The catabolism of plasma glycoproteins in normal and injured rats

The catabolism of (14)C-labelled plasma glycoprotein in rats was studied after injecting homologous plasma protein labelled in the N-acetylglucosamine and sialic acid moieties. In normal animals the catabolism was approximately described by a four-compartment model. The fractional rate of catabolism of the plasma-protein amino sugar was found to be 0.0305hr.(-1), corresponding to the degradation of 2.75mumoles/hr. The (14)C label was eliminated from the animals largely as carbon dioxide with a small proportion appearing in the urine. Freely circulating amino sugars or glycopeptides did not appear in the plasma as a result of the catabolic processes, and there was no evidence that the protein-bound amino sugars were reutilized in biosynthetic processes. A study of the distribution of (14)C label in the carcasses of animals 24hr. after injection provided evidence that the gastrointestinal tract accounted for 25-38% of the total catabolic pool; the lungs, kidneys, spleen and liver also appeared to contribute to catabolism. Studies were conducted with rats that had been treated with turpentine to induce an inflammatory reaction; the results could not be analysed kinetically, since the metabolism of plasma proteins in these animals did not appear to be in a steady state. The injected plasma protein disappeared from the intravascular pool more quickly than in normal animals, but there were no significant differences in the rates of excretion of the (14)C label.     

Nitrogenase activity in extracts of heterocystous and non-heterocystous blue-green algae

Summary Cell-free extracts capable of acetylene reduction and cyanide reduction have been prepared from heterocystous (Anabaena cylindrica) and non-heterocystous (Plectonema boryanum 594) blue-green algae. Extracts from Anabaena were obtained from cultures grown in blulk under aerobic conditions, while the Plectonema cultures were grown in bulk on nitrate-nitrogen, then washed free from nitrate and sparged with A/CO₂ for 40 h after which time maximum nitrogenase activity was detected. The nitrogenases of both algae are similar and resemble in many respects nitrogenases from bacteria and legumes. Activity is located primarily in a 40,000xgx15 min supernatant fraction and the rate of C₂H₂ reduction observed is about 10 per cent of whole cell activity. ATP and a source of reducing power (Na₂S₂O₄) are required for efficient functioning of the enzyme. ATP-dependent hydrogen evolution occurs, the extracts are cold labile and highly sensitive to oxygen and the oxygen inhibition is irreversible.     

In vitro differentiation of rabbit blastocyst cells

Summary Six- and seven-day post-coitus (p.c.) rabbit embryos have been cultured in an attempt to establish a trophectodermal cell line. Results indicate that cells with epithelial characteristics (i.e. positive staining for cytokeratin) will survive in culture until Passage 3. At that time a fibroblastlike cell becomes predominant. In addition, we have found that the presence of the inner cell mass is required for embryo explants often results in the development of cells that spontaneously contract. These cells stain positively for myosin, which indicates that they may be precardiac cells. Maximum diastolic potential was −59±1.2 mV and the threshold potential was −53±2.3 mV. Spontaneously contracting cells did not respond to atropine, acetylcholine, epinephrine, isoproterenol, or propranolol. Action potential seems to be a result of an inward calcium current, because the beating rate is decreased in a dose-related manner with the calcium channel blocker verapamil, whereas the voltage-sensitive sodium channel blocker tetrodotoxin was without effect. This work was supported by grants HD21302, HD07069, DK31091, and HL37320 from the National Institutes of Health, Bethesda, MD, with additional support from a University of Alabama at Birmingham Cardviovascular Research and Training Center Award.     

A cell-based reporter assay for the identification of protein kinase C activators and inhibitors

Transmission of extra cellular signals across biological membranes results in the generation of lipid metabolites which in turn influence specific cellular events such as cell growth or differentiation. Many of these lipid messengers can activate protein kinase C (PKC) isozymes of which one function is to perpetuate the extracellular signals to the nucleus by phosphorylating other targets proteins. We have engineered mammalian cell lines to identify and evaluate activators and inhibitors of PKC-dependent and independent signal transduction pathways. The A31 mouse fibroblast cell line, has been stably transfected with a construct containing a triplet repeat of the TPA response element (TRE) upstream of a thymidine kinase promoter fused to the human growth hormone (hGH) gene. A31 cells containing this reporter construct exhibit significant increases in hGH secretion following stimulation by phorbol esters or other mitogens. The levels of hGH secretion are modulated in this system using different pharmacological agents. We demonstrate that this assay can be used to identify specific and general inhibitors as well as activators of the signal transduction pathway mediated by PKC isozymes. (Mol Cell Biochem141: 129–134, 1994)