Your search keyword '"Wei, Lu-qi"' showing total 2 results

1. Global fungal-host interactome mapping identifies host targets of candidalysin.

Author

Zhang, Tian-Yi, Chen, Yao-Qi, Tan, Jing-Cong, Zhou, Jin-An, Chen, Wan-Ning, Jiang, Tong, Zha, Jin-Yin, Zeng, Xiang-Kang, Li, Bo-Wen, Wei, Lu-Qi, Zou, Yun, Zhang, Lu-Yao, Hong, Yue-Mei, Wang, Xiu-Li, Zhu, Run-Ze, Xu, Wan-Xing, Xi, Jing, Wang, Qin-Qin, Pan, Lei, and Zhang, Jian

Subjects

DOUBLE-strand DNA breaks, DNA repair, MYCOTOXINS, DNA damage, MYCOSES, PEPTIDES

Abstract

Candidalysin, a cytolytic peptide toxin secreted by the human fungal pathogen Candida albicans, is critical for fungal pathogenesis. Yet, its intracellular targets have not been extensively mapped. Here, we performed a high-throughput enhanced yeast two-hybrid (HT-eY2H) screen to map the interactome of all eight Ece1 peptides with their direct human protein targets and identified a list of potential interacting proteins, some of which were shared between the peptides. CCNH, a regulatory subunit of the CDK-activating kinase (CAK) complex involved in DNA damage repair, was identified as one of the host targets of candidalysin. Mechanistic studies revealed that candidalysin triggers a significantly increased double-strand DNA breaks (DSBs), as evidenced by the formation of γ-H2AX foci and colocalization of CCNH and γ-H2AX. Importantly, candidalysin binds directly to CCNH to activate CAK to inhibit DNA damage repair pathway. Loss of CCNH alleviates DSBs formation under candidalysin treatment. Depletion of candidalysin-encoding gene fails to induce DSBs and stimulates CCNH upregulation in a murine model of oropharyngeal candidiasis. Collectively, our study reveals that a secreted fungal toxin acts to hijack the canonical DNA damage repair pathway by targeting CCNH and to promote fungal infection. Candidalysin is a toxin secreted by Candida albicans. Although critical for pathogenesis, its intracellular targets are not well mapped. Here, Zhang et al screen for interacting proteins and identify that candidalysin can modulate the DNA damage repair pathway to promote fungal infection. [ABSTRACT FROM AUTHOR]

Published

2024

2. Microbiome dysbiosis in lung cancer: from composition to therapy.

Author

Liu, Ning-Ning, Ma, Qiang, Ge, Yang, Yi, Cheng-Xiang, Wei, Lu-Qi, Tan, Jing-Cong, Chu, Qiao, Li, Jing-Quan, Zhang, Peng, and Wang, Hui

Subjects

HUMAN microbiota, LUNG cancer, NEOPLASTIC cell transformation, CYTOKINES, CANCER invasiveness

Abstract

The correlations between microbiota dysbiosis and cancer have gained extensive attention and been widely explored. As a leading cancer diagnosis worldwide, lung cancer poses a great threat to human health. The healthy human lungs are consistently exposed to external environment and harbor a specific pattern of microbiota, sharing many key pathological and physiological characteristics with the intestinal tract. Although previous findings uncovered the critical roles of microbiota in tumorigenesis and response to anticancer therapy, most of them were focused on the intestinal microbiota rather than lung microbiota. Notably, the considerable functions of microbiota in maintaining lung homeostasis should not be neglected as the microbiome dysbiosis may promote tumor development and progression through production of cytokines and toxins and multiple other pathways. Despite the fact that increasing studies have revealed the effect of microbiome on the induction of lung cancer and different disease status, the underlying mechanisms and potential therapeutic strategies remained unclear. Herein, we summarized the recent progresses about microbiome in lung cancer and further discussed the role of microbial communities in promoting lung cancer progression and the current status of therapeutic approaches targeting microbiome to alleviate and even cure lung cancer. [ABSTRACT FROM AUTHOR]

Published

2020