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Query: UNIPROT:P04040 (
Catalase
)
3,577
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Although (-)-epigallocatechin gallate (EGCG) has been reported to induce apoptosis in a variety of tumor cells, detailed mechanisms remain to be explored. In the present study, we investigated the antitumor mechanism of EGCG by using human
T-cell acute lymphoblastic leukemia
Jurkat cells. We focused on the involvement of reactive oxygen species, as we found previously that EGCG caused apoptotic cell death in osteoclastic cells due mainly to promotion of the reduction of Fe(III) to Fe(II) to trigger Fenton reaction, which affords hydroxyl radical from hydrogen peroxide [H(2)O(2) + Fe(II) --> (*)OH + OH(-) + Fe(III)]. EGCG (12.5-50 micro M) decreased the viability of Jurkat cells and caused concomitant increase in cellular caspase-3 activity.
Catalase
and the Fe(II)-chelating reagent o-phenanthroline suppressed the EGCG effects, indicating involvements of both H(2)O(2) and Fe(II) in the mechanism. Unexpectedly, epicatechin gallate (ECG), which has Fe(III)-reducing potency comparable with EGCG, failed to decrease the viability of Jurkat cells, while epigallocatechin (EGC), which has low capacity to reduce Fe(III), showed cytotoxic effects similar to EGCG. These results suggest that, unlike in osteoclastic cells, a mechanism other than Fe(III) reduction plays a role in catechin-mediated Jurkat cell death. We found that EGCG causes an elevation of H(2)O(2) levels in Jurkat cell culture, in cell-free culture medium and sodium phosphate buffer. Catechins with a higher ability to produce H(2)O(2) were more cytotoxic to Jurkat cells. Hydrogen peroxide itself exerted Fe(II)-dependent cytotoxicity. Amongst tumor and normal cell lines tested, cells exhibiting lower H(2)O(2)-eliminating activity were more sensitive to EGCG. From these findings, we propose the mechanism that make catechins cytotoxic in certain tumor cells is due to their ability to produce H(2)O(2) and that the resulting increase in H(2)O(2) levels triggers Fe(II)-dependent formation of highly toxic hydroxyl radical, which in turn induces apoptotic cell death.
...
PMID:Generation of hydrogen peroxide primarily contributes to the induction of Fe(II)-dependent apoptosis in Jurkat cells by (-)-epigallocatechin gallate. 1509 Apr 67
T-cell acute lymphoblastic leukemia
(
T-ALL
) is an aggressive form of cancer and the therapeutic outcome for
T-ALL
patients remains poor. Thus innovative therapeutic strategies with less toxic drugs are of immense need. Moreover combinational effect of redox imbalance with modulated EGFR/PI3K/Akt axis in
T-ALL
is still elusive. To explore more effective drugs we developed and characterized 5-SMAG, Cu-5-SMAG and Cu-OBPHA complexes by different spectroscopic methods and revealed that introduction of methoxy group and copper to the previously synthesized Schiff base ligand, NG can efficiently target leukemia by sparing the normal cells and overcomes MDR in
T-ALL
through induction of caspase3 dependent apoptosis as assessed by MTT, Cell-cycle, Annexin-V and caspase3 activation assay. However the ligand 5-SMAG fails to exert significant cytotoxicity. Moreover introduction of copper does not increase the efficacy of the drug molecule as Cu-OBPHA fails to exert significant effect compared to Cu-5-SMAG. Moreover Cu-5-SMAG targets
T-ALL
cells more than Cu-OBPHA because Cu-5-SMAG generates greater extent of redox imbalance compared to Cu-OBPHA and when this redox imbalance is reduced by application of NAC and PEG-
Catalase
, highest abrogation of apoptosis is observed following Cu-5-SMAG treatment In addition, Cu-5-SMAG significantly down-regulates the activation and expression of EGFR1, Akt and PI3K in drug-resistant
T-ALL
cells. Furthermore Cu-5-SMAG significantly increases the life-span of doxorubicin resistant and sensitive Ehrlich ascites carcinoma bearing Swiss albino mice without inducing any significant systemic toxicity compared to 5-SMAG and Cu-OBPHA treatment. Therefore typical architect of Cu-5-SMAG made it a promising new anti-leukemic agent irrespective of the MDR phenotype.
...
PMID:A copper chelate induces apoptosis and overcomes multidrug resistance in T-cell acute lymphoblastic leukemia through redox imbalance and inhibition of EGFR/PI3K/Akt expression. 2763 44
