Showing papers on "Alkaline phosphatase published in 1980"

Formation of bone and cartilage by marrow stromal cells in diffusion chambers in vivo.

Abstract: When freshly isolated rabbit marrow cells were cultured either in vitro or in diffusion chambers in vivo, the hemopoietic cells disappeared and there was a proliferation of the stromal cell population. The colonies formed in vitro were mainly fibroblastic, and this cell type predominated in confluent cultures. Staining for alkaline phosphatase activity and for the Von Kossa reaction was negative in in vitro cultures. However, marrow cell suspensions or fibroblasts harvested from in vitro culture of marrow cells, gave rise to a mixture of bone, cartilage and fibrous tissue in diffusion chambers implanted into the peritoneal cavity. In contrast, only a soft fibrous tissue developed from spleen fibroblasts in diffusion chambers. Differentiation of osteogenic tissue within diffusion chambers fell into two categories: (1) Formation of bone in a fibrous layer surrounding cartilage; (2) intramembranous bone formed directly within fibrous tissue unassociated with cartilage. In both cases alkaline phosphatase activity appeared before the onset of mineralization, and decreased as the first signs of mineral became apparent. The present results suggest that postnatal marrow contains osteogenic precursors with the potential to differentiate via either of the two major paths followed during skeletal development in the embryo. Clonal analysis of the marrow stromal cell population will be required to clarify whether osteo-, chondro-, and fibrogenic cells are the products of one stromal cell line modulated by the microenvironment, or whether there are distinct cell lines for each type.

Parathyroid hormone-responsive clonal cell lines from rat osteosarcoma

Abstract: Several clonal cell lines from a transplantable rat osteosarcoma, selected on the basis of parathyroid hormone (PTH)-sensitive adenylate cyclase, were established in culture. Bovine PTH-(1-84) (0.1 microM) stimulation of adenylate cyclase varied among clones from 8-fold to none. The level of PTH response was a stable property of each clonal line that was retained through numerous passages in vitro (nearly 3 yr in the oldest clone). Highly PTH-responsive lines had a cuboidal-eliptoid morphology and differed from the nonresponsive lines, which had a more fibroblastic appearance. PTH responsiveness correlated with several properties, presumably associated with the osteoblastic phenotype: elevated alkaline phosphatase activity, synthesis of the gamma-carboxyglutamic acid-containing bone protein, and production of mineralized tumors in host rats. PTH (1.0 nM; 24 h) reduced the alkaline phosphatase activity by 40% when tested in a responsive clone. The acid phosphatase activity of the various cell lines was uniformly low. These osteosarcoma-derived cell lines which are stable in vitro thus seem to reflect the phenotypic heterogeneity observed in the tumor in situ. They could be useful in studies of phenotypic expression, PTH action, and a possible relationship between the two.

Effects of sodium butyrate and dimethylsulfoxide on biochemical properties of human colon cancer cells.

Abstract: Sodium butyrate and dimethylsulfoxide (DMSO) have marked effects on the growth, morphology, and biochemistry of two human colonic adenocarcinoma cell lines in culture. Doubling times were increased between 18% and 660% while cell viability was unaffected. Both cell lines formed colonies in soft agar in the absence of butyrate of DMSO, but no colonies were observed in the presence of these agents. However, no differences in in vivo tumorigenicities, when cells were implanted in athymic mice, were seen following treatment. Gross morphological alterations including cell enlargement, process formation, and cellular flattening occurred during culture in butyrate or DMSO. Acrylamide gel electrophoresis in sodium dodecyl sulfate revealed no change in membrane protein constituents, but autoradiographic analysis of membrane glycoproteins demonstrated differences between treated and untreated cells. Ganglioside compositions were altered, and a sialyltransferase required for the synthesis of GM3 ganglioside was elevated by butyrate. Although cytoplasmic aminooligopeptidase remained unaffected by butyrate or DMSO, brush border-associated activity was enhanced by butyrate. Alkaline phosphatase also rose dramiatically during culture in butyrate but was not enhanced by DMSO.

Role of phosphatidylinositol in attachment of alkaline phosphatase to membranes.

Abstract: The mechanism of release of alkaline phosphatase from membranes by phosphatidylinositol-specific phospholipase C from Staphylococcus aureus was studied. Alkaline phosphatase was readily released from pig kidney microsomes by phospholipase C but not by a variety of other treatments, e.g., high ionic strength, extremes of pH, divalent cations, chelating agents, or analogues of the polar head group of phosphatidylinositol. Alkaline phosphatase released from microsomes by phospholipase C did not bind to phospholipid vesicles containing phosphatidylinositol. Alkaline phosphatase solubilized from microsomes by butanol extraction, however, was able to bind phospholipid vesicles even when they contained no phosphatidylinositol. The ability of butanol-extracted alkaline phosphatase to bind to phospholipid vesicles was destroyed by added phosphatidylinositol-specific phospholipase C. Hydrolysis of added phosphatidylinositol by endogenous phospholipase activity in butanol extracts was also accompanied by loss of binding ability. Loss of binding ability was paralleled by a decrease in the apparent molecular weight of alkaline phosphatase. These results indicate that alkaline phosphatase is attached to membranes by a strong interaction with phosphatidylinositol.

5'-32P labeling of RNA and DNA restriction fragments.

Abstract: Publisher Summary This chapter discusses 5'- 32 P labeling of RNA and DNA restriction fragments Bacteriophage T4-induced polynucleotide kinase catalyzes the transfer of the γ-phosphate from ATP to the 5'-hydroxyl terminus of DNA, RNA, and 3'-mononucleotides The enzyme is used extensively in the study of nucleic acid structure and function and is particularly useful in recently developed methods for rapid DNA and RNA sequence analysis Most substrates must be dephosphorylated with alkaline phosphatase prior to the labeling step because of the requirement for a 5'-hydroxyl terminus, and the phosphomonoesterase activity must then be eliminated to avoid degradation of ATP and loss of label from polynucleotide substrates The most effective method for inactivation of alkaline phosphatase is repeated extraction with phenol followed by dialysis or ethanol precipitation Analysis and isolation of end-labeled polynucleotides is also explained in the chapter

Outer membrane protein e of Escherichia coli K-12 is co-regulated with alkaline phosphatase.

Abstract: Outer membrane protein e is induced in wild-type cells, just like alkaline phosphatase and some other periplasmic proteins, by growth under phosphatase limitation. nmpA and nmpB mutants, which synthesize protein e constitutively, are shown also to produce the periplasmic enzyme alkaline phosphatase constitutively. Alternatively, individual phoS, phoT, and phoR mutants as well as pit pst double mutants, all of which are known to produce alkaline phosphatase constitutively, were found to be constitutive for protein e. Also, the periplasmic space of most nmpA mutants and of all nmpB mutants grown in excess phosphate was found to contain, in addition to alkaline phosphatase, at least two new proteins, a phenomenon known for individual phoT and phoR mutants as well as for pit pst double mutants. The other nmpA mutants as well as phoS mutants lacked one of these extra periplasmic proteins, namely the phosphate-binding protein. From these data and from the known positions of the mentioned genes on the chromosomal map, it is concluded that nmpB mutants are identical to phoR mutants. Moreover, some nmpA mutants were shown to be identical to phoS mutants, whereas other nmpA mutants are likely to contain mutations in one of the genes phoS, phoT, or pst.

Receptors for 1,25(OH)2-vitamin D3 enriched in cloned osteoblast-like rat osteogenic sarcoma cells

Abstract: Liver function tests were assessed in 60 unselected out-patient diabetics stabilized on insulin or oral hypoglycaemic agents. Routine liver function tests, particularly plasma concentrations of gamma-glutamyl transpeptidase and alkaline phosphatase were elevated occasionally but rarely to more than twice the upper limit of normal. There was no correlation between measures of diabetic control and results of liver function tests. Twelve (20%) patients had evidence of gall stones, a prevalence above the expected from the community. Fourteen (23%) patients had an abnormally bright liver ultrasound echo pattern, probably indicative of fatty infiltration of the liver. This echo pattern was associated with only a minimal rise in plasma alanine amino transferase and alkaline phosphatase concentrations. It is concluded that functionally significant liver disease is uncommon amongst stabilized diabetic patients.

Liver disease in patients with diabetes mellitus.

Abstract: Liver function tests were assessed in 60 unselected out-patient diabetics stabilized on insulin or oral hypoglycaemic agents. Routine liver function tests, particularly plasma concentrations of gamma-glutamyl transpeptidase and alkaline phosphatase were elevated occasionally but rarely to more than twice the upper limit of normal. There was no correlation between measures of diabetic control and results of liver function tests. Twelve (20%) patients had evidence of gall stones, a prevalence above the expected from the community. Fourteen (23%) patients had an abnormally bright liver ultrasound echo pattern, probably indicative of fatty infiltration of the liver. This echo pattern was associated with only a minimal rise in plasma alanine amino transferase and alkaline phosphatase concentrations. It is concluded that functionally significant liver disease is uncommon amongst stabilized diabetic patients.

Redistribution of membrane proteins in isolated mouse intestinal epithelial cells.

Abstract: Single mouse intestinal epithelial cells (IEC) may be isolated by the use of a combination of methods used for the isolation of IEC from other species. Isolated cells remain viable for several hours. The membrane integral enzymes alkaline phosphatase and leucine aminopeptidase of isolated IEC are localized to the brush borders of IEC in tissue and in most newly isolated IEC. With time, both enzymes are found distributed over the entire cell surface. Redistribution appears to occur by diffusion in the plane of the membrane. It is slowed, but not blocked, if cells are maintained at 0 degrees C instead of at 37 degrees C, and it is not blocked by fixation in 0.5-3% paraformaldehyde. Drugs that alter cell membrane potential or that affect cell levels of ATP enhance the rate of redistribution of the enzymes.

Isolation and characterization of brain endothelial cells: morphology and enzyme activity.

Abstract: Microvessels were isolated from rat brain using a double collagenase treatment which removed the endothelial basement membranes. The isolate was characterized by intact luminal and abluminal membranes and an absence of pericytes and astrocyte membranes. Minimal contamination by 5'-nucleotidase, an enzyme believed exclusively localized within the plasma membranes of neuroglia, established the purity of the isolated microvessels. Enrichment of alkaline phosphatase and gamma-glutamyl transpeptidase activity in microvessel preparations supports the endothelial localization of these enzymes.

Comparison of Effects of Sublethal Microwave Radiation and Conventional Heating on the Metabolic Activity of Staphylococcus aureus

Abstract: This study was conducted in an attempt to characterize some of the effects of sublethal microwave radiation on cells of Staphylococcus aureus. Cultures were exposed to microwave radiation for 10, 20, 30, and 40 s. The effects of a conventional heat treatment were also compared by placing flasks containing cultures in a boiling water bath for the amount of time required to reach temperatures equivalent to those found in cultures exposed to microwave radiation. Control, microwave-treated, and conventionally heat-treated cultures were centrifuged, pellets were resuspended in distilled water, and the resulting suspensions were passed through a French pressure cell. Cell lysates and walls were then isolated and assayed for enzymatic activity. Thermonuclease production was also determined at various levels of exposure of cells to microwave radiation. Activities of malate and alpha-ketoglutarate dehydrogenases, cytochrome oxidase, and cytoplasmic adenosine triphosphatase were higher in microwave-treated cells than in control cells. Membrane adenosine triphosphatase, alkaline phosphatase, and lactate dehydrogenase activities were unaffected when cells were exposed to microwave radiation. The activity of glucose-6-phosphate dehydrogenase was decreased by exposure of cells to microwave radiation. In conventionally heated cells, activities of glucose-6-phosphate and malate dehydrogenases and cytoplasmic adenosine triphosphatase increased activities of alpha-ketoglutarate and lactate dehydrogenases decreased, and alkaline phosphatase activity remained unaffected. Increased levels of thermonuclease activity were observed when cells were exposed to microwave radiation for 10 or 20 s. Data indicate that microwave radiation affects S. aureus in a manner which cannot be explained solely by thermal effects.

Effects of bile salts on the plasma membranes of isolated rat hepatocytes

Abstract: The conjugated trihydroxy bile salts glycocholate and taurocholate removed approx. 20--30% of the plasma-membrane enzymes 5'-nucleotidase, alkaline phosphatase and alkaline phosphodiesterase I from isolated hepatocytes before the onset of lysis, as judged by release of the cytosolic enzyme lactate dehydrogenase. The conjugated dihydroxy bile salt glycodeoxycholate similarly removed 10--20% of the 5'-nucleotidase and alkaline phosphatase activities, but not alkaline phosphodiesterase activity; this bile salt caused lysis of hepatocytes at approx. 10-fold lower concentrations (1.5--2.0mM) than either glycocholate or taurocholate (12--16mM). At low concentrations (7 mM), glycocholate released these enzymes in a predominantly particulate form, whereas at higher concentrations (15 mM) glycocholate further released these components in a predominantly 'soluble' form. Inclusion of 1% (w/v) bovine serum albumin in the incubations had a small protective effect on the release of enzymes from hepatocytes by glycodeoxycholate, but not by glycocholate. These observations are discussed in relation to the possible role of bile salts in the origin of some biliary proteins.

Matrix-induced endochondral bone differentiation: Influence of hypophysectomy, growth hormone, and thyroid-stimulating hormone

Abstract: The influence of hypophysectomy (hypox), GH, and TSH on the discrete phases of matrix-induced endochondral bone differentiation was investigated [3H]Thymidine incorporation by proliferating mesenchymal cells on day 3 was inhibited by hypox, but was corrected by GH administration On day 7, 35SO4 incorporation into cartilage proteoglycans was reduced by hypox, but was restored to values higher than controls by GH Calcification of cartilage and bone was monitored by alkaline phosphatase activity, 45Ca incorporation into bone mineral, and total calcium Alkaline phosphatase levels were maximal on day 11 in the controls and declined thereafter; however, the activity of alkaline phosphatase remained elevated in hypox recipients Hypox reduced and delayed the rate and extent of calcification, as reflected by 45Ca incorporation and total calcium, respectively The administration of GH and TSH alone and in combination restored 45Ca incorporation to control values in tibial metaphyses but not in the matrix-induc

Expression of alkaline phosphatase loci in mammalian tissues

Abstract: Alkaline phosphatases [orthophosphoric-monoester phosphohydrolase (alkaline optimum), EC 3.1.3.1] have been examined in liver, bone, kidney, intestine, and placenta from nine mammalian species by quantitative inhibition and thermostability studies and compared with alkaline phosphatases in the corresponding human tissues. In humans, three kinds of alkaline phosphatase can be sharply differentiated by these methods, one occurring in liver, bone, and kidney, one in intestine, and one in placenta. They are evidently determined by separate gene loci. In the mammals only two sorts of alkaline phosphatase were found: one, which occurs in liver, bone, kidney, and also placenta, corresponds to the human liver/bone/kidney enzyme and the other corresponds to the human intestinal enzyme. The findings support our earlier proposal that the expression of a distinctive type of alkaline phosphatase in human placenta is the consequence of a late evolutionary event which occurred subsequent to the divergence of the evolutionary lineage leading to humans from the various lineages leading to other mammalian species. The concentrations of the inhibitors, phenylalanine, homoarginine, phenylalanylglycylglycine, and levamisole, required to give 50% inhibition, [I50], of the liver/bone/kidney/placental (nonhuman) alkaline phosphatases showed no significant variation among the species. However, the [I50] values for the intestinal enzyme varied among species to a much greater extent. This implies that in the liver/bone/kidney/placental (nonhuman) alkaline phosphatase the structures of the binding sites for these inhibitors have been highly conserved during mammalian evolution, but there has been much greater divergence of these structures in the evolution of intestinal alkaline phosphatases.

Acid phosphatase activity of intact roots and phosphorus nutrition in plants. 1. Assay conditions and phosphatase activity

Abstract: This veries sets out to investigate the possibility of developing root phosphatase activity as an indicator of plant efficiency in obtaining phosphorus from low phosphorus situations. This paper examines the effect of substrate pH, temperature, reaction time, microbial contamination and phosphorus nutrition on the expression of phosphatase activity of plant roots. Rye, wheat, buckwheat and subterranean clover plants have been used. Phosphatase (E.C. 3.1.3.4.1) activity measured by p-nitrophenyl phosphate (PNPP) assay was essentially the activity of the plant root. Increased acidity in the substrate, on its own, did not hydrolyse PNPP nor did microbial contamination significantly affect the plant value. Temperature and reaction time were positively related to the assay value, least variation in assay values occurring with substrate temperatures of 20¦C and reaction times of 60-120 min. Optimum pH for phosphatase activity lay in the range pH 5-6. Deficient plants had greater activities than sufficient ones. There was no evidence of alkaline phosphatase activity with phosphorus deficiency. In wheat, the phosphatase activity increased within the first 4 days of plants being deprived of phosphorus and reached its peak in 8 days. Some of the phosphatase was soluble, but most was associated with the root itself. There was evidence that it could be strongly adsorbed on cellulose nitrate filters.

Influence of experimental diabetes and insulin on matrix-induced cartilage and bone differentiation.

Abstract: The influence of streptozotocin-induced diabetes on discrete stages of matrix-induced endochondral bone formation has been investigated. Mesenchymal cell proliferation was inhibited in diabetic rats as evidenced by a 65% reduction of ornithine decarboxylase (ODC) activity and a 56% reduction of [3H]thymidine incorporation per microgram DNA compared to nondiabetic controls; the inhibition was prevented by insulin treatment. In diabetic animals, chondrogenesis on day 7 was reduced by 49% compared to control animals as assessed by 35SO4 incorporation. Exogenous insulin was stimulatory to cartilage development when present during days 0 through 4 (mesenchymal cell proliferation). Calcification of cartilage and osteogenesis were reduced by more than 50% in diabetic rats and corrected by insulin as measured by alkaline phosphatase activity and 45Ca incorporation. Decreased in vivo endochondral bone growth and development during diabetes is the result of 1) inhibition of insulin-dependent mesenchymal cell proliferation, 2) decreased and delayed cartilage formation due to impaired mesenchymal cell proliferation, 3) decreased and delayed vascular invasion prior to chondrolysis and osteogenesis, and 4) reduced insulin-dependent calcification and ossification.

Co-Regulation in Escherichia coli of a Novel Transport System for sn-Glycerol-3-Phosphate and Outer Membrane Protein Ic (e, E) with Alkaline Phosphatase and Phosphate-Binding Protein

Abstract: Mutants constitutive for the novel outer membrane protein Ic (e or E) contained a recently discovered binding protein for sn-glycerol-3-phosphate. The corresponding parental strains missing the outer membrane protein Ic (e, E) were negative or strongly reduced in the synthesis of the binding protein. In addition, strains that were previously isolated as mutants constitutive for the sn-glycerol-3-phosphate transport system (ugp(+) mutants) and that produced the novel periplasmic proteins GP1 to GP4 also synthesized a new outer membrane protein with the same electrophoretic mobility on sodium dodecyl sulfate-polyacrylamide gels as protein Ic. Screening of different ugp(+) mutants revealed the existence of three types in respect to the four novel periplasmic proteins GP1, -2, -3, and -4: (i) one containing all four proteins; (ii) one containing only proteins GP1, -2, and -3; (iii) one containing only proteins GP1, -2, and -4. In confirmation of the data presented in the accompanying paper by Tommassen and Lugtenberg (J. Bacteriol. 143:151-157, 1980), we found that purified GP1 is identical to alkaline phosphatase, whereas purified GP3 has binding activity of inorganic phosphate and is identical to the phosphate-binding protein. Moreover, growth conditions that lead in a wild-type strain to the derepression of alkaline phosphatase synthesis also derepressed the synthesis of the sn-glycerol-3-phosphate-binding protein as well as the corresponding transport system. Thus, the new sn-glycerol-3-phosphate transport system is part of the alkaline phosphatase regulatory system.

Presence of the Rare D-Variant Heat-stable, Placental-type Alkaline Phosphatase in Normal Human Testis

Abstract: In 11 adult testes studied, about 0.3 to 4.6% of the total alkaline phosphatase activity was heat stable and l-phenylalanine sensitive but l-homoarginine insensitive. The testicular heat-stable enzyme was more susceptible to inhibition by l-leucine and ethylenediaminetetraacetate than were the normal placental and intestinal enzymes. By antibody-directed enzyme inhibition test, the testicular heat-stable enzyme cross-reacted completely with normal placental enzyme but clearly distinguished itself from a heat-stable component of normal intestinal enzyme. Thus, placental alkaline phosphatase D-variant is synthesized in testis, indicating that the gene for elaborating this placental protein is probably already active in the testicular cells. The high incidence of this protein in cancers of testis and ovary is probably due to its increased production by gonadal genes present in the genome of these particular tumors.

Reversal of Ethinyl Estradiol-induced Bile Secretory Failure with Triton WR-1339

Abstract: The effects of Triton WR-1339 and phenobarbital on ethinyl estradiol bile secretory failure were examined to determine the mechanism responsible for decreased bile salt excretion When administered to ethinyl estradiol-treated rats, Triton WR-1339 restored bile salt independent bile flow and maximum taurocholate transport, whereas phenobarbital corrected bile flow only Ethinyl estradiol decreased the activities of Na(+)-K(+)-ATPase, 5'-nucleotidase, while increasing the activities of Mg(++)-ATPase and alkaline phosphatase In contrast to these heterogeneous changes in surface membrane enzyme activities, the number and affinity of [(14)C]cholic acid carriers were not altered When administered in vivo or added directly to surface membrane fractions Triton WR-1339 restored the activities of Na(+)-K(+)-ATPase and Mg(++)-ATPase of rats treated with ethinyl estradiol through a process that did not require protein synthesis (unaffected by cycloheximide) Phenobarbital also restored the activity of Na(+)-K(+)-ATPase to control levels, but, unlike Triton WR-1339 it did not correct the defect responsible for reduced bile salt secretion Ethinyl estradiol increased the concentration of cholesterol esters in surface membrane fractions When administered to ethinyl estradiol-treated rats, Triton WR-1339 restored cholesterol ester concentrations to normal, whereas phenobarbital did not These combined data suggest that decreased or altered bile salt carriers or reduced sodium driving forces resulting from impaired activity of Na(+)-K(+)-ATPase are not responsible for decreased bile salt excretion in ethinyl estradiol-treated rats It is proposed that the diverse changes in surface membrane function, which are associated with ethinyl estradiol bile secretory failure, may be the result of a generalized alteration in membrane lipid structure

Analytical Subcellular Fractionation of Rat Liver with Special Reference to the Localisation of Putative Plasma Membrane Marker Enzymes

Abstract: A method for the subcellular fractionation of rat liver using whole homogenates of rat liver and analytical sucrose density gradient centrifugation is presented. The distributions in the sucrose gradients of marker enzymes for all organelles have been determined for control homogenates and for homogenates prepared in the presence of selective membrane perturbants. This technique is not subject to potential loss of information inherent in the use of postnuclear supernatants as starting material for fractionation experiments. Particular attention has been paid to the distributions of putative plasma membrane marker enzymes, up to 50% of which may be found in the nuclear pellet. Gamma-Glutamyltransferase has been found to be entirely plasma membrane in location but has a different distribution pattern when compared with other plasma membrane markers. Particulate alkaline phosphatase and alkaline phosphodiesterase are shown to have bimodal distribution, one peak of which is coincident with 5'-nucleotidase. The other peak is coincident with that of the golgi marker, galactosyltransferase, but the membrane structure containing these activities shows characteristics of plasma membrane rather than golgi apparatus.

Enzymatic Characterization of the Matrix Vesicle Alkaline Phosphatase Isolated from Bovine Fetal Epiphyseal Cartilage

Abstract: Purified matrix vesicle alkaline phosphatase from bovine fetal epiphyseal cartilage hydrolyzes a variety of phosphate esters as well as ATP and PPi. Optimal activities forp-nitrophenyl phosphate, ATP, and PPi are found at pH 10.5, 10.0, and 8.5, respectively. The latter two substrates exhibit substrate inhibition at high concentrations.p-Nitrophenyl phosphate demonstrates decreasing pH optima with decreasing substrate concentration. Heat inactivation studies indicate that both phosphorohydrolytic and pyrophosphorolytic cleavage occur at the same site on the enzyme. Mg2+ and Hg2+ ions inhibit thep-nitrophenyl phosphatase activity at pH 10.5 while Mn2+ ions show no effect. Pi, levamisole, CN−, Zn2+, Ca2+ ions, and L-phenylalanine are reversible inhibitors of the phosphomonoesterase activity. Pi is a linear noncompetitive inhibitor with a Ki of 8.0 mM. Levamisole and L-phenylalanine are uncompetitive inhibitors with inhibition constants of 0.02 and 39.4 mM, respectively. Ca2+ ions inhibit noncompetitively with a Ki of 9.3 mM. Zn2+ ion is a potent noncompetitive inhibitor with an inhibition constant of 0.026 mM. The enzyme is inhibited irreversibly by Be2+ ion, EDTA, EGTA, ethane-l-hydroxydiphosphonate, dichloromethanediphosphonate, L-cysteine, and N-ethylmaleimide. NaCl, KCl, and Na2SO4 at 0.5–1.0 M inhibit the enzyme.