Human serum low density lipoprotein (d = 1.027-1.045) was delipidated with organic solvents and the apoprotein digested with thermolysin. The digest was fractionated by gel filtration and DEAE-cellulose chromatography. Two glycopeptides were obtained. One of the glycopeptides (GP-I) contained 2 residues of N-acetylglucosamine and 6 residues of mannose per mole of the glycopeptide, while the other contained 2 sialic acid, 5 mannose, 2 galactose, and 3 N-acetylglucosamine residues per mole of glycopeptide. The results of sequential enzymatic digestion with purified glycosidases, periodate oxidation, and partial acid hydrolysis lead us to propose the following sturctures for the two glycopeptides: (see article). These glycopeptides represent at least 50% of the carbohydrate moiety of LDL.
Recent studies have demonstrated that the normal human testes, colon, and liver contain a substance that resembles hCG. To extend these findings, we examined aqueous extracts of a variety of normal human tissues for the presence of this material. The beta-hCG RIA, rat Leydig cell radioreceptor assay, and a newly developed, highly specific hCG RIA were used to measure hCG activity in a serial dilutions of the extracts. Detectable concentrations of the hCG-like material were found in 146 of the 149 individual tissue samples studied. Parallelism was noted between the hCG standard and serial dilutions of extracts of testis, ovary, pituitary, lung, liver, kidney, spleen, stomach, placenta, and some small intestinal tissue samples in the beta-hCG RIA, radioreceptor assay, and the highly specific hCG RIA. An absence of parallelism was found between extracts of nonpituitary tissues and LH in the beta-LH RIA. Pancreatic extracts altered the [125I]hCG used as the labeled ligand in these assays, which led to spurious results. Chromatography of the extracts on Concanavalin A-Sepharose columns revealed that the hCG-like materials from different tissues varied widely in their adsorbtion to Concanavalin A, possibly reflecting differences in their carbohydrate contents. These results indicate that an hCG-like substance is widely distributed throughout normal human tissues and further supports the concept that the fetal genome responsible for hCG production is not completely suppressed in adult tissues.
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