Author: Choudhury, Abhigyan; Mukherjee, Suprabhat
Title: In silico studies on the comparative characterization of the interactions of SARSâ€CoVâ€2 spike glycoprotein with ACEâ€2 receptor homologs and human TLRs Cord-id: o1uol5u3 Document date: 2020_5_17
ID: o1uol5u3
Snippet: Coronavirus diseaseâ€2019 (COVIDâ€19) outbreak due to novel coronavirus or severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2) infection has come out as a major threat for mankind in recent times. It is continually taking an enormous toll on mankind by means of increasing number of deaths, associated comorbidities, and socioeconomic loss around the globe. Unavailability of chemotherapeutics/vaccine has posed tremendous challenges to scientists and doctors for developing an urgent
Document: Coronavirus diseaseâ€2019 (COVIDâ€19) outbreak due to novel coronavirus or severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2) infection has come out as a major threat for mankind in recent times. It is continually taking an enormous toll on mankind by means of increasing number of deaths, associated comorbidities, and socioeconomic loss around the globe. Unavailability of chemotherapeutics/vaccine has posed tremendous challenges to scientists and doctors for developing an urgent therapeutic strategy. In this connection, the present in silico study aims to understand the sequence divergence of spike protein (the major infective protein of SARSâ€CoVâ€2), its mode of interaction with the angiotensinâ€converting enzymeâ€2 receptor (ACE2) receptor of human and related animal hosts/reservoir. Moreover, the involvement of the human Tollâ€like receptors (TLRs) against the spike protein has also been demonstrated. Our data indicated that the spike glycoprotein of SARSâ€CoVâ€2 is phylogenetically close to bat coronavirus and strongly binds with ACE2 receptor protein from both human and bat origin. We have also found that cell surface TLRs, especially TLR4 is most likely to be involved in recognizing molecular patterns from SARSâ€CoVâ€2 to induce inflammatory responses. The present study supported the zoonotic origin of SARSâ€CoVâ€2 from a bat and also revealed that TLR4 may have a crucial role in the virusâ€induced inflammatory consequences associated with COVIDâ€19. Therefore, selective targeting of TLR4â€spike protein interaction by designing competitive TLR4â€antagonists could pave a new way to treat COVIDâ€19. Finally, this study is expected to improve our understanding on the immunobiology of SARSâ€CoVâ€2 and could be useful in adopting spike protein, ACE2, or TLRâ€guided intervention strategy against COVIDâ€19 shortly.
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