The Cell Wall Proteome of <i>Craterostigma plantagineum</i> Cell Cultures Habituated to Dichlobenil and Isoxaben

• Main Authors: Gea Guerriero, Charles Achen, Xuan Xu, Sébastien Planchon, Céline C. Leclercq, Kjell Sergeant, Roberto Berni, Jean-Francois Hausman, Jenny Renaut, Sylvain Legay
• Format: Article
• Language: English
• Published: MDPI AG 2021-09-01
• Series: Cells
• Subjects: <i>Craterostigma plantagineum</i>; dichlobenil; isoxaben; habituation; cell wall; qPCR
• Online Access: https://www.mdpi.com/2073-4409/10/9/2295

The remarkable desiccation tolerance of the vegetative tissues in the resurrection species <i>Craterostigma plantagineum</i> (Hochst.) is favored by its unique cell wall folding mechanism that allows the ordered and reversible shrinking of the cells without damaging neither the cell wall nor the underlying plasma membrane. The ability to withstand extreme drought is also maintained in abscisic acid pre-treated calli, which can be cultured both on solid and in liquid culture media. Cell wall research has greatly advanced, thanks to the use of inhibitors affecting the biosynthesis of e.g., cellulose, since they allowed the identification of the compensatory mechanisms underlying habituation. Considering the innate cell wall plasticity of <i>C. plantagineum</i>, the goal of this investigation was to understand whether habituation to the cellulose biosynthesis inhibitors dichlobenil and isoxaben entailed or not identical mechanisms as known for non-resurrection species and to decipher the cell wall proteome of habituated cells. The results showed that exposure of <i>C. plantagineum</i> calli/cells triggered abnormal phenotypes, as reported in non-resurrection species. Additionally, the data demonstrated that it was possible to habituate <i>Craterostigma</i> cells to dichlobenil and isoxaben and that gene expression and protein abundance did not follow the same trend. Shotgun and gel-based proteomics revealed a common set of proteins induced upon habituation, but also identified candidates solely induced by habituation to one of the two inhibitors. Finally, it is hypothesized that alterations in auxin levels are responsible for the increased abundance of cell wall-related proteins upon habituation.