or as non-covalently linked heterodimers with or without a polyhistidine tag at various locations. All these non-covalently linked eLH/CG variants were secreted as stable heterodimers in the medium of infected Sf9 cells. To assess the influence of the presence and the position of polyhistidine tag on LH bioactivity, we expressed four non-covalently linked tagged heterodimeric eLH/CG variants that were secreted in threefold higher quantities than the single chain. Among them, only two exhibited full in vitro LH bioactivity, relative to untagged heterodimers, namely the one His-tagged at the N-terminus of -subunit and the other at the C-terminus of the β-subunit both of which are amenable to nickel-affinity purification. Furthermore, single-chain eLH/CG was found to be N- and O-glycosylated but nevertheless less active in in vitro LH bioassays than natural eCG and heterodimeric recombinant eLH/CG. The thermal stability of natural and recombinant hormones was assessed by the initial rates of dissociation from 20 to 90 °C. Heterodimeric eLH/CG from Sf9 cells was found to be as stable as pituitary eLH and serum eCG (T_1/2, 74–77 °C). Although Sf9 cells only elaborated short immature-type carbohydrate side chains on glycoproteins, recombinant eLH/CG produced in these cells exhibited stabilities similar to that of pituitary eLH. In conclusion, recombinant heterodimeric eLH/CG exhibits the same thermal stability as natural pituitary LH and its advantages over the single-chain eLH/CG include higher secretion, higher in vitro bioactivity, and reduced potential risk of immunogenicity.