Suppression of Skp2 contributes to sepsis-induced acute lung injury by enhancing ferroptosis through the ubiquitination of SLC3A2

Chen, Zhaoyuan; Zhang, Jie; Gao, Shenjia; Jiang, Yi; Qu, Mengdi; Gu, Jiahui; Wu, Han; Nan, Ke; Zhang, Hao; Wang, Jun; Chen, Wankun; Miao, Changhong

doi:10.1007/s00018-024-05348-3

Cell. Mol. Life Sci.

2024

DOI: 10.1007/s00018-024-05348-3

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Suppression of Skp2 contributes to sepsis-induced acute lung injury by enhancing ferroptosis through the ubiquitination of SLC3A2

Zhaoyuan Chen,

Jie Zhang,

Shenjia Gao

et al.

Abstract: Sepsis is a life-threatening organ dysfunction caused by a dysregulated host response to infection. The inflammatory cytokine storm causes systemic organ damage, especially acute lung injury in sepsis. In this study, we found that the expression of S-phase kinase-associated protein 2 (Skp2) was significantly decreased in sepsis-induced acute lung injury (ALI). Sepsis activated the MEK/ERK pathway and inhibited Skp2 expression in the pulmonary epithelium, resulting in a reduction of K48 ubiquitination of solute… Show more

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Cited by 2 publications

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Targeting ferroptosis offers therapy choice in sepsis-associated acute lung injury

Wang,

Zhang

et al. 2025

European Journal of Medicinal Chemistry

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Targeting ferroptosis offers therapy choice in sepsis-associated acute lung injury

Wang,

Zhang

et al. 2025

European Journal of Medicinal Chemistry

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Exploiting the Zebrafish Model for Sepsis Research: Insights into Pathophysiology and Therapeutic Potentials

He,

Xu,

Chen

et al. 2024

DDDT

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Sepsis, a severe condition instigated by infections, continues to be a primary global cause of death, typified by systemic inflammation and advancing immune dysfunction. Comprehending the complex pathological processes that underlie sepsis is integral to the creation of efficacious treatments. Despite the inability of animal models to entirely reproduce the clinical intricacies related to sepsis, they are invaluable instruments for the exploration and development of therapeutic approaches. Within this context, the zebrafish model is particularly noteworthy due to its genetic tractability, transparency, and appropriateness for high-throughput screening of genetic mutants and therapeutic compounds. This scholarly review emphasizes the crucial role that the zebrafish disease model plays in enhancing our comprehension of sepsis, by exploring its applications in deciphering immune and inflammatory responses, evaluating the consequences of genetic alterations, and examining novel therapeutic agents. The Insights derived from zebrafish research not only augment our understanding of the underlying mechanisms of sepsis, but also possess considerable potential for the transference of these discoveries into clinical therapies, thus potentially transforming the approach to sepsis management. The objective of this scholarly article is to underscore the importance of zebrafish in the realm of biomedical research pertaining to sepsis, and to delineate forthcoming opportunities for utilizing this model in clinical applications.

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Suppression of Skp2 contributes to sepsis-induced acute lung injury by enhancing ferroptosis through the ubiquitination of SLC3A2

Cited by 2 publications

References 79 publications

Targeting ferroptosis offers therapy choice in sepsis-associated acute lung injury

Targeting ferroptosis offers therapy choice in sepsis-associated acute lung injury

Exploiting the Zebrafish Model for Sepsis Research: Insights into Pathophysiology and Therapeutic Potentials

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