Antibody‐guided enzyme therapy of cancer producing cyanide results in necrosis of targeted cells

Kousparou, Christina; Epenetos, Agamemnon A.; Deonarain, Mahendra P.

doi:10.1002/ijc.10266

Cited by 27 publications

(18 citation statements)

References 24 publications

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“…The cyanide produced in the lis/lin system induces severe mitochondrial damage, blocking oxidative phosphorylation that causes a fast ATP depletion and promoting the disruption of the mitochondrial filament pattern. In the conditions used in this study, the lis/lin system induces necrosis according to what would be expected from the conditions of a complete ATP depletion (19), in agreement with previous studies in which linamarase-conjugated antibodies were used for tumor therapy (36). The observed death acceleration by the lis/lin/GO combination is not a consequence of a faster mitochondrial fragmentation or ATP depletion, confirming that the cyanide oxidative phosphorylation blockage is responsible for both effects.…”

Section: Discussionsupporting

confidence: 89%

Glioma Regression In vitro and In vivo by a Suicide Combined Treatment

García-Escudero

Gargini

Izquierdo

2008

Molecular Cancer Research

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We present here a suicide therapy against malignant gliomas based on the transfer to tumor cells of a gene encoding a B-glucosidase, linamarase (lis), which in the presence of the innocuous substrate linamarin (lin) produces cyanide, blocking the mitochondrial respiratory chain. Dog glioma cells carrying the lis gene are thus sensitive to lin (IC 50 of 250 Mg/mL at 48 hours) and cell death is accompanied by mitochondrial fission and ATP depletion. The combination of lis/lin with an otherwise nontoxic level of glucose oxidase (GO) enhances the therapeutic potential (IC 50 of 50 Mg/mL at 48 hours). GO produces hydrogen peroxide, inducing oxidative damage and increasing cellular stress. We show here the antitumoral effect of the lis/lin/GO therapy in a canine glioma cell line and in a xenograft glioma model in nude mice. The synergic combination causes mitochondrial membrane depolarization and phosphatidylserine externalization and accelerates death by 48 hours. The lethal process is caspase independent; poly(ADP-ribose) polymerase 1 is not implicated; and there is no apoptosis-inducing factor translocation to the nucleus. The combined system induces autophagic cell death that can be rescued by 3-methyladenine and is characterized by the presence of double-membrane vesicles and punctate

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Section: Discussionsupporting

confidence: 89%

Glioma Regression In vitro and In vivo by a Suicide Combined Treatment

García-Escudero

Gargini

Izquierdo

2008

Molecular Cancer Research

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“…The presence of coagulative necrosis in SET is frequently observed, particularly in larger tumors, where necrosis is characterized by extensive cell lysis that occurs during the course of acute injury 19,20 . In the present experiment a sharper ACG necrosis was observed in relation to the CG; such lesions are consistent with exposure to cyanide, where ATP levels are suspected to fall sharply due to inhibition of oxidative phosphorylation, being this decrease below the level required for apoptosis, thus resulting in cell death by necrosis 12 .…”

Section: All Inoculated Animals Developed Solid Ehrlich Tumor (Set)supporting

confidence: 89%

“…The ability of cyanide to penetrate the cell without the action of a receiver is due to the cyanide ion being a small molecule and its detoxification in mammals occur for the most part mediated by the enzyme rodanase 12 . Animals bearing solid tumors undergoing distance treatment with cyanide showed a clear regression of tumors compared to controls, demonstrating that cyanide was diffused through the tissues into the bloodstream 9,13 ; in our experiment using SET inoculated subcutaneously in animals, cyanogenic chemotherapy released cyanide outside the tumor, abdominal cavity, but causing accentuated necrosis and tumor growth inhibition.…”

Section: Discussionmentioning

confidence: 99%

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Histopathological evaluation of tumor necrosis and volume after cyanogenic chemotherapy

Ramalho

Aydos²,

Schettert³

et al. 2014

Acta Cir. Bras.

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PURPOSE:To determine the percentage of tumoral necrosis and volume after cyanogenic chemotherapy. METHODS:Histopathological findings of 20 Swiss mice inoculated subcutaneously in the left abdominal wall with 0.05 ml of cell suspension containing 2.5 x 10 5 viable cells of the Ehrlich tumor were evaluated. The tumor response to cyanogenic chemotherapy was determined using a system that comprises two inhibition factors of tumor growth by calculating the percentage of necrosis in the tumor tissue and calculation of tumor volume in treated animals relative to that in control animals. The importance of this system has been validated by the correlation between tumor inhibition in the groups treated with the respective percentages of necrosis. RESULTS:While the control group presented an average of 13.48 ± 14.71% necrosis and average tumor volume of 16.18 ± 10.94, the treated group had an average of 42.02 ± 11.58 and 6.8 ± 3.57, respectively. The tumor inhibition was significantly associated with treatment (p=0.0189). The analysis of necrosis percentage showed a significant prognostic importance (p=0.0001). CONCLUSION:It is concluded that the effect of cyanogenic chemotherapy showed strong inhibitory action of tumor growth, as well as an increase in its area of necrosis.

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“…The comparison of the effect of Acetone Cyanohydrin in normal cells was satisfactory, showing greater cytotoxic capacity occurring on the Ehrlich Ascites tumor cells as also described in other studies using cyanoglucosides 14,15 , demonstrating absence of intoxication and of inviability of normal cells.…”

Section: Discussionsupporting

confidence: 77%

Evaluation of acetone cyanohydrin effect in "in vitro" inativation of the Ehrlich ascites tumor cells

Ramalho

Aydos²,

Cereda

2010

Acta Cir. Bras.

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, more than 90% of cell death was observed only after 24 hours of incubation which is the evidence that the tumor cell has the ability to poison cumulatively and irreversibly itself with the acetone cyanohydrin when compared with the results presented by human lymphocytes that the same doses and at the same time of incubation reached a maximum of 30% of cell death, suggesting an activity of rhodanese differentiated between the two cells. Key words: Carcinoma, Ehrlich Tumor. Acetone. Neoplasms. In vitro. ), depois de 1, 2, 3, 4, 18 e 24 horas foi verificada a viabilidade celular atravéz do método de azul de trypan. Resultados: Os resultados demonstraram um efeito citotóxico dose dependente frente as células do tumor ascítico de Ehrlich. Nas concentrações de 20 e 30 µg.mL -1 ocorreu 100% de morte celular em apenas 1 e 2 horas respectivamente. Nas doses mais baixas de 0,5, 1,0 e 2,0 µg.mL -1 o efeito citotóxico foi menos intenso, aumentando gradativamente com o tempo. Conclusões: Nas concentrações baixas de 0,5. 1,0 e 2,0 µg.mL -1 , foi observado mais de 90% de morte celular somente após 24 horas de incubação o que evidência a capacidade da célula tumoral de se intoxicar de maneira irreversível e acumulativa com a acetona cianidrina, quando comparadas com os resultados apresentados pelos linfócitos humanos que nas mesmas doses e nos mesmos tempos de incubação atingiram um máximo de 30% de morte celular, o que sugere uma atividade de rodanase diferenciada entre as duas células. Descritores: Carcinoma de Ehrlich. Acetona. Neoplasias. In vitro. RESUMO

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Antibody‐guided enzyme therapy of cancer producing cyanide results in necrosis of targeted cells

Cited by 27 publications

References 24 publications

Glioma Regression In vitro and In vivo by a Suicide Combined Treatment

Glioma Regression In vitro and In vivo by a Suicide Combined Treatment

Histopathological evaluation of tumor necrosis and volume after cyanogenic chemotherapy

Evaluation of acetone cyanohydrin effect in "in vitro" inativation of the Ehrlich ascites tumor cells

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