Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of injected Photofrin II, a preparation enriched in hydrophobic dihaematoporphyrin ethers and esters, to photosensitize selected mitochondrial and cytosolic enzymes during illumination in vitro was examined. Preparations of R3230AC mammary tumours, obtained at designated times after a single dose of Photofrin II, displayed a time-dependent photosensitivity. Maximum inhibition of mitochondrial enzymes occurred at 24 hours post-treatment, whereas no inhibition of the cytosolic enzyme, pyruvate kinase, was observed over the 168 hour time course. At the selected 24 hour time point, mitochondrial enzyme photosensitisation was found to be drug dose (5.25 mg kg-1 Photofrin II) and light dose dependent, the rank order of inhibition being cytochrome c oxidase greater than F0F1 ATPase greater than succinate dehydrogenase greater than NADH dehydrogenase. We conclude that porphyrin species contained in Photofrin II accumulate in mitochondria of tumour cells in vivo and produce maximum photosensitisation at 24-72 hours after administration to tumour-bearing animals. The time course observed here with Photofrin II is similar to that seen previously with the more heterogenous haematoporphyrin derivative preparation in this in vivo-in vitro model.
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PMID:In vitro photosensitization of tumour cell enzymes by photofrin II administered in vivo. 254 13

The synthetic "picket fence" porphyrin, tetra(o-acetamidophenyl)porphine (TAc), as a biological photosensitizer has been evaluated both in vitro and in vivo in mitochondria from the R3230AC mammary tumor. Studies in vitro, consisting of incubation of mitochondria with TAc at a concentration of 4.0 micrograms/ml followed by photolysis, result in the inhibition of cytochrome c oxidase, proton translocating ATPase, succinate dehydrogenase, and malate dehydrogenase. The diminution in activity of the first three enzymes is approximately 2-fold greater than that seen with Photofrin II under the same conditions. Although TAc exists as four isolable atropisomers, no differences among these different forms were observed in their photosensitized inhibition of mitochondrial enzymes. Administration to tumor-bearing rats of TAc i.p. at a dose of 25 mg/kg did result in accumulation of porphyrin within the mitochondria of the R3230AC tumor as determined by subsequent irradiation of isolated mitochondria. The potential utility of TAc and related porphyrins in cancer phototherapy is discussed.
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PMID:Picket-fence porphyrins as potential phototherapeutic agents. 283 16

The sensitivity to photodynamic treatment of three plasma membrane enzymes in R3230AC mammary adenocarcinomas was assessed. The activities of Na+K+-ATPase, Mg2+-ATPase and 5'-nucleotidase in isolated membranes were measured after exposure of membranes to either hematoporphyrin derivative or Photofrin II plus light in vitro or in tumor membranes prepared from animals previously injected with 25 mg/kg Photofrin II and sacrificed at various times prior to exposure to light (in vivo-in vitro protocol). The activities of both Na+K+-ATPase and Mg2+-ATPase were inhibited at equivalent rates by Photofrin II in vitro; inhibition was drug dose and light dose related. For 5'-nucleotidase in vitro, a 10-fold higher porphyrin concentration was required to achieve a similar rate of enzyme inhibition as that for the ion-activated ATPases. Injection of Photofrin II in vivo followed by preparation of tumor plasma membranes, which were subsequently exposed to light in vitro, produced no photosensitization of 5'-nucleotidase activity at any time studied (up to 72 h after Photofrin II administration). Under the same conditions Na+K+-ATPase activity was reduced by 40-60% from 2 to 72 h after drug injection, whereas Mg2+-ATPase activity was inhibited by 10-25% over the same time course. The differential sensitivity of these three enzymes observed in this in vivo-in vitro protocol suggests that each enzyme may possess different characteristics, such as three-dimensional configuration or membrane location, that afford varying susceptibility to porphyrin photosensitization. The data also suggest that photosensitivity-induced damage to these ion-activated plasma membrane ATPases could have deleterious effects on tumor cell survival.
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PMID:Photosensitizing effects of hematoporphyrin derivative and photofrin II on the plasma membrane enzymes 5'-nucleotidase, Na+K+-ATPase, and Mg2+-ATPase in R3230AC mammary adenocarcinomas. 283 53