Of those, only toremifene showed similar efficacy to nafamostat in reducing NL63 viral load.īecause the immune system interacts with both pathogens and drugs via the inflammatory response, the researchers then introduced a mixture of human immune cells called peripheral blood mononuclear cells (PBMCs) into the blood vessel channel of the Intestine Chip to study this process. Having established that their Intestine Chip could successfully model interactions between viruses, drugs, and the gut, the team tested a variety of other drugs that are taken orally including toremifene, nelfinavir, clofazimine, and fenofibrate, all of which have been shown to inhibit infection by SARS-CoV-2 and other viruses in vitro. It could also help us better understand the efficacy and toxicity of other similar drugs.” A more complete picture of human gut health “GI symptoms have been previously reported in clinical trials of remdesivir, and this model now gives us a window into the underlying causes of those symptoms. “We were surprised that remdesivir displayed such clear toxicity to the vascular tissue in the Intestine Chip,” said co-first author Girija Goyal, a senior research scientist at the Wyss Institute. To their surprise, they found that remdesivir didn’t reduce the amount of virus in the Intestine Chip, and it also damaged the cells in the blood vessel channel, causing them to detach almost completely from the channel wall. The team then tried the same experiment using remdesivir. True to form, nafamostat significantly reduced the amount of virus present in the Intestine Chip 24 hours after infection, though it did not restore the integrity of the connections between the cells. To try to cure the infection, the researchers then administered nafamostat, a short-acting anticoagulant drug, into the channel lined with blood vessel cells. The Intestine Chip showed signs of infection: the layer of gut cells became “leaky” as the connections between them were compromised by the virus. The research team introduced the coronavirus NL63 into the channel lined with intestinal cells and observed what happened. In addition to ACE2, another membrane protein called TMPRSS2 is also known to be involved in coronavirus infection. The tissues in the Intestine Chip are repeatedly stretched and released to recreate the rhythmic movements caused by muscle contractions in the GI tract. A permeable membrane between the two channels ensures that the cells can exchange molecular messengers, and that substances can be delivered into the blood via the gut, mimicking digestion. The Intestine Chip is about the size of a USB memory stick made of a clear, flexible polymer through which run two parallel channels: one lined with human blood vessel cells, the other with human intestinal lining cells. This new preclinical model, which could be used to identify drugs that can target GI symptoms associated with both the common cold and SARS-CoV-2 virus infections in the future, is described in Frontiers in Pharmacology. The scientists found that a drug called nafamostat reduced infection while the drug remdesivir, which has been used to treat COVID-19 patients, did not reduce infection and actually damaged the intestinal tissue. They infected the Intestine Chip with a coronavirus called NL63 that causes the common cold and, like SARS-CoV-2, uses the ACE2 receptor to enter cells, and then tested the effects of various drugs that have been proposed for treating SARS-CoV-2 infection. To solve that problem, a team of scientists at the Wyss Institute for Biologically Inspired Engineering at Harvard University and several other Wyss partner organizations in Boston used a human Intestine Chip previously developed at the institute to study coronavirus infection and potential treatments in an environment that mimics the human intestine more effectively than cells grown in a dish. Animal models, while useful, do not fully reflect how human organs react to infection by pathogens. ![]() ![]() ![]() Infection of the gut, which expresses high levels of the ACE2 receptor protein that SARS-CoV-2 uses to enter cells, is correlated with more severe cases of COVID-19, but the exact interactions between the virus and intestinal tissue is difficult to study in human patients. Most of us are familiar with COVID-19’s hallmark symptoms of a loss of taste or smell and difficulty breathing, but a full 60 percent of patients infected with SARS-CoV-2 also report gastrointestinal symptoms such as nausea, diarrhea, and stomach pain.
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