Optimizing heterologous expression in dictyostelium: importance of 5' codon adaptation.

Expression of heterologous proteins in Dictyostelium discoideum presents unique research opportunities, such as the functional analysis of complex human glycoproteins after random mutagenesis. In one study, human chorionic gonadotropin (hCG) and human follicle stimulating hormone were expressed in Dictyostelium. During the course of these experiments, we also investigated the role of codon usage and of the DNA sequence upstream of the ATG start codon. The Dictyostelium genome has a higher AT content than the human, resulting in a different codon preference. The hCG-beta gene contains three clusters with infrequently used codons that were changed to codons that are preferred by Dictyostelium. The results reported here show that optimizing the first 5-17 codons of the hCG gene contributes to 4- to 5-fold increased expression levels, but that further optimization has no significant effect. These observations suggest that optimal codon usage contributes to ribosome stabilization, but does not play an important role during the elongation phase of translation. Furthermore, adapting the 5'-sequence of the hCG gene to the Dictyostelium 'Kozak'-like sequence increased expression levels approximately 1.5-fold. Thus, using both codon optimization and 'Kozak' adaptation, a 6- to 8-fold increase in expression levels could be obtained for hCG.

Random mutagenesis and screening of complex glycoproteins: expression of human gonadotropins in Dictyostelium discoideum.

The soil amoeba Dictyostelium discoideum is a host cell that provides simple genetics in combination with complex protein synthesis. We show that the complex human heterodimeric gonadotropins can be produced and secreted by this organism. Furthermore, both follicle stimulation hormone and choriogonadotropin produced by D. dictyostelium bind to their human receptors and elicit a biological response comparable to the wild-type hormones. We also show that structure-function analysis using random mutagenesis and screening of recombinant glycoprotein hormones is feasible. Thus, expression of gonadotropins in D. dictyostelium opens the way to the engineering of potential new therapeutic analogues.

Comparative in vitro and in vivo studies on the biological characteristics of recombinant human follicle-stimulating hormone.

The in vitro and in vivo activities of recombinant human FSH (recFSH) produced by a Chinese hamster ovary cell line were studied and compared with those of natural FSH preparations. The specific FSH activities of recFSH established by immunoassay and in vivo bioassay were greater than 10,000 IU/mg protein and considerably higher than the activities of tested urinary FSH references, while the in vivo bio/immuno ratios of these preparations were not significantly different. Compared to a highly purified pituitary standard (IS 83/575), recFSH had a comparable high specific in vivo bioactivity, but the specific immunoreactivity of IS 83/575 was about 2 times lower. In receptor displacement and in vitro bioassay studies recFSH provided dose-response curves parallel to those of pituitary and urinary FSH references. When equal amounts of immunoreactivity FSH were tested, recFSH and urinary and pituitary FSH displayed comparable activities in both assays. The in vitro bioactivity of recFSH could be neutralized effectively by each of three monoclonal antibodies raised against recFSH (alpha-specific), urinary FSH (beta-specific), and pituitary FSH (alpha beta-specific), respectively. Moreover, 50% inhibition of comparable responses induced by recFSH, urinary "pure" FSH, or pituitary FSH was established by the same amount of monoclonal antibody. These results support the structural and functional similarity of recFSH and natural FSH. To test whether recFSH is capable of inducing LH-specific biological responses, the in vitro induction of testosterone production in mouse Leydig cells was assessed. At least 16 IU recFSH/ml incubate were needed to increase testosterone production, indicating that the intrinsic LH bioactivity of recFSH is negligible (less than 0.025 mIU LH/IU FSH). The in vivo efficacy of recFSH was examined by treating immature female hypophysectomized rats during 4 days with recFSH only or with recFSH supplemented with hCG. RecFSH only treatment increased ovarian weight and aromatase activity in a dose-dependent manner. When recFSH dosages providing submaximal responses were supplemented with 1 IU hCG, both ovarian weight and aromatase activity were largely augmented. Neither recFSH nor urinary pure FSH, administered in a high dose was able to increase plasma estradiol levels, while ovarian weight and aromatase activity were increased to the same extent. However, when recFSH was supplemented with only 0.1 IU hCG, a 3-fold increase in median plasma estradiol levels was obtained. These findings support the two-cell two-gonadotropin theory, holding that both FSH and LH are required for estrogen biosynthesis, but also reveal that only very small amounts of LH activity are sufficient to increase estrogen secretion up to measurable plasma levels.(ABSTRACT TRUNCATED AT 400 WORDS)