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Involvement of Urm1, a Ubiquitin-Like Protein, in the Regulation of Oxidative Stress Response of Toxoplasma gondii.

Qianqian TanJinwen WangJunpeng ChenXiaomei LiuXiao ChenQianqian XiaoJinxuan LiHongmei LiXiaomin ZhaoXiao Zhang
Published in: Microbiology spectrum (2022)
Ubiquitin-related modifier 1 (Urm1) is a ubiquitin-like molecule (UBL) with the ability to act as a posttranslational protein modifier. Here, we characterized the Toxoplasma gondii homolog of URM1 located in the tachyzoite cytoplasm. The total loss of the TgURM1 resulted in a significant reduction in parasite invasion, replication, and virulence in mice, revealing that TgURM1 plays a pivotal role in T. gondii survival. For TgURM1, urmylation was significantly induced by oxidative stress, and mutations of the C-terminal glycine-glycine motif of TgURM1 blocked the urmylation process. Furthermore, the TgURM1 knockout strain was intolerant to oxidative stress, suggesting that TgURM1 is involved in the oxidative stress process. TgAHP1, an alkyl hydroperoxide reductase, was screened via proximity-based protein labeling techniques and proteomics and was shown to interact with TgURM1 under oxidative stress conditions. In conclusion, TgURM1 is a UBL protein involved in the response of Toxoplasma to oxidative stress. IMPORTANCE T. gondii has an intricate life cycle which involves multiple morphologically and physiologically distinct stages, and posttranslational modifications (PTMs) may be key regulators of protein expression at relevant life cycle stages. In recent years, ubiquitin-like proteins with modification functions have been discovered and studied, including Sumo, Rub1, ATG8, and ATG12. Ubiquitin-related modifier 1 (Urm1) is a ubiquitin-like molecule (UBL), which is considered to be the oldest ubiquitin-like system. In this study, we identified the Urm1 gene in Toxoplasma and explored that the urmylation of Urm1 was significantly induced by oxidative stress. Fewer studies have been conducted on ubiquitin-like proteins of parasites, and our results provide theoretical support for the research of metabolic regulation and antioxidative stress processes in T. gondii.
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