Plants (Apr 2024)

AtPIP1;4 and AtPIP2;4 Cooperatively Mediate H<sub>2</sub>O<sub>2</sub> Transport to Regulate Plant Growth and Disease Resistance

  • Xiaohui Yao,
  • Yanjie Mu,
  • Liyuan Zhang,
  • Lei Chen,
  • Shenshen Zou,
  • Xiaochen Chen,
  • Kai Lu,
  • Hansong Dong

DOI
https://doi.org/10.3390/plants13071018
Journal volume & issue
Vol. 13, no. 7
p. 1018

Abstract

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The rapid production of hydrogen peroxide (H2O2) is a hallmark of plants’ successful recognition of pathogen infection and plays a crucial role in innate immune signaling. Aquaporins (AQPs) are membrane channels that facilitate the transport of small molecular compounds across cell membranes. In plants, AQPs from the plasma membrane intrinsic protein (PIP) family are utilized for the transport of H2O2, thereby regulating various biological processes. Plants contain two PIP families, PIP1s and PIP2s. However, the specific functions and relationships between these subfamilies in plant growth and immunity remain largely unknown. In this study, we explore the synergistic role of AtPIP1;4 and AtPIP2;4 in regulating plant growth and disease resistance in Arabidopsis. We found that in plant cells treated with H2O2, AtPIP1;4 and AtPIP2;4 act as facilitators of H2O2 across membranes and the translocation of externally applied H2O2 from the apoplast to the cytoplasm. Moreover, AtPIP1;4 and AtPIP2;4 collaborate to transport bacterial pathogens and flg22-induced apoplastic H2O2 into the cytoplasm, leading to increased callose deposition and enhanced defense gene expression to strengthen immunity. These findings suggest that AtPIP1;4 and AtPIP2;4 cooperatively mediate H2O2 transport to regulate plant growth and immunity.

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