Independence of 1,25-dihydroxyvitamin D3-mediated calcium transport from de novo RNA and protein synthesis

The administration of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) to rachitic chicks produces an increase in (a) RNA and protein synthesis, (b) calcium binding protein (CaBP) concentration, and (c) alkaline phosphatase activity in the duodenum. These events occur concomitantly with enhanced calcium transport. We inhibited RNA and protein synthesis in richitic chicks and measured the subsequent response to 1,25(OH)2D3. Actinomycin D, injected prior to and following 1,25(OH)2D3 administration, inhibited intestinal RNA polymerase activity, blocked the rise in serum calcium, reduced the amount of CaBP, and increased alkaline phosphatase activity. Cycloheximide injected in similar fashion, inhibited the 1,25(OH)2D3-mediated increase in intestinal protein synthesis, serum calcium, CaBP, and alkaline phosphatase activity. Neither inhibitor blocked the ability of 1,25(OH)2D3 to stimulate calcium transport as measured in isolated duodenal loops in vivo. The ability of either inhibitor to block 1,25(OH)2D3-mediated calcium transport despite inhibition of CaBP production and alkaline phosphatase activity (by cycloheximide) indicates that de novo RNA and protein synthesis, and in particular CaBP and alkaline phosphatase, are not required for the 1,25(OH)2D3 stimulation of calcium transport.     

In vivo glucose-, glucagon-, and cAMP-induced changes in liver glycogen synthase phosphatase activity.

In normal fed rats, glycogen synthase D phosphatase activity in a glycogen pellet preparation was only partially inhibited (approximately 50%) by high concentrations of EDTA. However, the proportion of phosphatase activity inhibited by EDTA was markedly and rapidly (15 s) increased following glucagon or cAMP administration. Epinephrine administration did not alter the proportion of activity inhibited by EDTA. Glucose administration rapidly (2 min) reduced the proportion of synthase phosphatase activity inhibitable by EDTA. That is, the effect of glucose was just the opposite of that produced by glucagon or cAMP. Insulin administration had no effect on phosphatase activity. Synthase phosphatase activity assayed in the absence of EDTA was similar in all groups except for a moderate increase after glucose administration. Addition of Mg2+ completely reversed EDTA inhibition. Phosphorylase phosphatase activity in each group was not modified by addition of EDTA, although the percentage of phosphorylase in the alpha form was higher in glucagon-treated and lower in the glucose-treated animals as expected. These data suggest the presence of rapidly interconvertible forms of either synthase phosphatase or its substrate synthase D, detectable as a change in EDTA inhibitability and subject to glucose and glucagon control.     

Effect of starvation and insulin treatment on glycogen synthase D and synthase D phosphatase activity in rat heart

Summary We have previously shown that synthase phosphatase activity was decreased in starved animals and was rapidly restored by insulin administration (1). In order to determine whether the decreased phosphatase activity was due to a decrease in phosphatase enzyme per se or to a change in the substrate, synthase D, phosphatase activity has been determined using purified synthase D substrate. Using purified heart or liver synthase D, phosphatase activity was lower in extracts from starved animals than in fed animals. Insulin administration rapidly increased phosphatase activity in extracts from the starved animals. The total amount of endogenous synthase D which was convertible to synthase I was lower in extracts from starve animals, but this was rapidly increased within 15 minutes following insulin administration. These data suggest that starvation and insulin have a direct effect on the phosphatase enzyme activity per se and probably on the substrate suitability of synthase D as well.     

Radioprotective properties of ATP and modification of acid phosphatase response after a lethal dose of whole body p(66MeV)/Be neutron radiation to BALB/c mice.

The intraperitoneal administration of exogenous ATP prior to a lethal dose (7 Gy) of whole body neutron irradiation increased the radioresistance of BALB/c mice. This radiation used the beam from a neutron therapy facility produced by the reaction p(66 MeV)/Be. Survival of the mice, determined 7 days post-irradiation as the endpoint, was increased from 26% to 86% by the action of the exogenous ATP. Furthermore, the response of acid phosphatase activity as an indicator of the acute radiation effects showed a marked augmentation in both tissues studied, testes and small intestine. The activity of the enzyme after neutron irradiation with prior administration of ATP showed smaller increases when compared with the increases observed after neutron irradiation alone. This implies that exogenous ATP reduces the effect of the lytic enzyme and, hence, damage. Finally, changes were observed in the activity of acid phosphatase in the testes and intestine with different concentrations of exogenous ATP. In both tissues there was a monotonic decrease in the activity of the enzyme with increase of the concentration of exogenous ATP administrated before radiation. These results reflect the protective ability of exogenous ATP as an adaptive defence mechanism to reduce radiation damage in normal tissues after a lethal dose of neutron radiation.     

小剂量^16O^8＋离子预辐射减轻大剂量辐射所致小鼠睾丸组织损伤

The testes of the B6C3F1 hybrid strain mice were irradiated with 0.05 Gy of 16O8+ ion as the pre-exposure dose (D1), and were then irradiated with 2 Gy of 16O8+ ion as challenging radiation dose (D2) at 4 h after per-exposure. Testicular morphology was observed by light microscope at 35th day after radiation. The results showed that irradiation of mouse testes with 2 Gy of 16O8+ ion significantly impaired, mainly reduction of tubule diameter and decrease or loss of germ cells in various developing stages, especially spermatogenic elements. Pre-exposure to a low-dose (0.05 Gy) of 16O8+ ion significantly alleviated above mentioned damage on testicular morphology induced by subsequent a high-dose (2 Gy) radiation.     

小剂量16O8+离子预辐射减轻大剂量辐射所致小鼠睾丸组织损伤

为了了解小剂量重离子辐射诱导小鼠睾丸结构的适应性反应,采用小剂量(0.05Gy)~(16)O~(8 )离子照射B6C3F_1雄性小鼠睾丸。4h后,再给予2Gy~(16)O~(8 )离子照射。照射后第35天取材在光镜下观察睾丸结构。结果显示,大剂量(2Gy)照射明显损伤睾丸组织,主要表现为曲精细管直径几乎减小一半,精管内各发育阶段的生殖细胞减少或消失,特别是精原细胞几乎完全消失。而Leydig细胞和Sertoli细胞仅有轻度核固缩及胞浆减少。提示睾丸生殖细胞的辐射敏感性明显高于其间质组织细胞。预先给予小剂量(0.05Gy)照射可明显减轻随后大剂量(2Gy)辐射对睾丸组织的损伤。提示小剂量重离子辐射可诱导小鼠睾丸结构明显的适应性反应。     

Acid phosphatase and arylsulphatase activities in testes after AET or MEA treatment of adult mice.

Temporal changes of acid phosphatase (E.C. 3.1.3.2) and arylsulphatase (E.C. 3.1.6.1) activities in testes of adult Swiss mice after AET (2-amino-ethylisothiouronium Br. HBr) or MEA (cysteamine HCl) treatment, were studied. The animals were injected intraperitoneally with the S-containing substances in a single dose of 400 mg/kg body weight. The enzyme activities in crude organ homogenates were assessed every four hours during a 24-hour period. Administration of the aminothiol agents to mouse organism caused greater changes in the acid phosphatase activity than in the arylsulphatase activity, and the two chemical compounds AET and MEA given, influenced the enzyme activities in testes in a different way. Treatment of mice with AET resulted in a decrease of the acid phosphatase activity related to 1 g of fresh tissue at 16.00 and the whole organ weight at 24.00 and 16.00 as well as in a decrease of the arylsulphatase activity expressed per the whole weight of testes at 08.00. After MEA injection, the acid phosphatase activity related to 1 mg of protein, 1 g of fresh tissue and the whole organ weight was decreased at 20.00(1), and the enzyme activity expresse per 1 mg of protein and 1 g of fresh tissue was increased at 24.00, but the arylsulphatase activity related to both 1 mg of protein at 08.00, 12.00 and to the whole weight of testes at 08.00, was reduced.     

The development of phosphomonesterases in the testes of prepuberal chicks.

1. The biochemical development and histochemical localisation of phosphomonoesterases in the testes of prepuberal chicks have been studied. 2. Maximum acid phosphatase activity was observed at 12 weeks with a decrease in enzyme activity after this age, whereas alkaline phosphatase activity fluctuated with age. 3. Acid phosphatase activity in chicks was similar to that of the cockerel in being tartarate-insensitive. 4. There was a low level of significant correlation between acid phosphatase activity and testes weight. 5. Both alkaline and acid phosphatase activities were observed in the basement membrane of the seminiferous tubules, and acid phosphatase activity also in the various spermatogenic elements. 6. The results suggest that acid phosphatase is more involved in spermatogenesis, and more widely distributed than alkaline phosphatase in testicular tissue during testicular development.     

Effect of juvenile hormone on acid phosphatase activity in six tissues of the milkweed bug

After juvenile hormone treatment on day of ecdysis, the haemolymph, salivary glands, gut, cuticle, testes, and fat body of the fifth instar male milkweed bug were assayed for acid phosphatase activity at daily intervals throughout the instar. Increased acid phosphatase activity after juvenile hormone treatment was found in the haemolymph at the beginning of the instar, in the haemolymph and salivary glands in the middle of the instar, and in the testes near the end of the instar. The significance of these findings is discussed.     

Selective inhibition of protein tyrosine phosphatase activities by H2O2 and vanadate in vitro.

Acute (10-30 min) treatment of intact rat hepatoma (Fao) cells with H2O2, inhibits in vivo protein tyrosine phosphatase activity. Vanadate markedly potentiates this effect although it has only trivial effects of its own. Here we show that H2O2 inhibits a protein tyrosine phosphatase activity, but not a p-nitro phenyl phosphate hydrolysing activity, in cytosolic extracts of these cells. This effect is completely reversed by 10 mM dithiothreitol. Other oxidants have similar inhibitory effects. Vanadate inhibits the protein tyrosine phosphatase activity in vitro, and its effects are additive with those of H2O2. These findings suggest that H2O2 and vanadate interact with the protein tyrosine phosphatases at two independent sites. They also suggest that in intact cells H2O2 has a direct inhibitory effect on protein tyrosine phosphatase activity and an indirect effect of facilitating the entry of vanadate.     

The insulinomimetic agents H2O2 and vanadate stimulate protein tyrosine phosphorylation in intact cells

H2O2 and vanadate are known insulinomimetic agents. Together they induce insulin's bioeffects with a potency which exceeds that seen with insulin, vanadate, or H2O2 alone. Employing Western blotting with anti-P-Tyr antibodies, we have identified in Fao cells at least four proteins (pp180, 150, 114, and 100) whose P-Tyr content is rapidly increased upon treatment of the cells with 3 mM H2O2. Tyrosine phosphorylation of these and additional proteins was markedly potentiated (6-10-fold) when 100 microM sodium orthovanadate was added together with H2O2. The effects of H2O2 and vanadate on protein tyrosine phosphorylation were rapid and specific. The enhanced tyrosine phosphorylation was accompanied by a concomitant inhibition of a cytosolic protein tyrosine phosphatase activity. The latter was inhibited by 50% in 3 mM H2O2-treated cells. The inhibitory effect was augmented in the combined presence of H2O2 and vanadate. Half- and maximal effects of vanadate were obtained at 15 microM and 1 mM, respectively. Vanadate (1 mM) alone, added to the cells, had only a trivial effect on protein tyrosine phosphatase activity. A 45-s challenge with insulin (10(-7) M) of cells pretreated with H2O2 largely mimicked the potentiating effects of vanadate on protein tyrosine phosphorylation but not on protein tyrosine phosphatase activity. Our results suggest the involvement of multiple tyrosine-phosphorylation proteins in mediating the biological effects of H2O2/vanadate. Their enhanced phosphorylation can be attributed at least in part, to the inhibitory effects exerted by H2O2 alone, or in combination with vanadate, on protein tyrosine phosphatase activity. The similarity between proteins phosphorylated in Fao cells in response to H2O2/vanadate or H2O2/insulin, suggests that either treatment stimulates protein tyrosine kinases having similar substrate specificities. The insulin receptor kinase is a likely candidate as its activity is markedly enhanced either by insulin (plus H2O2) or by H2O2/vanadate.     

1,25-Dihydroxyvitamin D3 increases bone alkaline phosphatase isoenzyme levels in human osteogenic sarcoma cells

The specific activity of alkaline phosphatase was increased in two human osteogenic sarcoma cell lines, SAOS and TE85, after treatment with 1,25 dihydroxy-vitamin D3 (1,25(OH)2D3). Enzyme activity increased when the cells were incubated with concentrations of 1,25(OH)2D3 between 10(-9) and 10(-7) M and cell growth was not inhibited at these concentrations. The specific activity of alkaline phosphatase was 4- to 7-fold higher than that in the control cells after 5 to 7 days of continuous exposure to 1,25(OH)2D3. Immunochemical studies demonstrated that the enzyme from both control and 1,25(OH)2D3-treated cultures cross-reacted with antisera specific for the phosphatase isoenzyme produced by normal human bone, and did not cross-react with antisera specific for the placental alkaline phosphatase isoenzyme. The increased enzyme activity in cultures induced with 1,25(OH)2D3 correlated with an absolute increase in the number of bone-specific phosphatase molecules, as determined by radioimmunoassay. No effect on alkaline phosphatase activity was observed when the cells were treated with other vitamin D metabolites or with 5-bromo-2'-deoxyuridine. Comparative studies demonstrated that hydrocortisone, another steroid hormone, increased the phosphatase activity with a different time course than did 1,25(OH)2D3. High affinity cytoplasmic receptors for 1,25(OH)2D3 and hydrocortisone were found in the SAOS and TE85 cells.     

Mechanistic studies of phosphoserine phosphatase, an enzyme related to P-type ATPases

Phosphoserine phosphatase belongs to a new class of phosphotransferases forming an acylphosphate during catalysis and sharing three motifs with P-type ATPases and haloacid dehalogenases. The phosphorylated residue was identified as the first aspartate in the first motif (DXDXT) by mass spectrometry analysis of peptides derived from the phosphorylated enzyme treated with NaBH(4) or alkaline [(18)O]H(2)O. Incubation of native phosphoserine phosphatase with phosphoserine in [(18)O]H(2)O did not result in (18)O incorporation in residue Asp-20, indicating that the phosphoaspartate is hydrolyzed, as in P-type ATPases, by attack of the phosphorus atom. Mutagenesis studies bearing on conserved residues indicated that four conservative changes either did not affect (S109T) or caused a moderate decrease in activity (G178A, D179E, and D183E). Other mutations inactivated the enzyme by >80% (S109A and G180A) or even by >/=99% (D179N, D183N, K158A, and K158R). Mutations G178A and D179N decreased the affinity for phosphoserine, suggesting that these residues participate in the binding of the substrate. Mutations of Asp-179 decreased the affinity for Mg(2+), indicating that this residue interacts with the cation. Thus, investigated residues appear to play an important role in the reaction mechanism of phosphoserine phosphatase, as is known for equivalent residues in P-type ATPases and haloacid dehalogenases.     

mTOR-dependent suppression of protein phosphatase 2A is critical for phospholipase D survival signals in human breast cancer cells

A critical aspect of tumor progression is the generation of survival signals that overcome default apoptotic programs. Recent studies have revealed that elevated phospholipase D activity generates survival signals in breast and perhaps other human cancers. We report here that the elevated phospholipase D activity in the human breast cancer cell line MDA-MB-231 suppresses the activity of the putative tumor suppressor protein phosphatase 2A in a mammalian target of rapamycin (mTOR)-dependent manner. Increasing the phospholipase D activity in MCF7 cells also suppressed protein phosphatase 2A activity. Elevated phospholipase D activity suppressed association of protein phosphatase 2A with both ribosomal subunit S6-kinase and eukaryotic initiation factor 4E-binding protein 1. Suppression of protein phosphatase 2A by SV40 small t-antigen has been reported to be critical for the transformation of human cells with SV40 early region genes. Consistent with a critical role for protein phosphatase 2A in phospholipase D survival signals, either SV40 small t-antigen or pharmacological suppression of protein phosphatase 2A restored survival signals lost by the suppression of either phospholipase D or mTOR. Blocking phospholipase D signals also led to reduced phosphorylation of the pro-apoptotic protein BAD at the protein phosphatase 2A dephosphorylation site at Ser-112. The ability of phospholipase D to suppress protein phosphatase 2A identifies a critical target of an emerging phospholipase D/mTOR survival pathway in the transformation of human cells.     

Effect of diazinon in male rats. Histopathological and biochemical studies.

Mild structural and functional changes were observed in liver and testes of rats after a single intraperitoneal administration of diazinon (21.6 mg/kg). Kidney, however, showed no pathological lesion. Attempts are made to correlate the pathological changes in these organs with the activity of succinic dehydrogenase, adenosine triphosphatase and alkaline phosphatase.     

中国人肿瘤细胞中O~6-甲基鸟嘌呤DNA甲基转移酶活性与对嘧啶亚硝脲敏感性的关系

 分析了20株中国人肿瘤细胞的O~6-甲基鸟嘌呤DNA甲基转移酶(O~6-MT)活性及对嘧啶亚硝脲ACNU的敏感性,发现两者间有较好的线性关系,O~6-MT低,对ACNU敏感,提示O~6-MT可作为使用ACNU对肿瘤化疗时的一项予见性指标。     

H2O2-induced intermolecular disulfide bond formation between receptor protein-tyrosine phosphatases

Receptor protein-tyrosine phosphatase alpha (RPTPalpha) belongs to the subfamily of receptor-like protein-tyrosine phosphatases that are characterized by two catalytic domains of which only the membrane-proximal one (D1) exhibits appreciable catalytic activity. The C-terminal catalytic domain (D2) regulates RPTPalpha catalytic activity by controlling rotational coupling within RPTPalpha dimers. RPTPalpha-D2 changes conformation and thereby rotational coupling within RPTPalpha dimers in response to changes in the cellular redox state. Here we report a decrease in motility of RPTPalpha from cells treated with H2O2 on non-reducing SDS-polyacrylamide gels to a position that corresponds to RPTPalpha dimers, indicating intermolecular disulfide bond formation. Using mutants of all individual cysteines in RPTPalpha and constructs encoding the individual protein-tyrosine phosphatase domains, we located the intermolecular disulfide bond to the catalytic Cys-723 in D2. Disulfide bond formation and dimer stabilization showed similar levels of concentration and time dependence. However, treatment of lysates with dithiothreitol abolished intermolecular disulfide bonds but not stable dimer formation. Intermolecular disulfide bond formation and rotational coupling were also found using a chimera of the extracellular domain of RPTPalpha fused to the transmembrane and intracellular domain of the leukocyte common antigen-related protein (LAR). These results suggest that H2O2 treatment leads to oxidation of the catalytic Cys in D2, which then rapidly forms a disulfide bond with the D2 catalytic Cys of the dyad-related monomer, rendering an inactive RPTP dimer. Recovery from oxidative stress first leads to the reduction of the disulfide bond followed by a slower refolding of the protein to the active conformation.     

AN ULTRASTRUCTURAL AND BIOCHEMICAL STUDY OF THE EFFECTS OF THREE INHIBITORS OF CHOLESTEROL BIOSYNTHESIS UPON MURINE ADRENAL GLAND AND TESTIS : Histochemical Evidence for a Lysosome Response

Triparanol and 20,25-diazacholesterol inhibit cholesterol biosynthesis and result in the accumulation of desmosterol. AY-9944, another inhibitor, produces an accumulation of 7-dehydrocholesterol. Adult male C3H mice receive one of these drugs intraperitoneally. Livers, adrenal glands, and testes from each drug group are excised, and portions of each are analyzed by a modified Liebermann-Burchard reaction for quantitation of sterols. Adrenals and testes are examined also by electron microscopy. Fine-structural localization of acid phosphatase has been studied in triparanol-treated adrenal glands. Biochemical analysis reveals that 14–64% of the sterols occurs as desmosterol or 7-dehydrocholesterol. Fine-structural alterations in the adrenal glands and testes from each drug group are essentially identical. The predominant cytological feature is the occurrence of increased numbers of pleomorphic, unit-membrane-limited, electron-opaque, cytoplasmic inclusions. Hence, the cellular modifications following triparanol administration are not unique, as has been suggested. They represent a generalized phenomenon, probably related to inhibition of cholesterol biosynthesis, which is an effect common to each drug. Lead phosphate reaction product (indicating acid phosphatase activity) is demonstrable within these membrane-limited cytoplasmic bodies, identifying them as morphological lysosomes. The utilization of a lysosomal mechanism in sterol-synthesizing cells, which are accumulating cholesterol intermediates, is discussed.     

EFFECT OF THYROID DEFICIENCY ON THE LEVELS OF SEVERAL ENZYMES IN RAT BRAIN

—Activities of acid phosphatase, alkaline phosphatase and β-glucuronidase have been estimated in the brain tissues, using various subcellular particles, in growing thyroidectomized rats and also using cytoplasmic extracts free from debris and nuclear fraction in young hypothyroid animals. Hepatic glucose-6-phosphate dehydrogenase activity was markedly reduced after thyroidectomy but the enzyme was brought back to normal levels by thyroxine treatment. There was no change, however, in the activity of neural glucose-6-phosphate dehydrogenase after thyroidectomy. In the thyroidectomized animals an increase only in the free acid phosphatase activity in the neural synaptosomes was found and this increase in activity was not counteracted by administration of thyroxine. In the hypothyroid young animal β-glucuronidase, acid phosphatase and alkaline phosphatase activities were found to be affected during development.