The enzyme steroid 21-hydroxylase (21-OHase) plays a key role in adrenal steroidogenesis. Defects in this enzyme are responsible for one of the most common inborn errors of metabolism in humans. Duplicated genes for the enzyme are located in the class III region of the major histocompatibility complex (MHC), HLA. In the mouse, the genes encoding 21-OHase have been mapped to the homologous region of the H-2 complex. We previously described an H-2 recombinant haplotype aw18, in which the gene for the complement component C4 and one of the two genes for 21-OHase in the H-2 class III region have been deleted. We now report that newborn aw18 homozygous mice are deficient in 21-OHase activity, and that homozygosity for the aw18 haplotype directly causes death at the early postnatal stage. Morphological changes in the adrenal glands of newborn aw18 homozygotes are also observed. The aw18 recombinant haplotype is expected to serve as a useful and, thus far, unique experimental system to study adrenal steroidogenesis in vivo and as an animal model for the inherited human disease of congenital adrenal hyperplasia.
The cDNA encoding human cystatin C (HCC) was subjected to site-specific substitution of alanine for serine at the position 37, to obtain the Asn(35)-Lys(36)-Ser(37) sequence that is a signal for asparagine-linked (N-linked) glycosylation of protein in eukaryotes, and was transformed into Pichia pastoris X33. As a result, 1.2 mg/L oligomannosyl HCC with a carbohydrate chain of Man(10)GlcNAc(2) was produced by the Pichia transformant. The oligomannosyl HCC was more stable at the low ionic strength condition of 50 mM potassium phosphate buffer, pH 7.0, than the wild-type. In addition, the oligomannosylation substantially improved the molecular stability of cystatin against an aspartic proteinase, cathepsin D, in which the susceptibility decreased to less than 50% of nonglycosylated one. The anti-rotavirus activity of HCC was substantially enhanced by the site-directed glycosylation using the yeast expression system. A MA-104 cell line was used as a host cell for human rotavirus type-2 Wa strain in this study, to which both the wild-type and oligomannosyl HCCs did not show cytotoxicity at a concentration of 100 mug/mL. More than 80% viability of the host cell infected with 1.0 x 10(5) PFU/mL of rotavirus was conserved under the condition coexisting with 75 mug/mL of the oligomannosyl HCC, which was 15.2% higher than that of wild-type HCC. Thus, the in vitro anti-rotavirus assay indicated that the supplement of a proper amount of the oligomannosyl HCC could be used as an anti-rotavirus agent.
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