Researchers Identify Human Genes That Fight SARS-C

Researchers Identify Human Genes That Fight SARS-CoV-2 Infection

Researchers have determined which set of human genes help fight the infection that is known to cause COVID-19, the SARS-CoV-2. This information could be beneficial in helping researchers understand the factors that influence the ailment’s severity, in addition to assisting in the formulation of therapies for the said disease. The research was reported in the “Molecular Cell” journal.

The genes, which were identified by researchers from the Sanford Burnham Prebys Medical Discovery Institute are associated with the cells that fight viruses in the body, known as interferons.

The lead author of the study, Prof. Sumit K. Chanda, stated that the team’s objective was to gain new insights into the body’s response to the SARS-CoV-2 infection and find out what drove a weak or strong response to infection. Chanda, who is also the institute’s Immunity and Pathogenesis Program director, explained that through its study, the researchers were able to improve their understanding of how the virus manipulated the cells it invaded in the human body.

Soon after the pandemic began, researchers discovered that a weak interferon response to the infection caused the most serious coronavirus cases. This information led Chanda and his partners to begin looking for the human genes that were set off by interferons.

The researchers were able to develop lab experiments that could identify interferon-stimulated-genes that controlled the replication of the coronavirus’ cells, based on the information obtained from the SARS-CoV-1 virus, which bears some similarities to the SARS-CoV-2 infection. The former virus caused a relatively brief but fatal disease outbreak between 2002–2004.

Chanda revealed that researchers discovered that the SARS-CoV-2 infection was controlled by 65 interferon-stimulated-genes, which included some that impeded the ability of the virus to penetrate cells; he added that they also found that some of these genes displayed control across unrelated viruses, including the West Nile, seasonal flu and HIV.

The study’s first author, Laura Martin-Sancho, stated that the information they discovered was important and that they would be focusing on unearthing more information about the virus’ biology by studying whether genetic variability in these interferon-stimulated-genes correlated with the severity of a coronavirus infection. Martin-Sancho also noted that they would be looking into the biology of the SARS-CoV-2 variants, which threaten the effectiveness of vaccines by mutating, adding that they’d already begun collecting the variants for lab experiments.

Chanda concluded that it was important to continue with research efforts on the disease, despite the presence of vaccines that are helping to contain the pandemic.

Research efforts aren’t only being directed at the coronavirus infection. Other companies, such as Brain Scientific Inc. (OTCQB: BRSF), are devoting their energies to other health challenges such as the need to improve neurological diagnostics.

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