Showing papers on "Tartrate-resistant acid phosphatase published in 1987"

Characterization and assay of tartrate-resistant acid phosphatase activity in serum: potential use to assess bone resorption.

Abstract: We improved the spectrophotometric assay of tartrate-resistant acid phosphatase (TrACP; EC 3.1.3.2) activity in serum. During development of the assay we found that human serum contains a dialyzable, mixed-type noncompetitive inhibitor(s) of TrACP activity, the effects of which on the assay were substantially lessened by diluting the serum sample with water before assay and increasing the substrate concentration. Hemolysis releases into serum a significant amount of TrACP activity from erythrocytes, which can be inactivated by incubating the serum at 37 degrees C for 1 h before assay. Our improved assay was reproducible (CV = 5%), and measured within 10% of the amount of added bovine skeletal TrACP activity. Preliminary application of the assay revealed that the amount of serum TrACP activity in patients with skeletal diseases differed from normal values and changed in the same direction as the expected change in bone turnover, suggesting that TrACP activity in serum could be useful clinically as a marker of bone metabolism, possibly of bone resorption.

Tartrate-resistant acid phosphatase in bone and cartilage following decalcification and cold-embedding in plastic.

Abstract: Tartrate-resistant acid phosphatase (TRAP) has been proposed as a cytochemical marker for osteoclasts. We have developed an improved technique for the localization of TRAP in rat and mouse bone and cartilage. This procedure employs JB-4 plastic as the embedding medium, permits decalcification, and results in improved morphology compared with frozen sections. Peritoneal lavage cells were used to determine the appropriate isomer and concentration of tartrate necessary for inhibition of tartrate-sensitive acid phosphatase. After incubation in medium containing 50 mM L(+)-tartaric acid, osteoclasts and chondroclasts were heavily stained with reaction product. On the basis of their relative sensitivity to tartrate inhibition, three populations of mononuclear cells could also be distinguished. These three populations may represent: heavily stained osteoclast/chondroclast precursors; sparsely stained osteoblast-like cells lining the bone surface; and unstained cells of monocyte-macrophage lineage. Our results are consistent with the use of TRAP as a histochemical marker for study of the osteoclast.

Formation of multinucleated cells that respond to osteotropic hormones in long term human bone marrow cultures.

Abstract: Studies of osteoclasts and their precursors in normal and pathological states have been severely hampered by the lack of an in vitro system for forming osteoclasts. We developed a human marrow culture system in which multinucleated cells with several characteristics of osteoclasts form. Multinucleated cells began to form during the first week of culture, with maximum numbers formed after 3 weeks. PTH (25–50 ng/ml) and 1,25-dihydroxyvitamin D3 (10-10–10-8M) increased formation of these cells, and these effects were inhibited by calcitonin. These multinucleated cells contained nonspecific esterase and tartrate-resistant acid phosphatase, a marker enzyme of osteoclasts, and had several ultrastructural features of osteoclasts. We used this marrow cell culture technique to study a patient with hyperparathyroidism and markedly increased osteoclasts on bone marrow biopsy. The marrow from this patient formed increased numbers of multinucleated cells in vitro. After parathyroidectomy both multinucleated cell forma...

Antibodies to porcine uteroferrin used in measurement of human tartrate-resistant acid phosphatase.

Abstract: The immunological similarity between human tartrate-resistant acid phosphatase (EC 3.1.3.2) and porcine uteroferrin previously reported for the isoenzyme from spleens of patients with leukemic reticuloendotheliosis (Ketcham et al., J Biol Chem 1985;260:5768-76) has been confirmed for partly purified acid phosphatase found in the spleen of a patient with Gaucher's disease, and for the corresponding isoenzyme in other tissues and serum. Anti-uteroferrin antibodies raised in rabbits have been used to demonstrate the feasibility of their application in an immunoassay for tartrate-resistant acid phosphatase in serum.

Tartrate-resistant acid phosphatase in mononuclear and multinuclear cells during the bone resorption of tooth eruption.

Abstract: Tartrate-resistant acid phosphatase (TRAP) has been used as a cytochemical marker for the cell mediators of bone resorption, osteoclasts and their mononuclear precursors. We have applied a cytochemical method for TRAP to study the dependence of the osteoclast-mediated bone resorption of tooth eruption on the dental follicle, a connective tissue investment of the developing tooth, by analyzing the TRAP activity of mononuclear cells in the dental follicle before and during pre-molar eruption in dogs. The percentage of TRAP-positive monocyte cells increases until mid-eruption, slightly preceding a previously demonstrated rise in numbers of osteoclasts on adjacent bone surfaces. These data suggest an ontogenetic relationship between follicular mononuclear cells and osteoclasts on adjacent alveolar bone surfaces during tooth eruption. However, because TRAP occurs in other tissues and is not an exclusive indicator of pre-osteoclasts, proof of their relationship will have to await application of more definitive techniques.

Cytochemical localization of tartrate‐resistant acid phosphatase, alkaline phosphatase, and nonspecific esterase in perivascular cells of cartilage canals in the developing mouse epiphysis

Abstract: Cytochemical localization of tartrate-resistant acid phosphatase (TRAP), tartratc-sensitive acid phosphatases (TSAP), alkaline phosphatase, and nonspecific esterase was used to characterize perivascular cells within cartilage canals. In the distal femoral epiphyses of 5- to 7-day-old mice, three stages of canal development can be distinguished, and at each developmental stage different perivascular cells were present with morphological characteristics of degradative cells. Vacuolated cells resembling macrophages, fibroblastic cells, and chondroclasts were present adjacent to the matrix in superficial, intermediate, and deep canals, respectively. In order to characterize these perivascular cells cytochemically, nonspecific esterase and TSAP staining was used to identify macrophages, alkaline phosphatase staining was used to identify fibroblastic cells, and TRAP staining was used to identify chondroclasts. There were no cells present in the canals at any developmental stage that were positive for TSAP or strongly positive for nonspecific esterase, placing doubt on the identity of the vacuolated cells as macrophages. Alkaline phosohatase-positive perivascular cells were present in the intermediate and deep canals adjacant to matrix containing alkaline phosphatase-positive chondrocytes. These alkaline phosphatase-positive cells were found in the same location within canals as the fibroblastic cells. Tartrate-resislant acid phosphatase was localized in chondroclasts at the tips of deep canals but was not confined exclusively to chondroclasts. Except for the very early stage of canal development prior to chondrocyte hypertrophy, TRAP-positive cells were present at the tips of superficial and intermediate canals as well as at the tips of the deep canals. Additionally, the presence of TRAP in chondrocytes with in the growth plate, in chondrocytes within the epiphyseal cartilage near some canals, and in perichondrial cells suggests that TRAP is associated with matrix degradation in the cartilage.

Osteoclast generation from human fetal bone marrow in cocultures with murine fetal long bones. A model for in vitro study of human osteoclast formation and function.

Abstract: Osteoclast formation in vitro from human progenitor cells was studied in cocultures of periosteum-free murine long-bone rudiments and human fetal tissues. No osteoclasts were generated from chorionic villi or from fetal liver, but bone marrow and purified bone-marrow fractions gave rise to multinucleated cells that resorbed calcified cartilage matrix. These polykarya react very strongly for tartrate-resistant acid phosphatase (TrAP) and upon ultrastructural examination show large ruffled borders in areas of resorption. Resorption of murine calcified cartilage matrix by human osteoclasts was less than resorption by osteoclasts formed from murine fetal bone-marrow cells. Our results show that the murine long-bone rudiment can be used to generate osteoclasts from human sources of progenitor cells and to assess the biological activity of the formed osteoclasts. This coculture system thereby offers possibilities to study human osteoclast pathology in vitro. The use of TrAP as marker for osteoclasts in cell cultures is discussed.

Expression of tartrate-resistant acid phosphatase in bone marrow macrophages.

Abstract: Bone marrow macrophages were found to express tartrate-resistant acid phosphatase (TRAP) under pathological conditions. In chronic granulocytic leukemia and metastatic carcinoma in the bone marrow this phenomenon was striking, all or almost all of the marrow macrophages being reactive. In other conditions, such as hypertransfusion or chemotherapy-induced marrow aplasia, the phenomenon did occur but was clearly a minor one. These observations indicate that tissue macrophages may become TRAP positive under the effect of unknown stimuli operating in certain pathological conditions. The results further suggest that the synthesis of the isoenzyme of acid phosphatase resistant to tartrate inhibition is a marker of macrophage activation rather than of differentiation towards particular subsets of the mononuclear phagocyte system.

Acid and alkaline phosphatases activities in vascular smooth muscle: species differences and subcellular distribution.

Abstract: 1. 1. Acid and alkaline phosphatase activities were studied in rat and dog aortic muscle using p -nitrophenyl phosphate ( p -NPP) as the substrate. Alkaline phosphatase activity was quite comparable to acid phosphatase activity in rat aortic microsomes as well as further purified plasma membranes, but considerably lower than acid phosphatase activity in dog aortic membranes. 2. 2. Subcellular distribution of acid and alkaline phosphatase activities in these vascular muscles indicated that alkaline phosphatases and a large portion of acid phosphatase activities were primarily associated with plasma membranes and the distribution of acid phosphatase showed little resemblance to that of N -acetyl- β -glucosaminidase, a lysosomal marker enzyme. 3. 3. The rat aortic plasmalemmal acid and alkaline phosphatase activities responded very differently to magnesium, fluoride, vanadate and EDTA. The alkaline phosphatase was more susceptible to heat inactivation than acid phosphatase. 4. 4. These results suggest that these two phosphatases are likely to be two different enzymes in the smooth muscle plasma membranes. The implication of the present findings is discussed in relation to the alteration of these phosphatases in hypertensive vascular diseases.

Recombinant interferon alpha-2 modulates hairy cell phenotype "in vitro".

Abstract: The "in vitro" effect of IFN-alpha on the phenotypic profile of atypical cells from 5 hairy cell leukemia patients was investigated in a 72 hr culture assay. Cytochemical investigations revealed a dramatic decrease in the cytoplasmic content of acid phosphatase and tartrate resistant acid phosphatase in the absence of any apparent morphological modification. Flow cytometry showed that IFN-alpha markedly reduced the density of surface Ig without modifying the original isotype pattern. The expression of the receptor for the Fc fragment of IgG was also reduced. The class II MHC antigen recognized by the monoclonal antibody 12 remained essentially unchanged. Hairy cells were negative for OKT10 and PCA-1 and remained so after IFN-alpha incubation. Present data indicate that IFN-alpha is able to consistently and selectively affect membrane and cytoplasmic features of hairy cells in a short term period. The possibility is envisaged that these changes may be related to the therapeutic efficacy of IFN-alpha.

Clinical significance of tartrate-sensitive and tartrate-resistant acid phosphatase indicated from the study of their biosynthetic mechanism.

Abstract: The tartrate-sensitive prostatic acid phosphatase, bands 2 and 4, are found in the soluble cytosol, and absent in the polysome of the prostate, while the tartrate-resistant acid phosphatase band 5 is present in the polysome and the soluble cytosol of hairy cells. The mRNA isolated from the prostate catalyzes the incorporation of 3T leucine into a protein different from that of bands 2 and 4. On the other hand, the mRNA isolated from the hairy cells catalyzes the incorporation of 3T leucine into band 5. The different biosynthetic mechanism of these two types of acid phosphatases are discussed in light of their different clinical significance.