How Will the COVID Pills Change the Pandemic?

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    • #457231
      • Total Posts: 10,623

      The Emory researchers named their drug molnupiravir, after Mjölnir—the hammer of Thor. It turns out that this was not hyperbole. Last month, Merck and Ridgeback announced that molnupiravir could reduce by half the chances that a person infected by the coronavirus would need to be hospitalized. The drug was so overwhelmingly effective that an independent committee asked the researchers to stop their Phase III trial early—it would have been unethical to continue giving participants placebos. None of the nearly four hundred patients who received molnupiravir in the trial went on to die, and the drug had no major side effects. On November 4th, the U.K. became the first country to approve molnupiravir; many observers expect that an emergency-use authorization will come from the U.S. Food and Drug Administration in December.

      Oral antivirals like molnupiravir could transform the treatment of COVID-19, and of the pandemic more generally. Currently, treatments aimed at fighting COVID—mainly monoclonal antibodies and antiviral drugs like remdesivir—are given through infusion or injection, usually in clinics or hospitals. By the time people manage to arrange a visit, they are often too sick to receive much benefit. Molnupiravir, however, is a little orange pill. A person might wake up, feel unwell, get a rapid COVID test, and head to the pharmacy around the corner to pick up a pack. A full course, which needs to start within five days of the appearance of symptoms, consists of forty pills—four capsules taken twice a day, for five days. Merck is now testing whether molnupiravir can prevent not just hospitalization after infection but also infection after exposure. If that’s the case, then the drug might be taken prophylactically—you could get a prescription when someone in your household tests positive, even if you haven’t.

      Molnupiravir is—and is likely to remain—effective against all the major coronavirus variants. In fact, at least in the lab, it works against any number of RNA viruses besides SARS-CoV-2, including Ebola, hepatitis C, R.S.V., and norovirus. Instead of targeting the coronavirus’s spike protein, as vaccine-generated antibodies do, molnupiravir attacks the virus’s basic replication machinery. The spike protein mutates over time, but the replication machinery is mostly set in stone, and compromising that would make it hard for the virus to evolve resistance. Once it’s inside the body, molnupiravir breaks down into a molecule called NHC. As my colleague Matthew Hutson explained, in a piece about antiviral drugs published last year, NHC is similar to cytosine, one of the four “bases” from which viral RNA is constructed; when the coronavirus’s RNA begins to copy itself, it slips into cytosine’s spot, in a kind of “Freaky Friday” swap. The molecule evades the virus’s genetic proofreading mechanisms and wreaks havoc, pairing with other bases, introducing a bevy of errors, and ultimately crashing the system.

      Jesus: Hey, Dad? God: Yes, Son? Jesus: Western civilization followed me home. Can I keep it? God: Certainly not! And put it down this minute--you don't know where it's been! Tom Robbins in Another Roadside Attraction

    • #457287
      Babel 17
      • Total Posts: 5,594


      All kidding aside, this is great news. It appears that science now has a grasp on how COVID-19 can be readily neutralized from replicating.

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