AI Article Synopsis
- Sepsis is a serious condition that results from severe infection and leads to a harmful immune response, potentially causing multiple organ failure and death, highlighting the need for better treatments.* -
- Cath-HG is a compound identified to improve platelet function and survival in septic mice, with properties that include antimicrobial, anti-inflammatory, and anticoagulant effects.* -
- Research shows that Cath-HG can effectively neutralize LPS, kill bacteria, reduce inflammation, and protect against tissue damage in sepsis, making it a strong candidate for new sepsis therapies.*
Article Abstract
The clinical syndrome of sepsis arises from severe infection, triggering an abnormal immune response that can lead to multiple organ dysfunction and ultimately the death of the host. Current therapies for sepsis are often limited in efficacy and fail to target the complex interplay of infection, inflammation and coagulation, leading to high mortality rates, which underscores the urgent need for novel therapeutics to combat sepsis. We previously identified Cath-HG, a compound capable of alleviating platelet dysfunction by suppressing GPVI-mediated platelet activation, thereby improving the survival of septic mice subjected to cecal ligation and puncture. Here, we further explored the antimicrobial, anti-inflammatory, LPS-neutralizing and anticoagulant properties of Cath-HG, as well as its protective effects in LPS-induced septic mice. Our results demonstrated that Cath-HG can bind to LPS, aggregate bacteria, and disrupt bacterial cell membranes, subsequently resulting in microbial death. Unlike most other Cathelicidins, Cath-HG displayed anticoagulation properties by regulating the enzymes plasmin, thrombin, β-tryptase, chymase and tissue plasminogen activator. In septic mice, Cath-HG provided protection against sepsis induced by LPS injection and exhibited bactericidal killing, LPS neutralization and inhibition of coagulation and MAPK signal transduction. Furthermore, Cath-HG obviously reduced the expression of pro-inflammatory cytokines and improved the pathological manifestations of tissue injury across multiple organs. Thus, Cath-HG emerges as a promising drug candidate for protecting against sepsis.
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| http://dx.doi.org/10.1016/j.intimp.2024.113332 | DOI Listing |
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