Author: Natoli, S.; Oliveira, V.; Calabresi, P.; Maia, L. F.; Pisani, A.
Title: Does SARSâ€Covâ€2 invade the brain? Translational lessons from animal models Cord-id: p93gxjm2 Document date: 2020_5_22
ID: p93gxjm2
Snippet: The current coronavirus disease (COVIDâ€19) outbreak, caused by the novel severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2), has raised the possibility of potential neurotropic properties of this virus. Indeed, neurological sequelae of SARSâ€CoVâ€2 infection have already been reported and highlight the relevance of considering the neurological impact of coronavirus (CoV) from a translational perspective. Animal models of SARS and Middle East respiratory syndrome, caused by stru
Document: The current coronavirus disease (COVIDâ€19) outbreak, caused by the novel severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2), has raised the possibility of potential neurotropic properties of this virus. Indeed, neurological sequelae of SARSâ€CoVâ€2 infection have already been reported and highlight the relevance of considering the neurological impact of coronavirus (CoV) from a translational perspective. Animal models of SARS and Middle East respiratory syndrome, caused by structurally similar CoVs during the 2002 and 2012 epidemics, have provided valuable data on nervous system involvement by CoVs and the potential for central nervous system spread of SARSâ€CoVâ€2. One key finding that may unify these pathogens is that all require angiotensinâ€converting enzyme 2 as a cell entry receptor. The CoV spike glycoprotein, by which SARSâ€CoVâ€2 binds to cell membranes, binds angiotensinâ€converting enzyme 2 with a higher affinity compared with SARSâ€CoV. The expression of this receptor in neurons and endothelial cells hints that SARSâ€CoVâ€2 may have higher neuroinvasive potential compared with previous CoVs. However, it remains to be determined how such invasiveness might contribute to respiratory failure or cause direct neurological damage. Both direct and indirect mechanisms may be of relevance. Clinical heterogeneity potentially driven by differential host immuneâ€mediated responses will require extensive investigation. Development of disease models to anticipate emerging neurological complications and to explore mechanisms of direct or immuneâ€mediated pathogenicity in the short and medium term is therefore of great importance. In this brief review, we describe the current knowledge from models of previous CoV infections and discuss their potential relevance to COVIDâ€19.
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