Author: Zheng, Yunfeng; Li, Renfeng; Liu, Shunai
Title: Immunoregulation with mTOR inhibitors to prevent COVIDâ€19 severity: A novel intervention strategy beyond vaccines and specific antiviral medicines Cord-id: z6sx8csb Document date: 2020_5_22
ID: z6sx8csb
Snippet: Coronavirus disease 2019 (COVIDâ€19) has become a major global public health concern. The mortality rate for critically ill patients is up to 60%, and, thus, reducing the disease severity and case mortality is a top priority. Currently, cytokine storms are considered as the major cause of critical illness and death due to COVIDâ€19. After a systematical review of the literature, we propose that crossâ€reactive antibodies associated with antibodyâ€dependent enhancement (ADE) may actually be t
Document: Coronavirus disease 2019 (COVIDâ€19) has become a major global public health concern. The mortality rate for critically ill patients is up to 60%, and, thus, reducing the disease severity and case mortality is a top priority. Currently, cytokine storms are considered as the major cause of critical illness and death due to COVIDâ€19. After a systematical review of the literature, we propose that crossâ€reactive antibodies associated with antibodyâ€dependent enhancement (ADE) may actually be the cause of cytokine storms. It would be more difficult to develop vaccines for highly pathogenic human coronaviruses (CoVs) if ADE characteristics are taken into consideration. Therefore, it is urgent to find an effective way to prevent the occurrence of severe illness as severe acute respiratory syndrome CoVâ€2 specific drugs or vaccines are still in development. If the activation of memory B cells can be selectively inhibited in highâ€risk patients at an early stage of COVIDâ€19 to reduce the production of crossâ€reactive antibodies against the virus, we speculate that ADE can be circumvented and severe symptoms can be prevented. The mammalian target of rapamycin (mTOR) inhibitors satisfy such needs and it is recommended to conduct clinical trials for mTOR inhibitors in preventing the severity of COVIDâ€19.
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