As millions are inoculated against coronavirus, and the pandemics end finally seems to glimmer into view, scientists are envisioning what a postvaccine world might look like and what they see is comforting.
Coronavirus is here to stay, but once most adults are immune following natural infection or vaccination the virus will be no more of a threat than the common cold, according to a study published in the journal Science this week. The virus is a grim menace now because it is an unfamiliar pathogen that can overwhelm the adult immune system, which has not been trained to fight it. That will no longer be the case once everyone has been exposed to either the virus or the vaccine.
Children, on the other hand, are constantly challenged by pathogens that are new to their bodies, and that is one reason they are more adept than adults at fending off coronavirus. Eventually, the study suggests, the virus will be of concern only in children younger than five, subjecting even them to mere sniffles or no symptoms at all.
Depending on how fast the virus spreads, and on the strength and longevity of the immune response, it would take a few years to decades of natural infections for this coronavirus to become endemic
In other words, coronavirus will become endemic, a pathogen that circulates at low levels and only rarely causes serious illness. The timing of how long it takes to get to this sort of endemic state depends on how quickly the disease is spreading, and how quickly vaccination is rolled out, says Jennie Lavine, a postdoctoral fellow at Emory University, in Atlanta, who led the study. So, really, the name of the game is getting everyone exposed for the first time to the vaccine as quickly as possible.
Lavine and her colleagues looked to the six other human coronaviruses four that cause the common cold, plus the Sars and Mers viruses for clues to the fate of the new pathogen. The four common-cold coronaviruses are endemic, and produce only mild symptoms. Severe acute respiratory syndrome and Middle East respiratory syndrome, which surfaced in 2003 and 2012, respectively, made people severely ill, but they did not spread widely.
Although all of these coronaviruses produce a similar immune response, the new virus is most similar to the endemic common-cold coronaviruses, Lavine and her colleagues hypothesise. Reanalysing data from a previous study, they found that the first infection with common-cold coronaviruses occurs on average at three to five years of age. After that age, people may become infected again and again, boosting their immunity and keeping the viruses circulating. But they dont become ill.
The researchers foresee a similar future for Covid-19 virus. Depending on how fast the virus spreads, and on the strength and longevity of the immune response, it would take a few years to decades of natural infections for this coronavirus to become endemic, Lavine says.
Without a vaccine, the fastest path to endemic status is also the worst. The price for population immunity would be widespread illness and death along the way. Vaccines completely alter that calculus. The faster people can be immunized, the better. An efficient vaccination rollout could shorten the timeline to a year, or even just six months, for the Covid-19 virus to become an endemic infection. Still, the vaccines are unlikely to eradicate it, Lavine predicts. The virus will become a permanent, albeit more benign, inhabitant in our environment.
Other experts say this scenario is not just plausible but likely. The overall intellectual construct of the paper I fully agree with, says Shane Crotty, a virus expert at the La Jolla Institute for Immunology, in San Diego. If the vaccines prevent people from transmitting the virus, then it becomes a lot more like the measles scenario, where you vaccinate everybody, including kids, and you really dont see the virus infecting people any more, Crotty says.
Covid-19: an infected cell, taken from a patient sample. Photograph: National Institutes of Health/EPA
It is more plausible that the vaccines will prevent illness but not necessarily infection and transmission, he adds. And that means the Covid-19 virus will continue to circulate. Its unlikely that the vaccines we have right now are going to provide sterilising immunity, the kind needed to prevent infection, says Jennifer Gommerman, an immunologist at the University of Toronto.
Natural infection with coronavirus produces a strong immune response in the nose and throat. But with the current vaccines, Gommerman says, youre not getting a natural immune response in the actual upper respiratory tract, youre getting an injection in the arm. That raises the likelihood that infections will still occur, even after vaccination.
Ultimately, Lavines model rests on the assumption that the new coronavirus is similar to the common-cold coronaviruses. But that assumption may not hold up, cautions Marc Lipsitch, a public-health researcher at the Harvard TH Chan School of Public Health, in Boston.
Another plausible scenario is that the virus may come to resemble the seasonal flu, which is mild some years and more lethal in others
Other coronavirus infections may or may not be applicable, because we havent seen what those coronaviruses can do to an older, naive person, Lipsitch says. (Naive refers to an adult whose immune system has not been exposed to the virus.) Another plausible scenario, he says, is that the virus may come to resemble the seasonal flu, which is mild some years and more lethal in others. New variants of the Covid-19 virus that evade the immune response may also complicate the picture.
Their prediction of its becoming like common-cold coronaviruses is where Id put a lot of my money, Lipsitch says. But I dont think its absolutely guaranteed.
When and how the common-cold coronaviruses first appeared is a mystery, but since the emergence of the new coronavirus, some scientists have revisited a theory that a pandemic in 1890, which killed about a million people worldwide, may have been caused by OC-43, one of the four common-cold coronaviruses.
People have suggested that the human population developed a low-grade, broad immunity to OC-43 that terminated the pandemic, says Andre Veillette, an immunologist at Montreal Clinical Research Institute, in Canada. This coronavirus currently broadly circulates in the community in a rather peaceful way. New York Times