MDP25 mediates the fine‐tuning of microtubule organization in response to salt stress

Microtubules are dynamic cytoskeleton structures playing fundamental roles in plant responses to salt stress. The precise mechanisms by which microtubule organization is regulated under salt stress are largely unknown. Here, we report that Arabidopsis thaliana MICROTUBULE‐DESTABILIZING PROTEIN 25 (M...

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Published in:Journal of integrative plant biology 2022-06, Vol.64 (6), p.1181-1195
Main Authors: Yang, Peizhi, Jin, Jingwei, Zhang, Jingru, Wang, Dan, Bai, Xuechun, Xie, Wenfei, Hu, Tianming, Zhao, Xuan, Mao, Tonglin, Qin, Tao
Format: Article
Language:English
Subjects:
Abiotic stress
calcium
Calcium ions
Calcium signalling
Cytoskeleton
Depolymerization
Genotypes
Invertebrates
Lanthanum chlorides
MDP25
Membrane proteins
Membranes
microtubule
Microtubules
Oryzalin
Paclitaxel
Proteins
Reagents
Salinity tolerance
salt stress
Salts
Seedlings
Stress
Survival
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Summary:Microtubules are dynamic cytoskeleton structures playing fundamental roles in plant responses to salt stress. The precise mechanisms by which microtubule organization is regulated under salt stress are largely unknown. Here, we report that Arabidopsis thaliana MICROTUBULE‐DESTABILIZING PROTEIN 25 (MDP25; also known as PLASMA MEMBRANE‐ASSOCIATED CATION‐BINDING PROTEIN 1 (PCaP1)) helps regulate microtubule organization. Under salt treatment, elevated cytosolic Ca2+ concentration caused MDP25 to partially dissociate from the plasma membrane, promoting microtubule depolymerization. When Ca2+ signaling was blocked by BAPTA‐AM or LaCl3, microtubule depolymerization in wild‐type and MDP25‐overexpressing cells was slower, while there was no obvious change in mdp25 cells. Knockout of MDP25 improved microtubule reassembly and was conducive to microtubule integrity under long‐term salt treatment and microtubule recovery after salt stress. Moreover, mdp25 seedlings exhibited a higher survival rate under salt stress. The presence microtubule‐disrupting reagent oryzalin or microtubule‐stabilizing reagent paclitaxel differentially affected the survival rates of different genotypes under salt stress. MDP25 promoted microtubule instability by affecting the catastrophe and rescue frequencies, shrinkage rate and time in pause phase at the microtubule plus‐end and the depolymerization rate at the microtubule minus‐end. These findings reveal a role for MDP25 in regulating microtubule organization under salt treatment by affecting microtubule dynamics. Arabidopsis MICROTUBULE‐DESTABILIZING PROTEIN 25 decodes the Ca2+ signal stimulated by salt stress and regulates microtubule organization by affecting the dynamics of individual microtubules at both the plus‐ and minus‐ends.
ISSN:1672-9072
1744-7909
DOI:10.1111/jipb.13264