Showing papers on "Tartrate-resistant acid phosphatase published in 1983"

Inhibition by dithionite and reactivation by iron of the tartrate-resistant acid phosphatase in bone of osteopetrotic (ia) rats.

Abstract: The staining intensity and inhibitor sensitivity of acid phosphatase activity was determined histochemically in various tissues of normal and ia rat pups by the use of freeze-dried whole body sections. Activity was determined using alpha-naphthylphosphate as substrate and hexazonium pararosaniline as coupler. Sections from ia rats (6 and 24 days old) showed markedly higher enzyme activity in bone than sections from normal littermates. However, there were no differences between ia and normal pups in acid phosphatase activity in soft tissues and developing teeth. Preincubation of sections with 1-100 mM sodium dithionite (an iron-binding agent) caused a dose-related inhibition of enzyme activity in bone of ia and normal pups, but only slight inhibition of activity in soft tissues. Partial restoration of the dithionite-inhibited activity in bone was achieved by subsequent preincubation in 1 mM FeCl2. Addition of 100 mM sodium tartrate to the staining solution of non-preincubated sections caused almost complete inhibition of activity in soft tissues and the developing teeth but no inhibition of the activity in bone that was sensitive to sodium dithionite. These data indicate a) that sodium dithionite can be used as a specific histochemical inhibitor of the tartrate-resistant acid phosphatase and b) that the source of increased acid phosphatase activity in bone from ia rats is mostly from the tartrate-resistant acid phosphatase.

Cellular enzyme activity associated with tissue degradation following orthodontic tooth movement in man.

Abstract: Enzyme histochemical techniques were used as markers of macrophage activity and differentiation in the periodontal tissues following orthodontic tooth movement in man. The enzymes studied included lactate dehydrogenase, glucose-6-phosphate dehydrogenase, succinic dehydrogenase, acid phosphatase and its tartrate resistant isoenzyme, arylsulfatase, aminopeptidase M and prostaglandin synthetase. Chloroacetyl esterase activity was studied in order to detect possible neutrophilic degrading activity. Intense activities of arylsulfatase and prostaglandin synthetase and a moderate activity of aminopeptidase M were found in cells degrading the hyaline zone. However, no activity of tartrate resistant acid phosphatase was found in these cells. Giant cells in contact with bone surfaces adjacent to the hyaline zone exhibited an intense activity of succinic dehydrogenase, tartrate resistant acid phosphatase and aminopeptidase M. Chloroacetyl esterase activity did not change following orthodontic treatment. The results indicate that macrophages in various stages of differentiation were responsible for the degradation of the hyaline zone and alveolar bone during orthodontic tooth movement. The enzymatic differences were probably due to the influence of the immediate cellular environment. Prostaglandin synthetase activity, which may be interpreted as a sign of prostaglandin secretion, was associated with the degradation of the hyaline zone in man.