Reactive oxygen species (ROS) have pleiotropic effects in plants. ROS can lead to cellular damage and death or play key roles in control and regulation of biological processes, such as programmed cell death (PCD). This dual role of ROS, as toxic or signalling molecules, is possible because plant antioxidant system (AS) is able to achieve a tight control over ROS cellular levels, balancing properly their production and scavenging. AS response in plant PCD has been clearly described only in the hypersensitive response in incompatible plant-pathogen interactions and in the senescence process and has not been completely unravelled. In sycamore (Acer pseudoplatanus L.) cultured cells PCD can be induced by Fusicoccin (Fc), Tunicamycin (Tu), and Brefeldin A (Ba). These chemicals induce comparable PCD time course and extent, while H 2O 2 production is detectable only in Fc- and, to a lesser extent, in Ba-treated cells. In this paper the AS has been investigated during PCD of sycamore cells, measuring the effects of the three inducers on the cellular levels of non-enzymatic and enzymatic antioxidants. Results show that the AS behaviour is different in the PCD induced by the three chemicals. In Fc-treated cells AS is mainly devoted to decrease the concentration of toxic intracellular H 2O 2 levels. On the contrary, in cells treated with Tu and Ba, the cell redox state is shifted to a more reduced state and the enzymatic AS is partially down-regulated, allowing ROS to act as signalling molecules. © 2011 Franciszek Górski Institute of Plant Physiology, Polish Academy of Sciences, Kraków.

Contran, N., Tonelli, M., Crosti, P., Cerana, R., Malerba, M. (2012). Antioxidant system in programmed cell death of sycamore (Acer pseudoplatanus L.) cultured cells. ACTA PHYSIOLOGIAE PLANTARUM, 34, 617-629 [10.1007/s11738-011-0862-1].

Antioxidant system in programmed cell death of sycamore (Acer pseudoplatanus L.) cultured cells

CONTRAN, NICLA AURORA;TONELLI, MARIAGRAZIA;CROSTI, PAOLO;CERANA, RAFFAELLA;MALERBA, MASSIMO
2012

Abstract

Reactive oxygen species (ROS) have pleiotropic effects in plants. ROS can lead to cellular damage and death or play key roles in control and regulation of biological processes, such as programmed cell death (PCD). This dual role of ROS, as toxic or signalling molecules, is possible because plant antioxidant system (AS) is able to achieve a tight control over ROS cellular levels, balancing properly their production and scavenging. AS response in plant PCD has been clearly described only in the hypersensitive response in incompatible plant-pathogen interactions and in the senescence process and has not been completely unravelled. In sycamore (Acer pseudoplatanus L.) cultured cells PCD can be induced by Fusicoccin (Fc), Tunicamycin (Tu), and Brefeldin A (Ba). These chemicals induce comparable PCD time course and extent, while H 2O 2 production is detectable only in Fc- and, to a lesser extent, in Ba-treated cells. In this paper the AS has been investigated during PCD of sycamore cells, measuring the effects of the three inducers on the cellular levels of non-enzymatic and enzymatic antioxidants. Results show that the AS behaviour is different in the PCD induced by the three chemicals. In Fc-treated cells AS is mainly devoted to decrease the concentration of toxic intracellular H 2O 2 levels. On the contrary, in cells treated with Tu and Ba, the cell redox state is shifted to a more reduced state and the enzymatic AS is partially down-regulated, allowing ROS to act as signalling molecules. © 2011 Franciszek Górski Institute of Plant Physiology, Polish Academy of Sciences, Kraków.
Articolo in rivista - Articolo scientifico
Reactive oxygen species, programmed cell death, antioxidant enzyme, ascorbate glutathione cycle, Acer pseudoplatanus L.
English
2012
34
617
629
none
Contran, N., Tonelli, M., Crosti, P., Cerana, R., Malerba, M. (2012). Antioxidant system in programmed cell death of sycamore (Acer pseudoplatanus L.) cultured cells. ACTA PHYSIOLOGIAE PLANTARUM, 34, 617-629 [10.1007/s11738-011-0862-1].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/43909
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