# Ethylene participates in strigolactone-triggered stomatal closure via Gα protein-activited hydrogen peroxide and hydrogen sulfide synthesis in Arabidopsis

**Authors:** Yinli Ma, Zhenyu Zhao, Yuwei Song, Sida Chai, Hongyu Zhao, Shuangshuang Liang

PMC · DOI: 10.3389/fpls.2026.1796780 · 2026-03-12

## TL;DR

This study shows how strigolactone causes stomatal closure in Arabidopsis by involving ethylene, Gα proteins, and the production of hydrogen peroxide and hydrogen sulfide.

## Contribution

The paper reveals a novel signaling pathway where ethylene and Gα proteins mediate strigolactone-induced stomatal closure through H2O2 and H2S synthesis.

## Key findings

- GR24-induced stomatal closure requires ethylene biosynthesis and Gα activation.
- Ethylene promotes hydrogen peroxide and hydrogen sulfide synthesis via AtrbohD/F and AtL-/D-CDes.
- Gα activation acts upstream of H2O2 and H2S synthesis in this signaling cascade.

## Abstract

The signaling cascade of strigolactone (SL)-regulated stomatal closure in Arabidopsis thaliana was investigated using pharmacological assays, fluorescence microscopy, spectrophotometry, gas chromatography, RT-PCR, and qRT-PCR. In wild-type plants, GR24 (a synthetic strigolactone analog)-induced stomatal closure was significantly inhibited by ethylene biosynthesis/perception inhibitors or Gα inhibitor pertussis toxin (PTX). GR24 obviously promoted closure in eto1-1, cGα1 and wGα1 mutants, but failed to do so in mutants etr1-1, etr1-3, gpa1–1 and gpa1-2. GR24 also upregulated 1-aminocyclopropane-1-carboxylic acid (ACC) synthase (ACS) gene ACS and heterotrimeric G-protein α subunit 1 gene GPA1 transcript levels, showing that both ethylene synthesis and Gα activation were required for SL-induced stomatal closure. Ethylene biosynthesis/perception inhibitors significantly suppressed GR24-induced hydrogen peroxide (H2O2) production, hydrogen sulfide (H2S) synthesis, and L-/D-cysteine desulfhydrase (L-/D-CDes) activity increase in wild-type plants. These responses occurred in eto1–1 mutant but not in etr1 mutants. ACC-induced stomatal closure, H2O2 and H2S synthesis, and L-/D-CDes activity increase were obviously abolished in AtrbohD, AtrbohF, AtrbohD/F, Atl-cdes and Atd-cdes mutants, and exogenous H2O2 or sodium hydrosulfide (NaHS) could significantly rescue the defect in etr1 mutants, showing that ethylene acted via H2O2 and H2S synthesis in SL-induced stomatal closure. Furthermore, PTX obviously suppressed GR24-induced H2O2 and H2S synthesis, and L-/D-CDes increase in the wild type. These responses persisted in cGα1 and wGα1 mutants but were absent in gpa1 mutants. Finally, cholera toxin (CTX)-induced stomatal closure and downstream responses required AtrbohD/F and AtL-/D-CDes, and exogenous H2O2 and H2S rescued GR24-induced closure in gpa1 mutants, suggesting that Gα activation acted upstream of H2O2 and H2S synthesis in SL-induced stomatal closure. In contrast, ACC failed to rescue the defect in GR24-induced stomatal closure treated with PTX in the wild type and in gpa1 mutants. Notably, GR24 substantially increased ethylene production in both PTX-treated wild-type plants and in gpa1 mutants, indicating that ethylene functioned by activating Gα in SL-induced stomatal closure. In summary, SL induced ethylene biosynthesis, which activated Gα. Activated Gα then promoted H2O2 production via AtrbohD/F and subsequent H2S synthesis via AtL-CDes/AtD-CDes, finally leading to stomatal closure.

## Linked entities

- **Genes:** PLA2G15 (phospholipase A2 group XV) [NCBI Gene 23659], CGA (glycoprotein hormones, alpha polypeptide) [NCBI Gene 1081], RBOHD (respiratory burst oxidase homologue D) [NCBI Gene 834842], RBOH F (respiratory burst oxidase protein F) [NCBI Gene 842710]
- **Chemicals:** GR24 (PubChem CID 3036799), ethylene (PubChem CID 6325), hydrogen peroxide (PubChem CID 784), hydrogen sulfide (PubChem CID 402), pertussis toxin (PubChem CID 7408569), sodium hydrosulfide (PubChem CID 28015), 1-aminocyclopropane-1-carboxylic acid (PubChem CID 535)
- **Species:** Arabidopsis thaliana (taxon 3702)

## Full-text entities

- **Genes:** RBOH F (respiratory burst oxidase protein F) [NCBI Gene 842710] {aka ARABIDOPSIS THALIANA RESPIRATORY BURST OXIDASE HOMOLOG  F, ARABIDOPSIS THALIANA RESPIRATORY BURST OXIDASE HOMOLOG F, ATRBOH F, ATRBOHF, CYTOCHROME B245 BETA CHAIN HOMOLOG RBOHAP108, F22C12.18}, ACS (acetyl-CoA synthetase) [NCBI Gene 833655] {aka acetyl-CoA synthetase}, ETR1 (Signal transduction histidine kinase, hybrid-type, ethylene sensor) [NCBI Gene 842951] {aka AtETR1, EIN1, ETHYLENE INSENSITIVE 1, ETHYLENE RESPONSE, ETHYLENE RESPONSE 1, ETR}, RBOHD (respiratory burst oxidase homologue D) [NCBI Gene 834842] {aka ATRBOHD, MCA23.25, MCA23_25, RESPIRATORY BURST OXIDASE, respiratory burst oxidase homologue D}, CGA1 (cytokinin-responsive gata factor 1) [NCBI Gene 828721] {aka F20B18.260, F20B18_260, GATA TRANSCRIPTION FACTOR 22, GATA22, GNC-LIKE, GNL}, GP ALPHA 1 (G protein alpha subunit 1) [NCBI Gene 817170] {aka ARABIDOPSIS THALIANA G PROTEIN ALPHA SUBUNIT 1, ATGPA1, G PROTEIN ALPHA SUBUNIT, G PROTEIN ALPHA SUBUNIT 1, G protein alpha subunit 1, GPA1}
- **Chemicals:** H2O2 (MESH:D006861), ACC (MESH:C023863), NaHS (MESH:C025451), SL (MESH:C000591191), H2S (MESH:D006862), Ethylene (MESH:C036216), GR24 (-)
- **Species:** Arabidopsis thaliana (mouse-ear cress, species) [taxon 3702]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13018129/full.md

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Source: https://tomesphere.com/paper/PMC13018129