V. Kapchina scite author profile

Camptothecin, a topo isomerase-I inhibitor used in cancer therapy, induces apoptosis in animal cells. In tomato (Lycopersicon esculentum Mill.) suspension cells, camptothecin induces cell death that is accompanied by the characteristic nuclear morphological changes such as chromatin condensation and nuclear and DNA fragmentation that are commonly associated with apoptosis in animal systems. These effects of camptothecin can effectively be blocked by inhibitors of animal caspases, indicating that, in tomato suspension cells, camptothecin induces a form of programmed cell death (PCD) with similarities to animal apoptosis (A.J. De Jong et al. (2000) Planta 211:656-662). Camptothecin induced cell death was employed to study processes involved in plant PCD. Camptothecin induced a transient increase in H2O2 production starting within 2 h of application. Both camptothecin-induced cell death and the release of H2O2 were effectively blocked by application of the calcium-channel blocker lanthanum chloride, the caspase-specific inhibitor Z-Asp-CH2-DCB, or the NADPH oxidase inhibitor diphenyl iodonium, indicating that camptothecin exerts its effect on cell death through a calcium- and caspase-dependent stimulation of NADPH oxidase activity. In addition, we show that ethylene is an essential factor in camptothecin-induced PCD. Inhibition of either ethylene synthesis or ethylene perception by L-alpha-(2-aminoethoxyvinyl)glycine or silver thiosulphate, respectively, blocked camptothecin-induced H2O2 production and PCD. Although, in itself, insufficient to trigger H2O2 production and cell death, exogenous ethylene greatly stimulated camptothecin-induced H2O2 production and cell death. These results show that ethylene is a potentiator of the camptothecin-induced oxidative burst and subsequent PCD in tomato cells. The possible mechanisms by which ethylene stimulates cell death are discussed.

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Anticytokinin effects on in vitro response of embryogenic and nonembryogenic genotypes of Dactylis glomerata L.

Somleva

Kapchina

Alexieva

et al. 1995

Plant Growth Regul

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Methanol and Chloroform Extracts fromLamium AlbumL. Affect Cell Properties of A549 Cancer Lung Cell Line

Moskova-Doumanova

Miteva

Dimitrova

et al. 2012

Biotechnology & Biotechnological Equipment

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Inhibition of Apoptotic Cell Death Induced byPseudomonas Syringaepv.Tabaciand Mycotoxin Fumonizin B1

Iakimova

Batchvorova

Kapchina

et al. 2004

Biotechnology & Biotechnological Equipment

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Plant Programmed Cell Death, Ethylene and Flower Senescence

Woltering¹,

Jong²,

Hoeberichts

et al. 2005

Acta Hortic.

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Programmed cell death (PCD) applies to cell death that is part of the normal life of multicellular organisms. PCD is found throughout the animal and plant kingdoms; it is an active process in which a cell suicide pathway is activated resulting in controlled disassembly of the cell. Most cases of PCD described in animal systems take the form of apoptosis, a cell death process characterised by specific features such as cell shrinkage, blebbing of the plasma membrane, condensation and fragmentation of the nucleus and internucleosomal cleavage of DNA. The final stage of apoptosis is the fragmentation of the cell into cellular debriscontaining vesicles called "apoptotic bodies" that are being phagocytosed by other cells. A specific class of cell death-associated cystein proteases (caspases) has been identified. Generally, apoptotic cell death involves a sequence of caspase activation events in which initiator caspases activate down-stream executioner caspases that process a variety of target proteins eventually leading to the apoptotic phenotype.The occurrence of hallmarks of animal apoptosis was studied in tomato cells treated with the anticancer drug and inducer of apoptosis, camptothecin (cpt). It was shown that cpt-induced cell death is accompanied by nuclear condensation, the appearance of TUNEL-positive nuclei, DNA laddering and formation of DNAcontaining (apoptotic) bodies and was greatly inhibited by inhibitors of animal caspases. Together the results indicate that cpt induced a cell death pathway with similarities to caspase-mediated (apoptotic) cell death in animal systems. We used cpt-treated cells to study the possible involvement of ethylene in cell death. Treatment of the cells with relatively high concentrations of ethylene did not have any effect on viability of the cells. However, when ethylene was applied in combination with cpt, a significant increase in cell death was observed as compared to cpt treatment alone. Experiments with inhibitors of ethylene production or ethylene action showed that ethylene is an essential factor mediating cpt-induced cell death.Flower senescence is accompanied by rapid death of large numbers of cells. In situ DNA degradation was studied in gypsophila petals using TUNEL. We showed that TUNEL positive nuclei appear well before the onset of the increase in ethylene production and visible signs of senescence. The role of PCD in flower senescence is discussed.

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V. Kapchina

A critical role for ethylene in hydrogen peroxide release during programmed cell death in tomato suspension cells

Anticytokinin effects on in vitro response of embryogenic and nonembryogenic genotypes of Dactylis glomerata L.

Methanol and Chloroform Extracts fromLamium AlbumL. Affect Cell Properties of A549 Cancer Lung Cell Line

Inhibition of Apoptotic Cell Death Induced byPseudomonas Syringaepv.Tabaciand Mycotoxin Fumonizin B1

Plant Programmed Cell Death, Ethylene and Flower Senescence

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