Tomato TGase positively regulates thermotolerance by inducing polyamine to activate autophagy

doi:10.1111/jipb.13955

• Research Article •

Tomato TGase positively regulates thermotolerance by inducing polyamine to activate autophagy

Min Zhong^1,2†, Qingshen Cui^1†, Yan Yang^1,3†, Ke Zhang¹, Xiaoying Liu¹, Guan Pang¹, Lifei Yang¹, Shirong Guo¹, Jin Sun^1* and Yu Wang^1*

1. College of Horticulture, Nanjing Agricultural University, Nanjing 210095, China
2. College of Horticulture, South China Agricultural University, Guangzhou 510642, China
3. Jiangsu Key Laboratory for Horticultural Crop Genetic Improvement, Institute of Vegetable Crops, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China

^†These authors contributed equally to this work.
^*Correspondences: Jin Sun (jinsun@njau.edu.cn); Yu Wang (ywang@njau.edu.cn, Dr. Wang is fully responsible for the distribution of all materials associated with this article)

Received:2024-11-20 Accepted:2025-05-26 Online:2025-07-03
Supported by:
This work was supported by the National Natural Science Foundation of China (32472719, 32302640), the Fundamental Research Funds for the Central Universities (KJYQ2025024), the Natural Science Foundation of Jiangsu Province (BK20242064), the Jiangsu Provincial Association for Science, and Technology Youth Science and Technology Talent Support Project (JSTJ‐2023‐003), the earmarked fund for China Agriculture Research System (CARS‐23), and A Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions.

Abstract

Abstract: Transglutaminases (TGases) are multifunctional enzymes involved in stress responses, while autophagy is a key cellular degradation process. However, the relationship between TGases and autophagy in the plant heat stress response remains poorly understood. In this study, we demonstrated that TGase was essential for heat tolerance by regulating autophagy. Heat stress induced both TGase expression and activity. The tgase mutants reduced, while TGase-overexpression (TGaseOE) lines increased plant thermotolerance. Under heat stress, insoluble proteins were more ubiquitinated in tgase mutants and less so in TGaseOE plants. Moreover, TGase promoted the expression of autophagy-related (ATG) genes and autophagosome formation. Polyamine content and the expression of polyamine-related genes, particularly SAMS2, were positively correlated with TGase activity. TGase interacted with SAMS2 both in vitro and in vivo, and knockout of SAMS2 impaired TGase-induced thermotolerance and autophagosome formation in TGaseOE plants. Exogenous spermidine also promoted autophagosome formation in tgase mutants, indicating a critical role of polyamine in TGase-mediated heat tolerance and autophagosome formation. Furthermore, a cell-free degradation assay showed that TGase enhanced the stability of SAMS2. Altogether, these results reveal that TGase interacts with and stabilizes SAMS2 to promote polyamine synthesis, which upregulates ATG gene expression and facilitates autophagosome formation to degrade ubiquitinated proteins, thereby enhancing the thermotolerance of tomato plants.

Key words: ATG, heat stress, Solanum lycopersicum, spermidine, transglutaminases

Min Zhong, Qingshen Cui, Yan Yang, Ke Zhang, Xiaoying Liu, Guan Pang, Lifei Yang, Shirong Guo, Jin Sun, Yu Wang. Tomato TGase positively regulates thermotolerance by inducing polyamine to activate autophagy[J]. J Integr Plant Biol., DOI: 10.1111/jipb.13955.

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Tomato TGase positively regulates thermotolerance by inducing polyamine to activate autophagy

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