Bioinformatics analyses reveal cell-barrier junction modulations in lung epithelial cells on SARS-CoV-2 infection.

Cell junctions maintain the blood-tissue barriers to preserve vascular and tissue integrity. Viral infections reportedly modulate cell-cell junctions to facilitate their invasion. However, information on the effect of COVID-19 infection on the gene expression of cell junction and cytoskeletal proteins is limited. Using the Gene Expression Omnibus and Reactome databases, we analyzed the data on human lung A549, NHBE, and Calu-3 cells for the expression changes in cell junction and cytoskeletal proteins by SARS-CoV-2 (CoV-2) infection. The analysis revealed changes in 3,660 genes in A549, 100 genes in NHBE, and 592 genes in Calu-3 cells with CoV-2 infection. Interestingly, EGOT (9.8-, 3- and 8.3-fold; p < .05) and CSF3 (4.3-, 33- and 56.3-fold; p < .05) were the only two genes significantly elevated in all three cell lines (A549, NHBE and Calu-3, respectively). On the other hand, 39 genes related to cell junctions and cytoskeleton were modulated in lung cells, with DLL1 demonstrating alterations in all cells. Alterations were also seen in several miRNAs associated with the cell junction and cytoskeleton genes modulated in the analysis. Further, matrix metalloproteinases involved in disease pathologies, including MMP-3, -9, and -12 demonstrated elevated expression on CoV-2 infection (p < .05). The study findings emphasize the integral role of cell junction and cytoskeletal genes in COVID-19, suggesting their therapeutic potential. Our analysis also identified a distinct EGOT gene that has not been previously implicated in COVID-19. Further studies on these newly identified genes and miRNAs could lead to advances in the pathogenesis and therapeutics of COVID-19.

Convalescent plasma appears efficacious and safe in COVID-19.

A cluster of pneumonia cases of unknown etiology associated with pyrexia and acute respiratory distress was identified in Southern China. Links between the previous severe acute respiratory syndrome (SARS) cases and the region's seafood market were noted with the possibility of a new zoonosis and SARS-CoV-2 was identified as the responsible agent. Currently, there are no effective prophylactic or therapeutic options to deal with coronavirus disease-19 (COVID-19) or any other human coronavirus (HCoV) infections. Convalescent plasma (CP) therapy is a classic adaptive immunotherapy which has been in use for more a century to prevent and treat infections including SARS, Middle East respiratory syndrome (MERS), and H1N1 pandemic. Moreover, the World Health Organization regarded CP transfusion as the most promising therapy to treat MERS-CoV. This review was undertaken to demonstrate the potential of CP in the treatment of the pandemic COVID-19 disease. A total of eight studies conducted on CP therapy in patients with COVID-19 were reviewed wherein 25,028 patients above 18 years of age were involved. The vast majority of patients reported favorable outcomes when treated with CP with <1% serious adverse events. Despite its promising beneficial effects in patients severely ill with COVID-19, CP therapy requires further evaluation in randomized clinical trials (RCTs) as a lack of satisfactory efficacy data from this area certainly enhances the hesitancy with regard to employing this treatment. In the present circumstances of unsatisfactory pharmacological therapy and the urgent need for a successful curative remedy, considering the use of CP therapy is reasonable provided RCTs confirm its safety, efficacy, and tolerability.