The transcription factor NAC102 confers cadmium tolerance by regulating WAKL11 expression and cell wall pectin metabolism in Arabidopsis

doi:10.1111/jipb.13557

J Integr Plant Biol. ›› 2023, Vol. 65 ›› Issue (10): 2262-2278.DOI: 10.1111/jipb.13557

• Abiotic Stress Responses • Previous Articles Next Articles

The transcription factor NAC102 confers cadmium tolerance by regulating WAKL11 expression and cell wall pectin metabolism in Arabidopsis

Guang Hao Han^1†, Ru Nan Huang^1†, Li Hong Hong¹, Jia Xi Xu¹, Yi Guo Hong^1,2, Yu Huan Wu^1* and Wei Wei Chen^1,3*

1. Research Center for Plant RNA Signaling, College of Life and Environmental Sciences, Hangzhou Normal University, Hangzhou 310036, China;
2. Warwick‐Hangzhou RNA Signaling Joint Laboratory, School of Life Sciences, University of Warwick, Warwick CV4 7AL, United Kingdom;
3. State Key Laboratory of Plant Physiology and Biochemistry, College of Life Sciences, Zhejiang University, Hangzhou 310058, China
^†These authors contributed equally to this work.
^*Correspondences: Yu Huan Wu (yuhuanwu@hznu.edu.cn); Wei Wei Chen (chenweiwei@hznu.edu.cn, Dr. Chen is fully responsible for the distribution of plant materials in this article)

Received:2023-04-22 Accepted:2023-08-10 Online:2023-08-11 Published:2023-10-01

Abstract

Abstract: Cadmium (Cd) toxicity severely limits plant growth and development. Moreover, Cd accumulation in vegetables, fruits, and food crops poses health risks to animals and humans. Although the root cell wall has been implicated in Cd stress in plants, whether Cd binding by cell wall polysaccharides contributes to tolerance remains controversial, and the mechanism underlying transcriptional regulation of cell wall polysaccharide biosynthesis in response to Cd stress is unknown. Here, we functionally characterized an Arabidopsis thaliana NAC-type transcription factor, NAC102, revealing its role in Cd stress responses. Cd stress rapidly induced accumulation of NAC102.1, the major transcript encoding functional NAC102, especially in the root apex. Compared to wild type (WT) plants, a nac102 mutant exhibited enhanced Cd sensitivity, whereas NAC102.1-overexpressing plants displayed the opposite phenotype. Furthermore, NAC102 localizes to the nucleus, binds directly to the promoter of WALL-ASSOCIATED KINASE-LIKE PROTEIN11 (WAKL11), and induces transcription, thereby facilitating pectin degradation and decreasing Cd binding by pectin. Moreover, WAKL11 overexpression restored Cd tolerance in nac102 mutants to the WT levels, which was correlated with a lower pectin content and lower levels of pectin-bound Cd. Taken together, our work shows that the NAC102-WAKL11 module regulates cell wall pectin metabolism and Cd binding, thus conferring Cd tolerance in Arabidopsis.

Key words: cadmium stress, cell wall, NAC102, transcriptional regulation, WAKL

Guang Hao Han, Ru Nan Huang, Li Hong Hong, Jia Xi Xu, Yi Guo Hong, Yu Huan Wu and Wei Wei Chen. The transcription factor NAC102 confers cadmium tolerance by regulating WAKL11 expression and cell wall pectin metabolism in Arabidopsis[J]. J Integr Plant Biol., 2023, 65(10): 2262-2278.

[1]	Jian‐Ping An, Rui‐Rui Xu, Xiao‐Na Wang, Xiao‐Wei Zhang, Chun‐Xiang You and Yuepeng Han. MdbHLH162 connects the gibberellin and jasmonic acid signals to regulate anthocyanin biosynthesis in apple [J]. J Integr Plant Biol., 2024, 66(2): 265-284.
[2]	Ding Ren, Hui Liu, Xuejun Sun, Fan Zhang, Ling Jiang, Ying Wang, Ning Jiang, Peiwen Yan, Jinhao Cui, Jinshui Yang, Zhikang Li, Pingli Lu and Xiaojin Luo. Post-transcriptional regulation of grain weight and shape by the RBP-A-J-K complex in rice [J]. J Integr Plant Biol., 2024, 66(1): 66-85.
[3]	Shuangcheng He, Yuanchang Min, Zijin Liu, Fang Zhi, Rong Ma, Ankang Ge, Shixiang Wang, Yu Zhao, Danshuai Peng, Da Zhang, Minshan Jin, Bo Song, Jianjun Wang, Yuan Guo and Mingxun Chen. Antagonistic MADS-box transcription factors SEEDSTICK and SEPALLATA3 form a transcriptional regulatory network that regulates seed oil accumulation [J]. J Integr Plant Biol., 2024, 66(1): 121-142.
[4]	Zunyang Song, Xiaoyang Zhu, Xiuhua Lai, Hangcong Chen, Lihua Wang, Yulin Yao, Weixin Chen and Xueping Li. MaBEL1 regulates banana fruit ripening by activating cell wall and starch degradation-related genes [J]. J Integr Plant Biol., 2023, 65(9): 2036-2055.
[5]	Chong Wang, Hao Cheng, Wenjing Xu, Jingshi Xue, Xinguo Hua, Guimin Tong, Xujun Ma, Chuanping Yang, Xingguo Lan, Shi‐Yi Shen, Zhongnan Yang, Jirong Huang and Yuxiang Cheng. Arabidopsis pollen-specific glycerophosphodiester phosphodiesterase-like genes are essential for pollen tube tip growth [J]. J Integr Plant Biol., 2023, 65(8): 2001-2017.
[6]	Guoguo Lv, Yixiao Zhang, Lin Ma, Xiangning Yan, Mingjie Yuan, Jianhui Chen, Yongzhen Cheng, Xi Yang, Qi Qiao, Leilei Zhang, Mohsin Niaz, Xiaonan Sun, Qijun Zhang, Shaobin Zhong and Feng Chen. A cell wall invertase modulates resistance to fusarium crown rot and sharp eyespot in common wheat [J]. J Integr Plant Biol., 2023, 65(7): 1814-1825.
[7]	Qi Wu, Yu Ting Meng, Zhi Hang Feng, Ren Fang Shen and Xiao Fang Zhu. The endo-beta mannase MAN7 contributes to cadmium tolerance by modulating root cell wall binding capacity in Arabidopsis thaliana [J]. J Integr Plant Biol., 2023, 65(7): 1670-1686.
[8]	Dami Yang, Hyun‐young Shin, Hyun Kyung Kang, Yun Shang, So Young Park, Dong‐Hoon Jeong and Kyoung Hee Nam. Reciprocal inhibition of expression between RAV1 and BES1 modulates plant growth and development in Arabidopsis [J]. J Integr Plant Biol., 2023, 65(5): 1226-1240.
[9]	Xin‐Wei Zhao, Qiao Wang, Dian Wang, Wei Guo, Meng‐Xuan Hu, Ying‐Li Liu, Gong‐Ke Zhou, Guo‐Hua Chai, Shu‐Tang Zhao and Meng‐Zhu Lu. PagERF81 regulates lignin biosynthesis and xylem cell differentiation in poplar [J]. J Integr Plant Biol., 2023, 65(5): 1134-1146.
[10]	Li Jun Gao, Xiang Pei Liu, Ke Ke Gao, Meng Qi Cui, Hui Hui Zhu, Gui Xin Li, Jing Ying Yan, Yun Rong Wu, Zhong Jie Ding, Xue Wei Chen, Jian Feng Ma, Nicholas P. Harberd and Shao Jian Zheng. ART1 and putrescine contribute to rice aluminum resistance via OsMYB30 in cell wall modification [J]. J Integr Plant Biol., 2023, 65(4): 934-949.
[11]	Xiaolong Hao, Can Wang, Wei Zhou, Qingyan Ruan, Chenhong Xie, Yinkai Yang, Chengyu Xiao, Yan Cai, Jingyi Wang, Yao Wang, Xuebin Zhang, Itay Maoz, Guoyin Kai. OpNAC1 transcription factor regulates the biosynthesis of the anticancer drug camptothecin by targeting loganic acid O-methyltransferase in Ophiorrhiza pumila [J]. J Integr Plant Biol., 2023, 65(1): 133-149.
[12]	Yutong Liu, Mengting Li, Jinlei Yu, Ao Ma, Jie Wang, Dae-Jin Yun, Zheng-Yi Xu. Plasma membrane-localized Hsp40/DNAJ chaperone protein facilitates OsSUVH7-OsBAG4-OsMYB106 transcriptional complex formation for OsHKT1;5 activation [J]. J Integr Plant Biol., 2023, 65(1): 265-279.
[13]	Shuangshuang Zhao, Lei Zhao, Fengxia Liu, Yongzhen Wu, Zuofeng Zhu, Chuanqing Sun, and Lubin Tan. NARROW AND ROLLED LEAF 2 regulates leaf shape, male fertility, and seed size in rice [J]. J Integr Plant Biol., 2016, 58(12): 983-996.
[14]	Lin Liu, Fangzhou Shen, Changpeng Xin, and Zhuo Wang. Multi-scale modeling of Arabidopsis thaliana response to different CO₂ conditions: From gene expression to metabolic flux [J]. J Integr Plant Biol., 2016, 58(1): 2-11.
[15]	Magdalena Glass, Sarah Barkwill, Faride Unda and Shawn D. Mansfield. Endo-β-1,4-glucanases impact plant cell wall development by influencing cellulose crystallization [J]. J Integr Plant Biol., 2015, 57(4): 396-410.

The transcription factor NAC102 confers cadmium tolerance by regulating WAKL11 expression and cell wall pectin metabolism in Arabidopsis

HTML

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments