Attachment of fibroblasts to a polyanionic surface promoted by adenosine and prostaglandin E1

Genetic heterogeneity at the locus for hypoxanthine-guanine phosphoribosyltransferase

The purine phosphoribosyltransferases have emerged as important enzymes in the metabolic economy of the developing human. Hypoxanthine-guanine phosphoribosyltransferase (HGPRT, EC 2.4.2.8) catalyses the conversion of hypoxanthine and guinine into their respective nucleotides. Inherited variation in HGPRT first became evident through clinical observations with the definition of the Lesch-Nyhan syndrome. In this disorder, HGPRT activity in erythrocytes is almost zero, although the fact that sensitive electrophoretic analysis reveals a tiny amount of activity suggests that a protein of altered structure is present. Furthermore, this variant enzyme has been activated by manipulation in the presence of small amounts of normal enzyme. Nevertheless, no cross-reacting material could be detected in lysates of red cells or fibroblasts of patients with the syndrome when tested with antiserum prepared in rabbits to normal erythrocyte HGPRT. We have tested for the presence of cross-reacting material in 18 patients, and all were negative. More HGPRT variants are coming to light. Most of the patients have renal stone disease or gout but no other feature of the Lesch-Nyhan syndrome. In one family four affected males displayed about 5% of normal activity, and the enzyme migrated electrophoretically more rapidly than normal. Cross-reacting material could not be demonstrated in erythrocyte lysates, although it was clear that a variant protein was present. A boy with renal stone disease has been found to have about 1% of normal erythrocyte activity of HGPRT. Cross-reacting material was found in his erythrocytes. The data indicate that mutations which produce diminished enzyme activity in this protein with a distinct subunit structure may or may not so alter the tertiary state of the protein that immunoreactive sites are no longer available to antibody prepared against the normal enzyme. So far whenever a variant normal HGPRT has been found there has been an identifiable clinical illness. The different forms of illness provide for correlation of molecular structure and function in man.

Effect of glycosaminoglycans on fibronectin-mediated cell attachment

In this study, the role of glycosaminoglycans in fibronectin-mediated cell attachment to collagen has been investigated. While it has been established that fibronectin possesses binding sites for several glycosaminoglycans, it was found that only dextran sulfate and macromolecular heparin could decrease the initial rate of cell attachment to collagen. Low molecular weight heparin was inactive. This study suggests that the glycosaminoglycan binding site of fibronectin plays a role in the mechanism of cell attachment.

Inhibition of sugar uptake in adenosine-treated 3T3 cells

Addition of 5 to 250 micromolar adenosine to the culture medium resulted in a 30-80% inhibition of the rate of uptake of 2-deoxyglucose or 3-0-methylglucose by sparse or confluent 3T3 cells within three hours. The inhibition of deoxyglucose uptake could be reversed partially by changing the cells to medium without adenosine for two hours and could be prevented completely by the addition of persantin, an inhibitor of nucleoside uptake. The adenosine effect is not due to inhibition of pyrimidine synthesis, since it is not prevented by uridine. It is not seen in 3T6 cells lacking adenosine kinase. The inhibition could be observed on confluent cells whose deoxyglucose uptake was stimulated by insulin, epidermal growth factor (EGF), calf serum or calcium phosphate. Although the percentage stimulation over control by these factors varied, the percentage inhibition by addition of adenosine of the stimulated rates, as well as the unstimulated rate, was relatively constant. EGF, insulin and calcium phosphate caused little or no stimulation of deoxyglucose uptake by sparse cells, whether adenosine treated or untreated. The results suggest that adenosine acts intracellularly after phosphorylation to regulate sugar uptake through a mechanism which is independent of the regulation by hormones and cell density.

Stimulatory effect of prostaglandins on the production of hexosamine-containing substances by cultured fibroblasts (3) induction of hyaluronic acid synthetase by prostaglandin F2alpha

The mechanism of the stimulatory effect of prostaglandin(PG)F2alpha on the production of hexosamine-containing substances by cultured fibroblasts was studied. Treatment of the cells with 1 microgram/ml of PGF2alpha resulted in a doubled net synthesis of acidic glycosaminoglycans during 20 hrs measured with uronic acid as index, and also resulted in 300 per cent increase of 3H-glucosamine incorporation into hexosamine-containing substances during the first 6 hrs. Fractionation of the PGF2alpha-stimulated hexosamine-containing substances with double isotope technique revealed that hyaluronic acid was the most stimulated component. Prior to the increase of hyaluronic acid, hyaluronic acid synthetase activity was found to be augmented by PGF2alpha as high as 4 times over the control. The augmentation of hyaluronic acid synthetase activity by PGF2alpha did not take place if actinomycin D was simultaneously present in the culture medium, suggesting that PGF2alpha induced the enzyme.