Scientists discover a drug that can fight both cancer and COVID-19

Although vaccines against COVID-19 are effective, scientists continue to search for drugs to deal with possible new (and dangerous) strains of the virus. The latest finding has been the GRP87 chaperone protein, essential for the spread of SARS-CoV-2.

The study, led by biochemist Amy S. Lee, from the University of Southern California (USC) and published in Nature Communications , has discovered that this protein – involved in the spread of other viruses – plays an essential role in the spread of the virus. what causes covid

⚡️RESEARCH ALERT: A new study of the chaperone protein GRP-78 shows inhibiting its activity with a new targeted drug could be effective in fight against both COVID-19 and certain kinds of #cancer. https://t.co/BmrRmh772D

— Keck School of Medicine of USC (@KECKSchool_USC) November 14, 2022

The study shows that when the production of GRP78 is blocked or its activity is inhibited with a new drug developed to treat cancer, the replication of the virus is greatly reduced.

Research suggests that this drug could protect against COVID-19, and be effective even when new strains are developed.

“A major problem in fighting SARS-CoV-2 is that it is constantly mutating and adapting to more efficiently infect and multiply in its host cells,” Lee explains in a press release.

Study of the GRP78 protein

Seeking more stable ways to combat COVID-19, Lee and colleagues at USC Keck School of Medicine and Florida's Cleveland Clinic Center for Research and Innovation began investigating the role of GRP78, a key cellular chaperone protein. .

In a study published in 2021, Keck researchers demonstrated that when SARS-CoV-2 infects an organism, GRP78 is hijacked to work in concert with other cellular receptors to deliver the SARS-CoV-2 virus into cells. where it reproduces and spreads.

But the researchers weren't sure whether GRP78 is "necessary and essential" for SARS-CoV-2 to replicate in human lung cells.

By examining human lung epithelial cells infected with SARS-CoV-2, the research team observed that as the viral infection intensifies, the infected cells produce higher levels of GRP78.

Then, in cell culture, Lee's team suppressed GRP78 production in lung epithelial cells.

When cells were infected with SARS-CoV-2, they produced less of the viral spike protein and released much less of the virus to infect other cells, showing that GRP78 was necessary and essential for the virus to spread. retort.

Next, to test whether a GRP78 treatment is effective in treating covid, the team tested infected lung cells with the drug HA15, developed for use against cancer cells.

“We found that this drug was very effective in reducing the number and size of SARS-CoV-2 plaques produced in infected cells, at safe doses that had no detrimental effect on normal cells,” Lee explains.

HA15 drug in mice

The researchers tested HA15 in genetically modified mice and found that the drug greatly reduced lung viral load.

In a parallel study, Lee and the Keck researchers, along with scientists from the University of Michigan, evaluated the efficacy of HA15 in cancer and of another GRP78 inhibitor, YUM70.

They found that HA15 and YUM70 can suppress the production of mutant KRAS proteins – a common mutation that tends to resist drug treatment – ​​and reduce the viability of cancer cells harboring such mutations in pancreatic, lung and colon cancer.

These findings, just published in the journal Neoplasia, suggest that targeting GRP78 may help fight these deadly cancers.

These are basic proof-of-principle studies; Further research, including clinical trials, is needed to establish that HA15 and YUM70 are safe and effective for use in humans.