Author: Park, Hee Ho; Park, Wooram; Lee, Yun Young; Kim, Hyelim; Seo, Hee Seung; Choi, Dong Wook; Kwon, Hoâ€Keun; Na, Dong Hee; Kim, Taeâ€Hyung; Choy, Young Bin; Ahn, June Hong; Lee, Wonhwa; Park, Chun Gwon
Title: Bioinspired DNaseâ€Iâ€Coated Melaninâ€Like Nanospheres for Modulation of Infectionâ€Associated NETosis Dysregulation Cord-id: ug8tas5k Document date: 2020_10_20
ID: ug8tas5k
Snippet: The current outbreak of the betaâ€coronavirus (betaâ€Cov) severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2) began in December 2019. No specific antiviral treatments or vaccines are currently available. A recent study has reported that coronavirus disease 2019 (COVIDâ€19), the disease caused by SARSâ€CoVâ€2 infection, is associated with neutrophilâ€specific plasma membrane rupture, and release excessive neutrophil extracellular traps (NETs) and extracellular DNAs (eDNAs). Thi
Document: The current outbreak of the betaâ€coronavirus (betaâ€Cov) severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2) began in December 2019. No specific antiviral treatments or vaccines are currently available. A recent study has reported that coronavirus disease 2019 (COVIDâ€19), the disease caused by SARSâ€CoVâ€2 infection, is associated with neutrophilâ€specific plasma membrane rupture, and release excessive neutrophil extracellular traps (NETs) and extracellular DNAs (eDNAs). This mechanism involves the activation of NETosis, a neutrophilâ€specific programmed cell death, which is believed to play a crucial role in COVIDâ€19 pathogenesis. Further progression of the disease can cause uncontrolled inflammation, leading to the initiation of cytokine storms, acute respiratory distress syndrome (ARDS), and sepsis. Herein, it is reported that DNaseâ€Iâ€coated melaninâ€like nanospheres (DNaseâ€I pMNSs) mitigate sepsisâ€associated NETosis dysregulation, thereby preventing further progression of the disease. Recombinant DNaseâ€I and poly(ethylene glycol) (PEG) are used as coatings to promote the lengthy circulation and dissolution of NET structure. The data indicate that the application of bioinspired DNaseâ€I pMNSs reduce neutrophil counts and NETosisâ€related factors in the plasma of SARSâ€CoVâ€2 sepsis patients, alleviates systemic inflammation, and attenuates mortality in a septic mouse model. Altogether, the findings suggest that these nanoparticles have potential applications in the treatment of SARSâ€CoVâ€2â€related illnesses and other betaâ€CoVâ€related diseases.
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