Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relative ability of the calcium chelates of calcium disodium ethylenediaminetetraacetate (EDTA) and calcium trisodium ethylenetriaminepentaacetate (DTPA) to protect mice against lethal doses of Clostridium perfringens alpha-toxin was investigated. Their protective ability was assayed by the increase in survival time of mice which had been given large doses of toxin, and by determining the median protective dose of chelate that would protect mice against toxin at a minimum lethal dose of two. In both assay procedures, intraperitoneal, intravenous, and intracutaneous injections of toxin were utilized, and with each toxin injection route the protective ability of the chelate was determined with the three routes of injection. DTPA was 10 to 20 times more effective than EDTA with both types of assay procedure and with all injection routes. DTPA may be superior to EDTA as a protective agent not only because it binds zinc to a greater extent, but also because of its greater retention in the body and its ability to gain entrance into cells. It appears that DTPA may be of value as a therapeutic agent in gas-gangrene.
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PMID:Effects of chelates in chemotherapy of experimental gas-gangrene toxemia. 497 12

Alpha-toxin is the key determinant in gas-gangrene. The toxin, a phospholipase C, cleaves phosphatidylcholine in eukaryotic cell membranes. Calcium ions have been shown to be required for the specific binding of toxin to membranes prior to phospholipid cleavage. Reported X-ray crystallographic structures of the toxin show that the C-terminal domain has a fold that is analogous to the eukaryotic calcium and membrane-binding C2 domains. We report the binding sites for three calcium ions that have been identified, by crystallographic methods, in the C-terminal domain of the protein close to the postulated membrane-binding surface. The position of these ions at the tip of the domain, and their function (to facilitate membrane binding) is similar to that of calcium ions observed bound to C2 domains. Using the optical spectroscopic techniques of circular dichroism (CD) and fluorescence spectroscopy, pronounced changes to both near and far-UV CD and tryptophan emission fluorescence upon addition of calcium to the C-terminal domain of alpha-toxin have been observed. The changes in near-UV CD, fluorescence enhancement and a 2 nm blue-shift in the fluorescence emission spectrum are consistent with tryptophan residue(s) becoming more immobilised in a hydrophobic environment. Calcium binding appears to be low-affinity: Kd approximately 175-250 microM at pH 8 assuming a 1:1 stoichiometry. as measured by spectroscopic methods.
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PMID:Characterisation of the calcium-binding C-terminal domain of Clostridium perfringens alpha-toxin. 1061 Jul 94

Clostridium perfringens biotype A strains are the causative agents of gas-gangrene in man and are also implicated as etiological agents in sudden death syndrome in young domestic livestock. The main virulence factor produced by these strains is a zinc-dependent, phosphatidylcholine-preferring phospholipase C (alpha-toxin). The crystal structure of alpha-toxin, at pH 7.5, with the active site open and therefore accessible to substrate has previously been reported, as has calcium-binding to the C-terminal domain of the enzyme at pH 4.7. Here we focus on conformation changes in the N-terminal domain of alpha-toxin in crystals grown at acidic pH. These changes result in both the obscuring of the toxin active site and the loss of one of three zinc ions from it. Additionally, this "closed" form contains a small alpha helix, not present in the open structure, which hydrogen bonds to both the N and C-terminal domains. In conjunction with the previously reported findings that alpha-toxin can exist in active and inactive forms and that Thr74Ile and Phe69Cys substitutions markedly reduced the haemolytic activity of the enzyme, our work suggests that these loop conformations play a critical role in the activity of the toxin.
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PMID:Crystal structure of the C. perfringens alpha-toxin with the active site closed by a flexible loop region. 1205 5