Tartrate-resistant acid phosphatase is not an exclusive marker for mouse osteoclasts in cell culture

The method of Barka and Anderson was used for the demonstration of tartrate-resistant acid phosphatase (TRAcP) in cultures of bone marrow, spleen, lung, and peritoneal cells of the mouse. The staining was performed either in the usual way by adding both substrate (naphthol-AS-BI-phosphate) and coupler (hexazonium pararosanilin) together (the simultaneous-coupling technique) or by adding first the substrate and then the coupler (the post-coupling technique). We measured TRAcP-activity fluorometrically after extraction of the product naphthol-AS-BI, using the same staining solution as in cytochemical method, but without the coupler. In bone marrow, spleen, lung, and peritoneal cell cultures a biochemically measurable TRAcP-activity was detected. Post-coupling generally gave a higher level of staining and larger numbers of TRAcP-positive cells than simultaneous-coupling. In bone marrow cultures macrophages, identifiable by their ability to phagocytose microspheres, became TRAcP-positive during culture. In lung cell cultures cells capable of phagocytosis of bacteria were shown to be TRAcP-positive. Peritoneal macrophages remained TRAcP-negative in the simultaneous-coupling technique. Using the post-coupling technique a small number stained TRAcP-positive. In spleen cell cultures TRAcP-positive cells containing hemosiderin were visible. In cultures of all four cell types, F4/80 positive cells staining also for TRAcP were present. F4/80 is a well known marker for macrophages, whereas osteoclasts are negative. In conclusion, mouse macrophages originating from various tissues can become TRAcP-positive in vitro. TRAcP activity alone is not a reliable marker for osteoclasts in bone marrow cultures.

Interspecific variation in the emetic response of anurans

1. The emetic response of seven species (four genera) of frogs to apomorphine hydrochloride, copper sulfate, antimonyl potassium tartrate and mechanical stimulation at the esophageal orifice was surveyed. Xenopus laevis and Rhacophorus schlegelii were more sensitive to systemically administered apomorphine than were the other species tested. 2. The sensitivity of Rana rugosa to apomorphine varied with the season. 3. All of the species showed vigorous vomiting behavior after the oral administration of either copper sulfate or antimonyl potassium tartrate. 4. Mechanical stimulation also induced vomiting in all species. Although the species differed in sensitivity to the different emetic stimulants, the adaptive significance of this interspecific variation is not known. 5. From the stand point of the mechanics for ejecting gastric contents, there is little difference between frogs and mammals. 6. Frogs, particularly Xenopus laevis, may be a useful non-mammalian model for studying emesis.

[Biological profile of tartrate-resistant acid phosphatase as a marker of bone resorption]

Tartrate-resistant serum acid phosphatase was measured in 123 subjects, 80 of which were normal and the rest pathologic, in order to define the profile and value of this parameter as a biological marker of osteoclastic activity. Normal subjects were divided into age groups based on the period where skeletal growth ends (under 20 years), at the age of menopause in women (50 years, between 20 and 50 years) and those over 50 years. There was an increase in tartrate-resistant serum acid phosphatase coinciding with puberty and no sex differences were observed after the 50 year mark, when women showed higher values than men (p less than 0.001). Such tartrate-resistant serum acid phosphatase increase, is reflected as higher values in the 50 year group than in the 20 to 50 year group (p less than 0.001), the only age limit where a negative significant correlation between tartrate-resistant serum acid phosphatase values and age could be observed (p less than 0.05). Values were higher up to the age of 20 years (p less than 0.001) than in any other older age group. Levels increased significantly (p less than 0.001 for both groups) in post-menopausal osteoporosis (n = 20) and in Paget's disease of bone (n = 15), and decreased significantly (p less than 0.05) in imperfect osteogenesis (n = 8), thus revealing its value as a biological marker of osteoclastic activity.

Biochemical changes in kidneys of normal and stone forming rats with L(+)-tartrate

Influence of L(+)-tartrate was studied on certain enzymes, protein bound carbohydrates and lipids in the renal tissues of experimentally induced stone forming rats. The elevation in kidney LDH was moderate in the stone forming groups while tartrate had no effect. The significant increases in the activities of (Na+, K+)- and (Ca2+)-ATPases in the calculogenic group was lowered to that of normal level with tartrate administration. Acid phosphatase activity was significantly lowered in the tartrate treated groups. The significant reduction in phospholipids and elevation in sialic acid levels during stone formation are suggestive of minor alterations in the cellular structure. The changes in the transport ATPases is likely to affect the transport mechanism of nutrients and ions.

Ultrastructural localization of a tartrate-resistant acid ATPase in bone

Osteoclasts are effector cells in bone breakdown, and the active bone resorption is confined to the ruffled border zone of these cells. An acid milieu is maintained in this zone which is probably a prerequisite for bone resorption. Tartrate-resistant acid phosphatase (TRAP) activity has been recognized as a characteristic property of osteoclasts and in several studies proposed as a cytochemical marker of osteoclasts. We have previously isolated and characterized a tartrate-resistant and iron-activated acid ATPase (TrATPase) from rat bone, the enzyme being a member of the TRAP family. In the present study the ultrastructural localization of this enzyme was delineated by employing immunogold technique on low temperature-embedded maxillar rat bone. Intensive immunolabeling was seen on the bone surfaces facing the ruffled border zone while lower amounts of marker were seen in adjacent bone areas, that is, on the bone surfaces facing the clear zone and deeper-into the bone. Within the osteoclasts gold markers were observed mainly in vesicular structures interpreted as lysosomes. Immunolabeling was also observed in the recently described endocytic cells located near osteoblasts and osteoclasts. Also in these cells, the marker was confined to lysosomelike structures. The amount of label in bone facing osteoblasts was low, as was the amount within osteoblasts. Our observation of extracellular localization, in particular accumulation of TrATPase in bone matrix facing the ruffled border area of the osteoclasts, favors the view that the enzyme is exported to areas of active bone resorption, thereby indicating a potential role for the enzyme in this process.

Purification and characterization of a tartrate-sensitive acid phosphatase of Trypanosoma brucei

In search for invariant surface proteins in Trypanosoma brucei bloodstream forms, acid phosphatase was investigated. Earlier work had shown that part of the cellular phosphatase activity is associated with the flagellar pocket of the parasite. It is demonstrated that T. brucei contains at least two membrane-bound enzymes, one is sensitive to the inhibitor L-(+)-tartrate while the other is resistant. The tartrate-sensitive phosphatase was purified to homogeneity by monoclonal antibody affinity chromatography and shown to be a glycoprotein of low abundance (13,000 molecules/cell). It has an apparent molecular weight of 70,000 Da. The usefulness of acid phosphatase as a marker for characterizing the membrane lining the flagellar pocket is discussed.

Intracellular regulation of enzyme secretion from rat osteoclasts and evidence for a functional role in bone resorption

1. Osteoclasts are known to secrete acid phosphatase, an iron-containing phosphohydrolase. We have investigated (a) the possibility that acid phosphatase has a functional role in bone resorption and (b) the factors controlling enzyme secretion from isolated rat osteoclasts. 2. Osteoclasts were freshly disaggregated from neonatal rat long bones and dispersed at low densities on devitalized cortical bone slices or on plastic substrate. The levels of acid phosphatase in culture medium were measured spectrophotometrically using 4-nitrophenyl phosphate as hydrolysable substrate. The total plan area of bone resorbed was quantified by scanning electron microscopy in combination with image processing and analysis. 3. Ninety-three per cent of the total enzyme activity detected in the supernatant exposed to bone-osteoclast preparations was resistant to inhibition by D-tartaric acid and was bound to an antibody known to be highly specific for the osteoclast-derived isoenzyme, showing that it originated from osteoclasts. 4. A diminution in the level of supernatant enzyme activity achieved by incubating bone-osteoclast preparations with an antiserum specifically binding the osteoclast isoenzyme, or with a non-competitive inhibitor, molybdate or with competitive inhibitors, disphosphonates, led to a marked reduction of osteoclastic bone resorption. 5. The rate of the enzyme released into the culture supernatant, whether from resorbing (cultured on bone) or non-resorbing (cultured on plastic) osteoclasts declined gradually over 22 h, but that from the former was significantly depressed within the first 30 min of incubation. The supernatant enzyme concentration increased linearly up to 3 h; the levels released from resorbing osteoclasts remained consistently lower than those from non-resorbing cells. 6. Exposure of osteoclasts for 18 h to elevated [Ca2+]o levels produced a concentration-dependent inhibition of supernatant acid phosphatase levels. In the presence of 20 mM [Ca2+]o enzyme secretion from resorbing osteoclasts was significantly lower than that from non-resorbing cells. 7. Exposure of bone-osteoclast preparations to pertussis toxin produced no significant change of acid phosphatase release, while cholera toxin, dibutyryl cyclic AMP and forskolin produced a marked elevation of enzyme secretion. Ionomycin was found to inhibit enzyme release and this was less marked when osteoclasts were incubated on plastic substrate.(ABSTRACT TRUNCATED AT 400 WORDS)

Proliferation of tartrate-resistant acid phosphatase positive multinucleate cells in ovariectomized animals

In order to explore why ovarian hormone deficiency causes excessive osteoclastic bone resorption that results in osteoporosis in a large number of postmenopausal women, bone marrow cells from ovariectomized and sham-operated female mice were cultured for 8 days. The cells gave rise in culture to tartrate-resistant acid phosphatase-positive multinucleate cells. The formation of these osteoclast-like cells was enhanced by parathyroid hormone and 1,25(OH)2vitamin D3, with the latter being more effective. Cultures of cells from ovariectomized animals formed significantly more tartrate-resistant acid phosphatase-positive multinucleate cells than those from sham-operated controls. These findings support the hypothesis that ovarian hormone deficiency promotes the expansion of a pool of marrow-derived progenitor cells that differentiate into bone-resorbing osteoclasts under the influence of osteotropic hormones.

Differential androgen modulation of acid phosphatase isozymes in primary cultures of rat ventral prostate epithelial and stromal cells

The influence of androgen on prostate differentiated cell function was investigated using primary cultures of rat ventral prostate epithelial and stromal cells developed from sexually immature animals (21 days of age). As a biochemical marker of androgen action, total acid phosphatase activity, which comprises both the secretory and lysosomal isoforms, was measured. Testosterone increased total acid phosphatase activity approximately 2-fold in epithelial cell cultures. This increase occurred only after the cessation of cell proliferation (i.e. upon reaching a confluent monolayer). In contrast, stromal cells showed no significant change in total acid phosphatase activity in response to androgen. Polyacrylamide gel isoelectric focusing of total acid phosphatase activity from epithelial and stromal cell extracts revealed that secretory acid phosphatase activity was localized exclusively in the epithelial cells while lysosomal acid phosphatase activity was present in both cell types. Furthermore, the androgen-induced increases in epithelial total acid phosphatase activity were found to result from increases in the secretory isoform.

Tartrate resistant acid phosphatase positive splenic lymphoma: a relatively benign condition occurring in a time-space cluster?

Conventional light and electron microscopic studies, together with cytochemical and immunocytochemical staining procedures, were carried out to ascertain whether the lymphomata of four elderly female patients living within 10 kilometers of each other, who presented within a short space of time with massive splenomegaly and varying cytopenia, belonged to any particular subgroup of lymphoma. In each case the lymphoma had a diffuse pattern and mature B cell phenotype. The malignant cells were of uniform cell type, slightly larger than admixed polymorphonuclear leucocytes, and showed minimal nuclear irregularity and positivity for tartrate resistant acid phosphatase (TRAP) staining. Their clinical and morphological features were compared with those of other lymphoproliferative disorders, but while sharing some features in common with each condition, this small group of patients seemed to have a unique combination of findings. The cytopenias of all four responded well after removal of the spleen and their disease has not been aggressive. It is concluded that these patients have a distinct subgroup of lymphoma, which it is important to recognise so that inappropriate use of aggressive cytotoxic drugs can be avoided.

Origin of osteoclasts: mature monocytes and macrophages are capable of differentiating into osteoclasts under a suitable microenvironment prepared by bone marrow-derived stromal cells

We previously reported that osteoclast-like cells were formed in cocultures of a mouse marrow-derived stromal cell line (ST2) with mouse spleen cells in the presence of 1 alpha, 25-dihydroxyvitamin D3 and dexamethasone. In this study, we developed a new coculture system to determine the origin of osteoclasts. When relatively small numbers of mononuclear cells (10(3)-10(5) cells per well) obtained from mouse bone marrow, spleen, thymus, or peripheral blood were cultured for 12 days on the ST2 cell layers, they formed colonies with a linear relationship between the number of colonies formed and the number of hemopoietic cells inoculated. Tartrate-resistant acid phosphatase (TRAPase)-positive mononuclear and multinucleated cells appeared in the colonies (TRAPase-positive colonies) in response to 1 alpha, 25-dihydroxyvitamin D3 and dexamethasone. When hemopoietic cells suspended in a collagen-gel solution were cultured on the ST2 cell layers to prevent their movement, TRAPase-positive colonies were similarly formed, indicating that each colony originated from a single cell. All of the colonies consisted of nonspecific esterase-positive cells. The monocyte-depleted population prepared from peripheral blood failed to form colonies, whereas the monocyte-enriched population produced a large number of TRAPase-positive colonies. In addition, alveolar macrophages formed TRAPase-positive colonies most efficiently on the ST2 cell layers in the presence of the two hormones. Salmon 125I-labeled calcitonin specifically bound to the TRAPase-positive cells. Resorption lacunae were formed on dentine slices on which cocultures were performed. When direct contact between the peripheral blood cells and the ST2 cells was inhibited by a collagen-gel sheet, no TRAPase-positive cells were formed. These results indicate that osteoclasts are also derived from the mature monocytes and macrophages when a suitable microenvironment is provided by bone marrow-derived stromal cells.

Comparison of tartrate resistant acid phosphatase in a giant cell bone tumor and a spleen infiltrated with hairy cells

Acid phosphatase (E.C.3.1.3.2) in a giant cell bone tumor and a spleen infiltrated with hairy cells was extracted by citrate buffer and then by 0.3 mol/L NaCl. The cationic acid phosphatase in the crude extract was isolated by CM-cellulose chromatography, and further separated by high pressure liquid chromatography. The majority of the tartrate resistant acid phosphatase in the hairy cell spleen was unabsorbed on CM-cellulose and was insensitive to iron. A much larger portion of the acid phosphatase in the bone tumor, than in the spleen, was cationic and was eluted from the column by 0.8 mol/L NaCl. The cationic acid phosphatase was further separated into consecutive peaks of acid phosphatases with different sensitivity to iron. A major portion of acid phosphatase in the giant cell bone tumor was enhanced by iron, while the amounts of iron-enhanced and iron-insensitive acid phosphatase were about the same in the spleen. The differences of the phosphatases in these two types of pathologic specimens indicate the occurrence of two types of enzymes with different biological significance.

Development of an immunoassay for human serum osteoclastic tartrate-resistant acid phosphatase

A tartrate-resistant acid phosphatase (TrACP), which has been suggested to be very similar to the osteoclastic TrACP, was partially purified from the spleen of a patient with hairy cell leukemia. The purification procedure consisted of carboxymethyl-Sepharose, phosphocellulose, Sephacryl S-200, and phenyl-Sepharose chromatographies. Polyclonal antibodies were generated in guinea pigs with a titer of at least 1:6000. Immunohistochemical staining of fetal rat tibia with the antisera revealed that only the lysosomes of osteoclasts, but not osteoblasts, were stained. An enzyme-linked immunosorbent assay (ELISA) was developed with the antisera. There was no cross-reactivity with 1) partially purified acid phosphatases (ACPs) from normal human and beef spleens, 2) ACPs in extracts of human osteoblastic cells, 3) purified bovine bone matrix TrACP, or 4) commercial prostatic ACP. However, extracts of giant cell bone tumors, containing large amounts of bona fide osteoclasts, showed large amounts of cross-reactive material, which diluted in parallel with the partially purified hairy cell leukemic TrACP in the ELISA. Commercial serum band 5b TrACP also displaced in parallel with the partially purified hairy cell leukemic TrACP. Immunoblotting studies revealed that the antiserum, but not nonimmune guinea pig serum, reacted with the homogeneous hairy cell leukemia splenic band 5 TrACPs, which were recently purified by our laboratory. Preliminary application of the ELISA to sera of patients with metabolic bone diseases revealed that normal healthy individuals had measurable amounts of the immunoreactive material, and patients with Paget's disease or hyperparathyroidism, who should have high bone turnover, had elevated levels of this immunoreactive material in their sera. In contrast, the level of serum osteoclastic TrACP in a patient with an acute lymphatic leukemia was normal. In summary, 1) we have shown that hairy cell leukemia splenic TrACP shares significant immunological similarity with the osteoclastic TrACP and with the serum band 5b TrACP, and 2) the ELISA holds promise for a sensitive and specific assay for bone resorption.

Histochemistry and biochemistry of tartrate-resistant acid phosphatase (TRAP) and tartrate-resistant acid adenosine triphosphatase (TrATPase) in bone, bone marrow and spleen: implications for osteoclast ontogeny

In order to evaluate the usefulness of a recently described acid ATPase as a marker for osteoclast differentiation, we have performed histochemical and biochemical analyses of the distribution of tartrate-resistant acid phosphatase (TRAP) and tartrate-resistant acid ATPase (TrATPase) in bone, bone marrow and spleen. Histochemical studies of bone demonstrated that multinucleated osteoclasts stained for both TRAP and TrATPase. However, staining for TRAP covered the entire cytoplasm, whereas TrATPase staining was localized primarily to cytoplasmic areas next to bone and on adjacent mineralized surfaces. Occasionally TrATPase-positive mononuclear cells were observed on excavations in the bone surface. In the spleen, mononuclear TRAP-positive cells were located in the marginal zone between the white and red pulp, whereas no staining for TrATPase was observed. Comparison of the biochemically measured TRAP and TrATPase activities showed that bone had the highest specific activity for both enzymes followed by the bone marrow and spleen. However, enzyme activity in the spleen compared to bone was about 4-fold higher for TRAP compared to TrATPase. Additional evidence for a restricted expression of TrATPase to bone relative to spleen was obtained by in vitro translation studies. These data indicate that TrATPase is a more selective marker than TRAP in histochemical and biochemical studies of osteoclast differentiation and furthermore suggest that development of TrATPase is a late acquisition in osteoclast ontogeny.

Human bone cell enzyme expression and cellular heterogeneity: correlation of alkaline phosphatase enzyme activity with cell cycle

Alkaline phosphatase, long implicated in biomineralization, is a feature of the osteoblast phenotype. Yet in cultured bone cells, only a fraction stain positive histochemically. To determine whether osteoblast enzyme expression reflects cellular heterogeneity with respect to cell cycle distribution or length of time in culture, the activities of alkaline phosphatase, tartrate-resistant and -sensitive acid phosphatases, and non-specific esterases were assayed kinetically and histochemically. In asynchronous subconfluent cultures, less than 15% of the cells stained positive and assayed activity was 0.04 IU/10(6) cells/cm2. After 1 week, the percent of alkaline phosphatase positive-staining cells increased 5-fold, while activity increased 10-fold. Non-specific esterases and tartrate-sensitive acid phosphatase were constitutive throughout time in culture, whereas tartrate-resistant acid phosphatase activity appeared after 2 weeks. Cell cycle analysis of human bone cells revealed a growth fraction of 80%, an S phase of 8.5 h, G2 + 1/2 M of 4 h, and a G1 of 25-30 h. In synchronous cultures induced by a thymidine-aphidicolin protocol, alkaline phosphatase activity dropped precipitously at M phase and returned during G1. A majority of the alkaline phosphatase activity lost from the cell surface at mitosis was recovered in the medium. Tartrate-sensitive acid phosphatase and non-specific esterase levels were relatively stable throughout the cell cycle, while tartrate-resistant acid phosphatase activity was not assayable at the density used in synchronous cultures. From these data, variations in alkaline phosphatase activity appear to reflect the distribution of cells throughout the cell cycle.

Inhibitory effects of the bone-derived growth factors osteoinductive factor and transforming growth factor-beta on isolated osteoclasts

Demineralized bone matrix contains a number of growth factors for osteoblast-like cells. Two of these, the novel glycoprotein osteoinductive factor (OIF) and transforming growth factor-beta (TGF beta), act together to cause ectopic bone formation in vivo. Since OIF, like TGF beta, is likely released from bone when the matrix is resorbed, we examined the effects of homogeneous OIF and TGF beta on osteoclast function. Osteoclast function was tested in isolated avian osteoclasts and was measured in terms of tartrate-resistant acid phosphatase (TRAP) activity, oxygen-derived free radical production, and formation of characteristic resorption lacunae on slices of sperm whale dentine. OIF (50-100 ng/ml) inhibited the capacity of these osteoclasts to form lacunae whether assessed by the number of excavations per slice or by the total area resorbed. OIF (10-100 ng/ml) or TGF beta (10-20 ng/ml) caused a decrease in TRAP activity as well as a reduction in oxygen-derived free radical generation detected by nitroblue tetrazolium staining. TGF beta had no effect on the resorption capacity of isolated osteoclasts in concentrations that inhibited TRAP activity and nitroblue tetrazolium staining. These results suggest that growth regulatory factors, such as OIF and TGF beta, released during the resorption of bone may be endogenous inhibitors of continued osteoclastic activity. This cessation of osteoclast activity may be an essential preliminary step to the new bone formation that occurs at resorption sites during bone remodeling.

Biphasic effects of transforming growth factor-beta on the production of osteoclast-like cells in mouse bone marrow cultures: the role of prostaglandins in the generation of these cells

Osteoclast-like multinucleated giant cells are induced in bone marrow cultures by 1,25-dihydroxyvitamin D3 and other agents. These cells resemble osteoclasts in their morphology, their ability to resorb bone, and the possession of calcitonin receptors. We report here a biphasic effect of transforming growth factor-beta (TGF beta) on the generation of these cells in mouse bone marrow cultures. At low concentrations (10-100 pg/ml) TGF beta enhanced 1,25-dihydroxyvitamin D3-dependent production of osteoclast-like cells, while at higher concentrations TGF beta was inhibitory. Complete inhibition was seen at 4 ng/ml. Antibodies directed against TGF beta significantly reduced the generation of osteoclast-like cells in 1,25-dihydroxyvitamin D3-treated cultures, indicating the contribution of endogenous TGF beta activity. TGF beta also enhanced the accumulation of prostaglandin E2 (PGE2) in a dose-dependent manner. Moreover, we found that the generation of these cells in response to 1,25-dihydroxyvitamin D3 was also dependent on PG accumulation, since it was inhibited by indomethacin (250 ng/ml), and this inhibition could be reversed by exogenous PGE2. It is, thus, suggested that PG activity, probably PGE2, mediates the enhancing effect of low TGF beta concentrations and is required for the generation of osteoclast-like cells in this system.

Modulation of tartrate-resistant acid phosphatase expression by calcitriol in CSF-induced macrophage colonies

The osteoclast is thought to be a hemopoietically derived cell, but questions exist about which hemopoietic growth factors are responsible for proliferation of osteoclast precursors. Experiments were thus performed to see if recombinant human colony-stimulating factors (CSFs) influenced the expression of tartrate-resistant acid phosphatase (TRAP), an osteoclast marker enzyme, by monkey bone marrow colonies in vitro. In addition, the effect of 1,25-dihydroxyvitamin D3 (calcitriol) on CSF-induced colony growth and TRAP expression was also determined. Bone marrow was obtained from a single Macaca nemestrina monkey, kept frozen in liquid nitrogen, and aliquots of frozen cells were thawed and placed at 10(5) cells per plate in a standard cell colony-forming unit (CFU-C) assay. The recombinant human CSFs (granulocyte-macrophage CSF, GM-CSF; macrophage CSF, M-CSF; interleukin 3, IL-3; and granulocyte CSF, G-CSF) were added to the cultures at 50 U/ml, and calcitriol was titrated for each CSF from 0.1 to 100 nM. Day-14 colonies were stained to demonstrate TRAP-positive cells in individual colonies. GM-CSF caused an increase (193%, p less than 0.0004) in total colony numbers that was only partially inhibited by calcitriol. IL-3 and M-CSF had less effect, and G-CSF had no effect. GM-CSF also caused a large increase in TRAP-positive macrophage (M) colonies (326%, p less than 0.0001) and changed the relative proportion of TRAP-positive M colonies from 39% to 62% of all M colonies. M-CSF caused less increase in numbers of TRAP-positive M colonies and had no effect on the proportion of TRAP-positive colonies. When GM-CSF was present, calcitriol caused a maximum number of TRAP-positive colonies to appear at 1 nM, and it caused a drastic decrease in TRAP-positive colonies at higher doses. Calcitriol at 10 nM caused TRAP-negative colonies to increase in number and proportion when GM-CSF was present, but in the presence of M-CSF, the same dose of calcitriol caused a decline in numbers of TRAP-negative colonies. These results suggest that GM-CSF may be important in the replication of TRAP-positive mononuclear cells that resemble osteoclast precursors and that myeloid cell development may be weighted toward TRAP-positive or TRAP-negative progeny depending on whether GM-CSF or M-CSF predominates. They further suggest that calcitriol concentration may be critical in this process.

Lysosomal tartrate sensitive acid phosphatase deficiency in cells which contain lysosomal "high uptake forms"

The catalytic and immunological properties of acid phosphatases (EC 3.1.3.2.) in different tissues were studied. It was demonstrated that high uptake forms of lysosomal enzymes like beta-galactosidase isolated from human platelets and bovine testis are mature enzymes, which have not lost their mannose-6phosphate marker. The results presented indicate that this phenomenon is related to a low activity or the complete absence of the lysosomal tartrate sensitive acid phosphatase activity in the tissues concerned.

The effect of hemopoietic growth factors on the generation of osteoclast-like cells in mouse bone marrow cultures

Multinucleated cells containing tartrate-resistant acid phosphatase were produced in mouse bone marrow cultures in response to 1,25-dihydroxyvitamin D3. These cells resemble osteoclasts in their morphology, possess receptors for calcitonin, and resorb bone in culture. The effects of several hemopoietic regulatory proteins on the generation of these cells were examined in this study. Interleukin-3, granulocyte-macrophage-stimulating factor (GMCSF), and macrophage-stimulating factor strongly inhibited generation of the tartrate-resistant acid phosphatase-containing multinucleated cells with approximate EC50 values of 3, 6, and 3 colony-forming units/ml, respectively. Granulocyte colony stimulating factor, interleukin-6, and leukemia inhibitory factor had no effect on the generation of these cells. In addition, we observed that the number of these cells was reduced when the bone marrow was plated at high cell density, and that this inhibitory effect was reversed by the addition of neutralizing antibodies directed against GMCSF. These findings suggest that GMCSF and other hemopoietic factors secreted by cells in the bone marrow regulate development of the osteoclast-like cells, possibly by diverting common precursor cells to alternate pathways.

D-tartrate alters uptake of [3H]dopamine into brain synaptic vesicles

The use of D-tartrate containing media for measuring uptake of catecholamines into brain synaptic vesicles alters the properties of transport. Absolute concentrations of inhibitors determined in competition studies should be viewed with caution.

Specific features of phosphomonoesterase of Entamoeba histolytica (NIH-200)

Axenically grown E. histolytica possess significant acid phosphatase activity. The Km of the enzyme was found to be 7.1 x 10(-3) and was maximally active at pH 4.5. Acid phosphatase activity was significantly inhibited by Cu2+, cysteine and was activated by tartrate and fluoride. It was found that E. histolytica acid phosphatase differs in some properties as compared to the enzyme reported from other sources.

Inhibition of osteoclastic bone resorption by mechanical stimulation in vitro

The influence of mechanical stimulation by intermittent compressive force (ICF) of physiologic magnitude on osteoclastic bone resorption was investigated in cultures of fetal mouse cartilaginous long bones. Exposure to ICF resulted in a significant decrease in mineral resorption, as indicated by the decreased release of 45Ca and a decreased number of osteoclasts in the diaphysis. Conditioned medium (CM) from ICF-exposed periosteum-free cultures (ICF-CM), but not from control cultures (Co-CM), inhibited mineral resorption in fresh bones cultured under control conditions. Co-CM increased, but ICF-CM decreased, the number of tartrate-resistant acid phosphatase-positive cells in 7-day bone marrow cultures. Direct exposure of bone marrow cultures to ICF yielded the same results. Thus, osteoclastic bone resorption in cartilaginous long bones is inhibited by ICF in vitro. A soluble factor(s) acting on tartrate-resistant acid phosphatase-positive, osteoclast precursor-like cells seems to play a role in this effect.

Purification and N-terminal sequence of two tartrate-resistant acid phosphatases type-5 from the hairy cell leukemia spleen

Tartrate-resistant acid phosphatases types 5a and 5b were purified from human hairy cell leukemia spleen by sequential chromatography on Phenyl-Sepharose, CM-Sepharose, concanavalin A-Sepharose, FPLC Superose-12 and FPLC Mono-S. The purification over the original tissue extract was 1150- and 3300-fold, with a yield of 2.1% and 2.5%, respectively. Gel filtration indicated an Mr of about 30000 for both forms. There was a N-terminal sequence identity between the two enzymes. However, they appeared to be different as assessed by cation exchange chromatography and amino acid composition.

Organization of osteoclast microfilaments during the attachment to bone surface in vitro

Rat and chicken osteoclasts were cultured on bone slices, where they showed active resorption with resorption lacunae, which cold be seen by toluidine blue staining or with a scanning electron microscope. Osteoclast microfilaments, F-actin, vinculin, and talin were studied by immunofluorescence. In attached osteoclasts, vinculin appeared as a double circle in the periphery of the cell, and the most intense F-actin staining was located between these vinculin zones. Some chicken osteoclasts showed also intense F-actin staining throughout the center of the cell. Talin appeared in a similar double circle to vinculin. This kind of distribution of microfilaments was always associated with resorption lacunae, and F-actin, vinculin, and talin zones correspond roughly to the edge of lacunae. Osteoclasts showing a diffuse staining pattern were not associated with a resorption pit. The results suggest that this specific microfilament arrangement is located at the attachment zone of the osteoclast and is obligatory for the attachment and resorption. However, this arrangement of microfilaments is quite different from the one that has been previously described in osteoclasts cultured on glass.