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Structural determinants for pH-dependent activation of a plant metacaspase

Haijiao Liu, Max Henderson, Zhili Pang, Qingfang Zhang, Eric Lam () and Qun Liu ()
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Haijiao Liu: Stony Brook University
Max Henderson: Stony Brook University
Zhili Pang: The State University of New Jersey
Qingfang Zhang: Stony Brook University
Eric Lam: The State University of New Jersey
Qun Liu: Stony Brook University

Nature Communications, 2025, vol. 16, issue 1, 1-11

Abstract: Abstract Arabidopsis thaliana metacaspase 9 (AtMC9) plays roles in clearing dead cells, forming xylem vessels, and regulating immunity and programmed cell death in plants. The protease’s activation is controlled by pH levels, but the exact structural mechanism behind this has not been elucidated. In this work, we report high-resolution crystal structures for AtMC9 under both active (pH 5.5 and pH 4.2) and inactive (pH 7.5) conditions. The three structures are similar except for local conformations where their hydrogen bonding interactions with solvents are mediated through the protonation of specific titratable amino acid residues’ side chains. By combining structural analysis, molecular dynamics simulations under constant pHs, and biochemical assays coupled with site-directed mutagenesis, we show that the regulation of AtMC9 activation involves multiple titratable glutamate and histidine residues across the three domains of p20, linker, and p10. Specifically, deprotonated Glu112, His193, and His208 can suppress AtMC9 proteolytic activity, while protonation of Glu255 and His307 at acidic pH may promote it. This study provides valuable insights into the pH-dependent activation of AtMC9 and could potentially lead to improving crops with enhanced immunity and controlled cell death, ultimately increasing agricultural productivity.

Date: 2025
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DOI: 10.1038/s41467-025-60253-y

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