Your search keyword '"MG53"' showing total 2 results

1. MG53 Mitigates Nitrogen Mustard-Induced Skin Injury.

Author

Li, Haichang, Li, Zhongguang, Li, Xiuchun, Cai, Chuanxi, Zhao, Serena Li, Merritt, Robert E., Zhou, Xinyu, Tan, Tao, Bergdall, Valerie, and Ma, Jianjie

Subjects

*SKIN injuries, *TOPICAL drug administration, *HUMAN stem cells, *SOFT tissue injuries, *HAIR follicles, *MUSTARD gas

Abstract

Sulfur mustard (SM) and nitrogen mustard (NM) are vesicant agents that cause skin injury and blistering through complicated cellular events, involving DNA damage, free radical formation, and lipid peroxidation. The development of therapeutic approaches targeting the multi-cellular process of tissue injury repair can potentially provide effective countermeasures to combat vesicant-induced dermal lesions. MG53 is a vital component of cell membrane repair. Previous studies have demonstrated that topical application of recombinant human MG53 (rhMG53) protein has the potential to promote wound healing. In this study, we further investigate the role of MG53 in NM-induced skin injury. Compared with wild-type mice, mg53−/− mice are more susceptible to NM-induced dermal injuries, whereas mice with sustained elevation of MG53 in circulation are resistant to dermal exposure of NM. Exposure of keratinocytes and human follicle stem cells to NM causes elevation of oxidative stress and intracellular aggregation of MG53, thus compromising MG53′s intrinsic cell membrane repair function. Topical rhMG53 application mitigates NM-induced dermal injury in mice. Histologic examination reveals the therapeutic benefits of rhMG53 are associated with the preservation of epidermal integrity and hair follicle structure in mice with dermal NM exposure. Overall, these findings identify MG53 as a potential therapeutic agent to mitigate vesicant-induced skin injuries. [ABSTRACT FROM AUTHOR]

Published

2023

2. Deficient Sarcolemma Repair in ALS: A Novel Mechanism with Therapeutic Potential.

Author

Li, Ang, Yi, Jianxun, Li, Xuejun, Dong, Li, Ostrow, Lyle W., Ma, Jianjie, and Zhou, Jingsong

Subjects

*AMYOTROPHIC lateral sclerosis, *SARCOLEMMA, *MOTOR neuron diseases, *PLASMA instabilities, *MYONEURAL junction, *CELL membranes, *PHYSIOLOGICAL stress

Abstract

The plasma membrane (sarcolemma) of skeletal muscle myofibers is susceptible to injury caused by physical and chemical stresses during normal daily movement and/or under disease conditions. These acute plasma membrane disruptions are normally compensated by an intrinsic membrane resealing process involving interactions of multiple intracellular proteins including dysferlin, annexin, caveolin, and Mitsugumin 53 (MG53)/TRIM72. There is new evidence for compromised muscle sarcolemma repair mechanisms in Amyotrophic Lateral Sclerosis (ALS). Mitochondrial dysfunction in proximity to neuromuscular junctions (NMJs) increases oxidative stress, triggering MG53 aggregation and loss of its function. Compromised membrane repair further worsens sarcolemma fragility and amplifies oxidative stress in a vicious cycle. This article is to review existing literature supporting the concept that ALS is a disease of oxidative-stress induced disruption of muscle membrane repair that compromise the integrity of the NMJs and hence augmenting muscle membrane repair mechanisms could represent a viable therapeutic strategy for ALS. [ABSTRACT FROM AUTHOR]

Published

2022