Mohamed Ali Ghars scite author profile

Proline (Pro) accumulation occurs in various plant organisms in response to environmental stresses. To identify the signaling components involved in the regulation of Pro metabolism upon water stress in Arabidopsis (Arabidopsis thaliana), a pharmacological approach was developed. The role of phosphoinositide-specific phospholipases C (PLCs) in Pro accumulation was assessed by the use of the aminosteroid U73122, a commonly employed specific inhibitor of receptor-mediated PLCs. We found that U73122 reduced pyrroline-5-carboxylate synthetase transcript and protein as well as Pro levels in salt-treated seedlings. Inhibition of PLC activity by U73122 was quantified by measuring the decrease of inositol 1,4,5-trisphosphate (InsP 3 ) levels. Moreover, the utilization of diacylglycerol kinase and InsP 3 -gated calcium release receptor inhibitors suggested that InsP 3 or its derivatives are essential for Pro accumulation upon salt stress, involving calcium as a second messenger in ionic stress signaling. This observation was further supported by a partial restoration of Pro accumulation in salt-and U73122-treated seedlings after addition of extracellular calcium, or when calcium homeostasis was perturbed by cyclopiazonic acid, a blocker of plant type IIA calcium pumps. Taken together, our data indicate that PLC-based signaling is a committed step in Pro biosynthesis upon salinity but not in the case of mannitol stress. Calcium acts as a molecular switch to trigger downstream signaling events. These results also demonstrated the specific involvement of lipid signaling pathway to discriminate between ionic and nonionic stresses.

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Comparative salt tolerance analysis between Arabidopsis thaliana and Thellungiella halophila, with special emphasis on K+/Na+ selectivity and proline accumulation

Ghars

Parre

Debez

et al. 2008

Journal of Plant Physiology

139

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Phospholipase D Is a Negative Regulator of Proline Biosynthesis in Arabidopsis thaliana

Thiery

Leprince

Lefebvre

et al. 2004

Journal of Biological Chemistry

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Accumulation of proline has been observed in a large number of plant species in response to drought and salt stresses, suggesting a key role of this amino acid in plant stress adaptation. Upstream components of the proline biosynthesis signal transduction pathways are still poorly defined. We provide experimental evidence that phospholipase D (PLD) is involved in the regulation of proline metabolism in Arabidopsis thaliana. The application of primary butyl alcohols, which divert part of PLD-derived phosphatidic acid by transphosphatidylation, stimulated proline biosynthesis even without hyperosmotic constraints. Moreover, application of primary butyl alcohols enhanced the proline responsiveness of seedlings to mild hyperosmotic stress. These data indicate that some PLDs are negative regulators of proline biosynthesis and that plants present a higher proline responsiveness to hyperosmotic stress when this regulator is abolished. We clearly demonstrate that PLD signaling for proline biosynthesis is similar to RD29A gene expression and different from the abscisic acid-dependent RAB18 gene expression. Our data reveal that PLDs play positive and negative roles in hyperosmotic stress signal transduction in plants, contributing to a precise regulation of ion homeostasis and plant salt tolerance.

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