The presence of a human chorionic gonadotropin-like protein and its binding site in Saccharomyces cerevisiae

L-Thyroxine induces thermotolerance in yeast

The cellular stress response (CSR) is a universal inducible reaction modulated, among others, by heat, drugs, and hormones. We aimed to investigate the role of L-thyroxine (T4) on the heat shock (HS) response in Saccharomyces cerevisiae. The CSR was evaluated by determining growth and viability of post-logarithmic phase grown yeast cultures after HS at 53 °C for 30 min. We found that long-term T4 exposure can induce a dose-dependent and Hsp90 and H+ trafficking-related thermotolerance in yeast.

Co-purification of a ribonuclease and human chorionic gonadotrophin beta-core protein from human urine and displacement of 125I-human luteinizing hormone from Candida albicans binding sites by ribonucleases

An 18 kDa pregnancy urine protein preparation, purified to apparent electrophoretic homogeneity as judged by silver-staining of polyacrylamide gels, inhibited binding of 125I-hLH (human luteinizing hormone) to Candida albicans microsomes, reacted with monoclonal and polyclonal antibodies raised against human chorionic gonadotrophin (hCG) beta-core protein and exhibited ribonuclease (RNase) activity. Eleven of the 12 amino acids at the N-terminus of a protein in this preparation were identical to those of the N-terminus of human non-secretory ribonuclease. These results indicate co-purification of hCG beta-core with a RNase. An 18 kDa RNase was also purified from a commercial hCG preparation (Chorulon). However, no RNase activity was detected in a highly purified commercial preparation (Profasi). Three commercial RNase preparations displaced 125I-hLH from C. albicans binders at extremely low concentrations (< 0.001 microg/ml RNase) whereas only slight displacement of 125I-hLH from sheep luteal binding sites was observed with very high concentrations of the RNases (100 microg/ml RNase). The co-purification of hCG beta-core and RNase from pregnancy urine and the displacement of 125I-hLH from C. albicans binding sites by RNases may be related to the close relationship that has been identified between mammalian RNase inhibitors and the extracellular domain of gonadotrophin receptors. The presence of RNase in commercial preparations of gonadotrophins should be borne in mind during any investigations that involve impure preparations of these hormones.

The role of carboxy-terminal portion of beta subunit of human chorionic gonadotropin in human immunodeficiency virus infection

Human chorionic gonadotropin (hCG) and the beta subunit of this dimer glycoprotein hormone (beta hCG) have been reported by us to inhibit HIV replication. In order to identify the active site responsible for the antiviral activity, twelve overlapping peptides spanning across beta hCG were examined for their effect against HIV-caused cell death. Although the NH2-terminus of beta hCG appeared to contribute to activity, the core region was biologically inert. The most potent activity was observed with the fragment representing the carboxy-terminus of beta hCG. The dose response curve to serial dilutions of the peptide, containing amino acid residues 106-145, had a bell-shaped appearance - characteristic of hCG and beta hCG. The peak of activity corresponded to 100 ng/ml - the dose at which two thirds of virus-exposed MT-4 T lymphocytes survived. None of the tested peptides were toxic to MT-4. While the mechanism of action remains unclear, the results suggest that the COOH-terminal portion, unique to beta hCG, confers anti-HIV activity.