Rhamnogalacturonan-II dimerization deficiency impairs the coordination between growth and adhesion maintenance in plants

Baba, Abu Imran; Lisica, Lucija; Atakhani, Asal; Aryal, Bibek; Bogdziewiez, Léa; Erguvan, Özer; Heymans, Adrien; Jewaria, Pawan Kumar; Smith, Richard S.; Bhalerao, Rishikesh P.; Verger, Stéphane

doi:10.1101/2024.11.26.625362

Rhamnogalacturonan-II dimerization deficiency impairs the coordination between growth and adhesion maintenance in plants

Baba, Abu Imran

;

Lisica, Lucija

;

Atakhani, Asal

;

Aryal, Bibek

;

Verger, Stéphane

;et.al.

(2024) bioRxiv — (2024)

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Authors

Baba, Abu ImranUmeå Plant Science Center, SLU
Author
Lisica, Lucija
Author
Atakhani, Asal
Author
Aryal, Bibek
Author
Heymans, AdrienUCLouvain
Author
Verger, Stéphane
Author

Abstract

Cell adhesion is a fundamental feature of multicellular organisms. In plants, cell adhesion is mediated by the cell wall, but the control and maintenance of cell adhesion during growth and development remains poorly understood1. Here we uncover the role of a component of the cell wall, rhamnogalacturonan-II (RG-II) and its capacity to crosslink in the presence of Boron2, as a key regulator of plant cell adhesion maintenance. We show that RG-II dimerization deficiency leads to cell adhesion defects. Importantly, the analysis of mur1 mutants with RG-II dimerization defects uncovers a cell adhesion pathway that is distinct from that identified by the analysis of pectin deficient mutants3. We found that mutations in two cell wall integrity sensors, RESISTANCE TO FUSARIUM OXYSPORUM 1 and RECEPTOR-LIKE PROTEIN 44, as well as supplementation with the hormone brassinosteroid can partially rescue the adhesion defects associated with RG-II dimerization deficiency. We also show that adhesion defects associated with RG-II dimerization deficiency are related to increased epidermal tension as well as decreased homogalacturonan levels in the cell wall, which can also be rescued by supplementation with brassinosteroid. Overall, we propose that RG-II dimerization defects alter cell adhesion directly (reduced crosslinks) but also indirectly through cell wall integrity sensing, brassinosteroid signalling, cell wall remodelling and cell layer growth coordination. Thus, our results uncover the involvement of cell wall integrity sensors and hormonal signalling in the coordination between growth and adhesion maintenance in plants, which is a key feature for complex multicellularity.Highlights- RG-II dimerization is required for cell-cell adhesion in plants.- Cell wall integrity sensors and brassinosteroid signalling mediate cell adhesion downstream of RG-II dimerization.- Cell detachments due to defective RG-II dimerization are caused by weakened middle lamella and higher tissue tension.Competing Interest StatementThe authors have declared no competing interest.

Affiliations

SLUUmeå Plant Science Center
UCLouvainSST/ELI/ELIA - Agronomy

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Baba, A. I., Lisica, L., Atakhani, A., Aryal, B., Bogdziewiez, L., Erguvan, Ö., Heymans, A., Jewaria, P. K., Smith, R. S., Bhalerao, R. P., & Verger, S. (2024). Rhamnogalacturonan-II dimerization deficiency impairs the coordination between growth and adhesion maintenance in plants. bioRxiv. Published. https://doi.org/10.1101/2024.11.26.625362 (Original work published 2024)