EC:3.1.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The absorption characteristics of ethiofos were studied using the rat in situ intestine circulating perfusion technique. Slow absorption kinetics were observed for ethiofos with varying rates of absorption and metabolism/degradation in situ as a function of buffer and absorption enhancers. In most cases less than 10 per cent of the radiolabeled compound is lost from the circulating perfusate in 90 min. In addition, over the same time period greater than 40 per cent of the intact parent compound was lost by degradation. Much of the difference can be accounted for in the formation of the free thiol metabolite. WR-1065, suggesting ester hydrolysis or metabolic activity. Good stability was observed in all perfusate systems ex vivo indicating that the degradation occurs in situ. The disodium salt of ethylenediaminetetraacetic acid (EDTA) was shown to be an effective absorption enhancer of ethiofos. The enhancement of intestinal absorption by EDTA was dose-dependent resulting in a 20-fold increase in blood levels of ethiofos in the portal blood. Follow-up studies in the rhesus monkey confirm this observation. Salicylate and dimethylsulfoxide (DMSO) also resulted in absorption enhancement although to a lesser degree than that seen after EDTA treatment. Addition of several alkaline phosphatase inhibitors did not significantly improve absorption of ethiofos in the rat small intestine. Proposed mechanism(s) for intestinal absorption and absorption enhancement of ethiofos are discussed.
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PMID:Characterization of ethiofos absorption in the rat small intestine. 165 90

We recently found that exposure of cells to different aminothiols promotes cystine uptake and leads to an increase of cellular glutathione by new biosynthesis (Issels et al., Biochem. Pharmacol., 37: 881-888, 1988). Therefore, we further investigated whether the known radioprotective and chemoprotective aminothiol derivative S-2-(3-aminopropylamino)ethylphosphorothioic acid (WR-2721) or its dephosphorylated form (WR-1065) will lead to similar effects. In order to convert WR-2721 to the free thiol compound (WR-1065) in vitro, the medium also contained 20 U/ml alkaline phosphatase (AP). For uptake studies a modified McCoy's 5A medium supplemented with 0.1 mM [35S]cystine was used. In Chinese hamster ovary (CHO) and Chinese hamster ovarian carcinoma (OvCa) cells, WR-2721 exposure alone did not increase the cystine uptake relative to that of control (untreated) cells, while WR-2721 + AP enhanced the uptake of cystine more than twofold in both cell lines. The increase of cystine uptake was dependent on the time of exposure (0-60 min) and the concentrations of WR-2721 (0-8 mM) + AP. Half-maximal uptake of cystine was observed at concentrations of 0.69 and 0.57 mM WR-2721 in CHO and OvCa cells, respectively. Determination of both reduced (GSH) and oxidized (GSSG) cellular glutathione levels after the exposure (0-300 min) to WR-2721 + AP in CHO cells showed a depletion of GSH to less than 10% of the pretreatment value and a 4-fold reduction of the GSH/GSSG ratio. In contrast, in OvCa cells the amount of total glutathione rather increased with no significant change of the GSH/GSSG ratio by the exposure to WR-2721 + AP. Further analysis using high-performance liquid chromatography of cell extracts revealed that the relative amount of incorporated [35S]-cystine into glutathione was increased similarly in both cell lines. The data show that precursor availability and new biosynthesis of glutathione is enhanced by the exposure to WR-2721 + AP in vitro despite the differential modulation of the cellular glutathione status in the two cell lines. These findings may have important implications for the use of aminothiols like WR-2721 in various cells and tissues in regard of their response to chemotherapeutic agents, ionizing radiation and/or hyperthermia.
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PMID:Promotion of cystine uptake, increase of glutathione biosynthesis, and modulation of glutathione status by S-2-(3-aminopropylamino)ethyl phosphorothioic acid (WR-2721) in Chinese hamster cells. 253 52

When V79-171 cells are incubated in medium to which WR-1065 has been added the cells accumulate WR-1065 and disulfides of WR-1065 (WRSS) in a ratio of about 10:1. Analysis of the culture medium showed that it contained primarily WR-1065 but that significant levels of the symmetrical disulfide WR-33278 and of the mixed disulfide of WR-1065 with cysteine were also present. Since incubation of cells with either of the latter disulfides did not lead to uptake it was concluded that WR-1065 is the form of the drug taken up. The uptake rate on a per cell basis was shown to be independent of cell density, to be first order in the WR-1065 concentration in the incubation medium, to increase as [H+]-1.2 at medium pH values from pH 6.8 to 8.0, and to have a Q10 value (rate increase per 10 degrees C temperature increase) of 2.9 +/- 0.3 between 2 and 37 degrees C. Rates of WR-1065 uptake measured for HeLa, HT29/SP-1d, Me-180-VCII, Ovary 2008, and WI-38 cell lines were found to be similar to that measured for V79-171 cells. The results are consistent with uptake by nonmediated, passive diffusion of the uncharged form of WR-1065 across the plasma membrane but uptake mediated by a membrane transport system could not be rigorously excluded. Based upon these results and earlier findings it is postulated that the lower drug uptake seen in tumors as compared with normal tissues in animals treated with WR-2721 results from a combination of (a) slower conversion of WR-2721 to WR-1065 in tumors as a consequence of the lower inherent level of alkaline phosphatase and lower pH in tumors and (b) a decreased uptake rate of the WR-1065 present in tumors as a consequence of their lower pH.
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PMID:Uptake of WR-2721 derivatives by cells in culture: identification of the transported form of the drug. 283 19

Studies of V79-171 cells were undertaken to determine what extracellular or intracellular derivative of the drug WR-2721 is associated with radioprotection. The effect of preincubation at 23 +/- 1 degree C with WR-2721, and with derivatives of WR-2721 produced in medium containing alkaline phosphatase, upon survival of cells following subsequent gamma-irradiation was examined. It was established that WR-2721, WR-1065, WR-33278, WRSSCys, and other disulfide forms produced by reactions of WR-1065 with the medium do not provide significant protection when present only extracellularly. Protection was found to correlate with cellular levels of the thiol form of the drug (WR-1065) but not with the cellular level of the disulfide forms of WR-1065. Similar results were obtained with HeLa, Me-180, Ovary 2008, HT-29/SP-1d, and Colo 395 cell lines showing that human tumor cell lines behave in the same fashion as the V79-171 nontumorigenic hamster diploid cell line. None of the drug forms produced significant cytotoxicity under the conditions used. It was concluded that it is the cellular level of WR-1065 at the time of irradiation which determines protection. The results are consistent with protection mechanisms involving scavenging of hydroxyl radicals, hydrogen atom transfer to DNA radicals, depletion of oxygen near DNA, enhancement of rapid biochemical repair processes, or some combination of these mechanisms.
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PMID:Radioprotection of cells in culture by WR-2721 and derivatives: form of the drug responsible for protection. 283 20

Addition of alkaline phosphatase and WR-2721 to culture medium containing V79-171 cells leads to production of WR-1065 and its disulphide forms in the medium, to cellular accumulation of WR-1065, and to radioprotection which correlates with cellular WR-1065 level.
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PMID:Alkaline phosphatase promotes radioprotection and accumulation of WR-1065 in V79-171 cells incubated in medium containing WR-2721. 298 51

We used levamisole, an inhibitor of alkaline phosphatase, to study the role of that enzyme in mediating the metabolic activation, toxicity, and radioprotection of WR-2721 in intact mice. We found the toxicity of WR-2721 was slightly decreased by prior subcutaneous (SQ) injection of 40 mg/kg of levamisole. In studying the effect of levamisole on WR-2721 radioprotection, we found that intraperitoneal (i.p.) injection of levamisole had little or no effect on radioprotection of the gastrointestinal and the hematopoietic systems. Even this small reduction of protection was due in part to the toxicity of levamisole as demonstrated when levamisole was injected following, rather than before, WR-2721-radiation treatment. To determine whether levamisole inhibited the activation (i.e., dephosphorylation) of WR-2721 to WR-1065, we assayed WR-1065 in the jejunum using an HPLC electrochemical assay. SQ injection of 75 mg/kg levamisole 10 min prior to WR-2721 reduced the WR-1065 observed 10 min after WR-2721 administration by 37%. In conclusion, levamisole appears to be too toxic and non-specific to be useful in studying and regulating the metabolism, toxicity and radioprotection of WR-2721.
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PMID:Modification of WR-2721 toxicity and radioprotection by an inhibitor of alkaline phosphatase. 301 66

In prior studies, we examined the effects of the radioprotective and chemoprotective agent WR-2721 [S-2-(3-aminopropylamino)ethylphosphorothioic acid] on the in vivo biotransformation of the cisplatin [cis-diamminedichloroplatinum(II)] analog ormaplatin [(d,I)trans-1,2-diaminocyclohexanetetrachloroplatinum(IV), Pt(dach)Cl4, (formerly called tetraplatin)]. Those data suggested that a direct interaction between WR-2721 and ormaplatin and/or the corresponding Pt(II) drug, Pt(dach)Cl2, may be occurring in vivo. This would be in contrast to the generally accepted hypothesis that WR-2721 is a prodrug that must first be converted by alkaline phosphatase to a free thiol compound, WR-1065, before any appreciable reactivity would be evident. However, the major biotransformation product observed in the peritoneal fluid, plasma, and all tissues was Pt(dach)(WR-1065). We report here on further investigations into the in vitro reactivity of Pt(dach) compounds with WR-2721 and WR-1065. Separation of reaction products resulting from incubation of Pt(dach)(malonato) with either WR-2721 or WR-1065 under physiological conditions gave profiles that were indistinguishable by reverse phase HPLC and cation exchange HPLC at two different pHs. 31P NMR characterization of the dephosphorylation of WR-2721 revealed essentially no loss of inorganic phosphate for up to 24 hr when incubated in unbuffered water at 30 degrees. In contrast, when incubated with a 1:1 molar ratio of cisplatin under the same conditions, the WR-2721 signal was decreased markedly in the first 5 min, and had disappeared almost completely by 1 hr. The signal corresponding to inorganic phosphate increased in parallel to the decrease in the WR-2721 signal. No intermediate formation of a complex containing both platinum and phosphate could be detected at any time. These data suggest that the reaction between WR-2721 and platinum complexes results in rapid dephosphorylation of WR-2721, and, consequently, that the reaction products formed with either WR-2721 or WR-1065 and Pt(II) complexes are identical.
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PMID:HPLC and 31P NMR characterization of the reaction between antitumor platinum agents and the phosphorothioate chemoprotective agent S-2-(3-aminopropylamino)ethylphosphorothioic acid (WR-2721). 750 92

The ability to target malignant cells for cytotoxicity while sparing normal host tissues has proven to be limited. These limitations have resulted in unacceptable toxicity or insufficiently effective therapy. Continuing investigation of new, potentially useful cytotoxic agents must continue. An alternative approach, also worthy of study, is the selective protection of normal tissues. This approach, used in conjunction with available therapeutic agents, may open the therapeutic window and incrementally enhance the effectiveness of cytotoxic therapy. A variety of methods have been used to protect normal tissues selectively. Regional protection can be used for certain organ systems, such as the oral mucosa. Selective protection on a systemic level is more difficult but agents that seem to protect normal but not malignant tissues selectively are being developed. Among these is amifostine, which was originally selected by the U.S. defense department for study as a radioprotectant. Pre-clinical studies have suggested that amifostine is differentially concentrated in normal tissues but not in malignant tissues. Tissue-specific differences in the activity of alkaline phosphatase, which dephosphorylates amifostine to its active metabolite WR-1065, and in pH are thought to be involved in this relative specificity. Clinical studies indicate that amifostine can reduce the myelosuppression produced by cyclosphosphamide, the combination of cyclophosphamide and cisplatin, and, perhaps, carboplatin. The protective effects of amifostine on nonhematopoietic toxicities are being investigated. Future trials will investigate the integration of amifostine with cytokine-based supportive care in order to define the role of this potentially clinically useful cytoprotectant agent.
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PMID:Amifostine: potential for clinically useful cytoprotection. 785 31

Amifostine (WR-2721, S-2 [3-aminopropylamino]-ethylphosphorothioic acid; Ethyol, US Bioscience, Inc. West Conshohocken, PA), developed as a radiation protector, has exhibited activity as a chemoprotector. The compound requires activation by dephosphorylation to produce the free thiol, WR-1065. This process is catalyzed by capillary alkaline phosphatase that is close to the desired site of protection. Additionally, the neutral pH of normal tissues, compared with the slightly acidic pH of tumors, favors selective activation. The protective mechanism against radiation damage is produced, and is, most probably, different from that of chemotherapy. The most likely mechanism for radioprotection involves free radical scavenging and hydrogen donation to repair damaged DNA. The hydrogen ion donation by the thiol group is required for both chemoprotection and radioprotection. Chemoprotection is presumed to be mediated by inactivation of the charged carbonium ions of activated alkylating agents through a nucleophilic attack, thereby protecting the nucleic acids from alkylation. Amifostine is able to reduce DNA platination when preincubated or coincubated with cisplatin, but this effect is much weaker when given postincubation. Observations show that maximum protection can only be obtained if amifostine is given before the administration of cytotoxic therapy. Amifostine side effects, as seen in mice, are dose dependent. A dose of 200 mg/kg has been found to be relatively nontoxic, although some hypothermia was observed.
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PMID:Protection of normal tissues from the cytotoxic effects of chemotherapy and radiation by amifostine (Ethyol): preclinical aspects. 797 74

Administered prior to cytotoxic chemotherapy or radiation, the aminothiol amifostine provides broad-spectrum cytoprotection of various normal tissues without attenuating antitumor response. The basis for the selectivity of action resides in the anabolism of amifostine at the normal tissue site by membrane-bound alkaline phosphatase. Dephosphorylation to the free thiol WR-1065 is followed by rapid uptake into normal tissues by a carrier-mediated facilitated diffusion process. In contrast, uptake into tumor tissues is slow to negligible. Pretreatment with amifostine provides protection of normal tissues from the cytotoxic effects of alkylating agents, organoplatinums, anthracyclines, taxanes, and radiation. Additionally, the mutagenic and carcinogenic effects of these modalities are also attenuated. Preclinical studies show significant protection of marrow progenitor cells that give rise to the red blood cells, white blood cells, and platelets. Protection of kidneys and neural tissues from cisplatin toxicity has been shown, along with protection of the heart, intestinal crypt cells, and pulmonary tissues from chemotherapy and radiation, as well as vasculoconnective and musculoconnective tissue in an irradiated field. Comparative in vitro and in vivo studies using murine and human tumor xenografts show no attenuation of antitumor effects of these same therapies despite the protection of normal organs. The unique preclinical profile of amifostine serves as the basis for the clinical development program for this important new broad-spectrum cytoprotective agent.
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PMID:Amifostine: the preclinical basis for broad-spectrum selective cytoprotection of normal tissues from cytotoxic therapies. 878 61

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