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Augmenting Neutrophil Extracellular Traps with Carbonized Polymer Dots: A Potential Treatment for Bacterial Sepsis
Ist Teil von
Small (Weinheim an der Bergstrasse, Germany), 2024-07, Vol.20 (27), p.e2307210-n/a
Ort / Verlag
Germany: Wiley Subscription Services, Inc
Erscheinungsjahr
2024
Quelle
Wiley-Blackwell Journals
Beschreibungen/Notizen
Sepsis is a life‐threatening condition that can progress to septic shock as the body's extreme response to pathogenesis damages its own vital organs. Staphylococcus aureus (S. aureus) accounts for 50% of nosocomial infections, which are clinically treated with antibiotics. However, methicillin‐resistant strains (MRSA) have emerged and can withstand harsh antibiotic treatment. To address this problem, curcumin (CCM) is employed to prepare carbonized polymer dots (CPDs) through mild pyrolysis. Contrary to curcumin, the as‐formed CCM‐CPDs are highly biocompatible and soluble in aqueous solution. Most importantly, the CCM‐CPDs induce the release of neutrophil extracellular traps (NETs) from the neutrophils, which entrap and eliminate microbes. In an MRSA‐induced septic mouse model, it is observed that CCM‐CPDs efficiently suppress bacterial colonization. Moreover, the intrinsic antioxidative, anti‐inflammatory, and anticoagulation activities resulting from the preserved functional groups of the precursor molecule on the CCM‐CPDs prevent progression to severe sepsis. As a result, infected mice treated with CCM‐CPDs show a significant decrease in mortality even through oral administration. Histological staining indicates negligible organ damage in the MRSA‐infected mice treated with CCM‐CPDs. It is believed that the in vivo studies presented herein demonstrate that multifunctional therapeutic CPDs hold great potential against life‐threatening infectious diseases.
The biocompatible curcumin‐derived carbonized polymer dots (CCM‐CPDs) stimulate neutrophils to release traps that capture and eradicate harmful microbes. Tested on mice with MRSA‐induced sepsis, CCM‐CPDs notably curtailed bacterial growth, prevents severe septic developments, and significantly reduces mortality rates. Histological analysis reveals minimal organ damage in treated mice. Harnessing the power of natural phytochemicals to create carbonized nanomaterials to boost immune responses, offers promising potential against severe infectious diseases, marking a significant stride in combating antibiotic‐resistant pathogens.