Posted on by Dr. Francis Collins
Doctors can’t reliably predict whether an adult newly diagnosed with COVID-19 will recover quickly or battle life-threatening complications. The same is true for children.
Thankfully, the vast majority of kids with COVID-19 don’t get sick or show only mild flu-like symptoms. But a small percentage develop a delayed, but extremely troubling, syndrome called multisystem inflammatory syndrome in children (MIS-C). This can cause severe inflammation of the heart, lungs, kidneys, brain, and other parts of the body, coming on weeks after recovering from COVID-19. Fortunately, most kids respond to treatment and make rapid recoveries.
COVID-19’s sometimes different effects on kids likely stem not from the severity of the infection itself, but from differences in the immune response or its aftermath. Additional support for this notion comes from a new study, published in the journal Nature Medicine, that compared immune responses among children and adults with COVID-19 . The study shows that the antibody responses in kids and adults with mild COVID-19 are quite similar. However, the complications seen in kids with MIS-C and adults with severe COVID-19 appear to be driven by two distinctly different types of antibodies involved in different aspects of the immune response.
The new findings come from pediatric pulmonologist Lael Yonker, Massachusetts General Hospital (MGH) Cystic Fibrosis Center, Boston, and immunologist Galit Alter, the Ragon Institute of MGH, Massachusetts Institute of Technology, and Harvard, Cambridge. Yonker runs a biorepository that collects samples from kids with cystic fibrosis. When the pandemic began, she started collecting plasma samples from children with mild COVID-19. Then, when Yonker and others began to see children hospitalized with MIS-C, she collected some plasma samples from them, too.
Using these plasma samples as windows into a child’s immune response, the research teams of Yonker and Alter detailed antibodies generated in 17 kids with MIS-C and 25 kids with mild COVID-19. They also profiled antibody responses of 60 adults with COVID-19, including 26 with severe disease.
Comparing antibody profiles among the four different groups, the researchers had expected children’s antibody responses to look quite different from those in adults. But they were in for a surprise. Adults and kids with mild COVID-19 showed no notable differences in their antibody profiles. The differences only came into focus when they compared antibodies in kids with MIS-C to adults with severe COVID-19.
In kids who develop MIS-C after COVID-19, they saw high levels of long-lasting immunoglobulin G (IgG) antibodies, which normally help to control an acute infection. Those high levels of IgG antibodies weren’t seen in adults or in kids with mild COVID-19. The findings suggest that in kids with MIS-C, those antibodies may activate scavenging immune cells, called macrophages, to drive inflammation and more severe illness.
In adults with severe COVID-19, the pattern differed. Instead of high levels of IgG antibodies, adults showed increased levels of another type of antibody, called immunoglobulin A (IgA). These IgA antibodies apparently were interacting with immune cells called neutrophils, which in turn led to the release of cytokines. That’s notable because the release of too many cytokines can cause what’s known as a “cytokine storm,” a severe symptom of COVID-19 that’s associated with respiratory distress syndrome, multiple organ failure, and other life-threatening complications.
To understand how a single virus can cause such different outcomes, studies like this one help to tease out their underlying immune mechanisms. While more study is needed to understand the immune response over time in both kids and adults, the hope is that these findings and others will help put us on the right path to discover better ways to help protect people of all ages from the most severe complications of COVID-19.
 Humoral signatures of protective and pathological SARS-CoV-2 infection in children. Bartsch YC, Wang C, Zohar T, Fischinger S, Atyeo C, Burke JS, Kang J, Edlow AG, Fasano A, Baden LR, Nilles EJ, Woolley AE, Karlson EW, Hopke AR, Irimia D, Fischer ES, Ryan ET, Charles RC, Julg BD, Lauffenburger DA, Yonker LM, Alter G. Nat Med. 2021 Feb 12.
COVID-19 Research (NIH)
“NIH effort seeks to understand MIS-C, range of SARS-CoV-2 effects on children,” NIH news release, March 2, 2021.
Lael Yonker (Massachusetts General Hospital, Boston)
Alter Lab (Ragon Institute of Massachusetts General Hospital, MIT, and Harvard, Cambridge)
NIH Support: National Institute of Allergy and Infectious Diseases; National Cancer Institute
Posted on by Dr. Francis Collins
Most children infected with SARS-CoV-2, the virus that causes COVID-19, develop only a mild illness. But, days or weeks later, a small percentage of kids go on to develop a puzzling syndrome known as multisystem inflammatory syndrome in children (MIS-C). This severe inflammation of organs and tissues can affect the heart, lungs, kidneys, brain, skin, and eyes.
Thankfully, most kids with MIS-C respond to treatment and make rapid recoveries. But, tragically, MIS-C can sometimes be fatal.
With COVID-19 cases in children having increased by 21 percent in the United States since early August , NIH and others are continuing to work hard on getting a handle on this poorly understood complication. Many think that MIS-C isn’t a direct result of the virus, but seems more likely to be due to an intense autoimmune response. Indeed, a recent study in Nature Medicine  offers some of the first evidence that MIS-C is connected to specific changes in the immune system that, for reasons that remain mysterious, sometimes follow COVID-19.
These findings come from Shane Tibby, a researcher at Evelina London Children’s Hospital, London. United Kingdom; Manu Shankar-Hari, a scientist at Guy’s and St Thomas’ NHS Foundation Trust, London; and colleagues. The researchers enlisted 25 children, ages 7 to 14, who developed MIS-C in connection with COVID-19. In search of clues, they examined blood samples collected from the children during different stages of their care, starting when they were most ill through recovery and follow-up. They then compared the samples to those of healthy children of the same ages.
What they found was a complex array of immune disruptions. The children had increased levels of various inflammatory molecules known as cytokines, alongside raised levels of other markers suggesting tissue damage—such as troponin, which indicates heart muscle injury.
The neutrophils, monocytes, and other white blood cells that rapidly respond to infections were activated as expected. But the levels of certain white blood cells called T lymphocytes were paradoxically reduced. Interestingly, despite the low overall numbers of T lymphocytes, particular subsets of them appeared activated as though fighting an infection. While the children recovered, those differences gradually disappeared as the immune system returned to normal.
It has been noted that MIS-C bears some resemblance to an inflammatory condition known as Kawasaki disease, which also primarily affects children. While there are similarities, this new work shows that MIS-C is a distinct illness associated with COVID-19. In fact, only two children in the study met the full criteria for Kawasaki disease based on the clinical features and symptoms of their illness.
Another recent study from the United Kingdom, reported several new symptoms of MIS-C . They include headaches, tiredness, muscle aches, and sore throat. Researchers also determined that the number of platelets was much lower in the blood of children with MIS-C than in those without the condition. They proposed that evaluating a child’s symptoms along with his or her platelet level could help to diagnose MIS-C.
It will now be important to learn much more about the precise mechanisms underlying these observed changes in the immune system and how best to treat or prevent them. In support of this effort, NIH recently announced $20 million in research funding dedicated to the development of approaches that identify children at high risk for developing MIS-C .
The hope is that this new NIH effort, along with other continued efforts around the world, will elucidate the factors influencing the likelihood that a child with COVID-19 will develop MIS-C. Such insights are essential to allow doctors to intervene as early as possible and improve outcomes for this potentially serious condition.
 Peripheral immunophenotypes in children with multisystem inflammatory syndrome associated with SARS-CoV-2 infection. Carter MJ, Fish M, Jennings A, Doores KJ, Wellman P, Seow J, Acors S, Graham C, Timms E, Kenny J, Neil S, Malim MH, Tibby SM, Shankar-Hari M. Nat Med. 2020 Aug 18.
 Children and COVID-19: State-Level Data Report. American Academy of Pediatrics. August 24, 2020.
 Clinical characteristics of children and young people admitted to hospital with covid-19 in United Kingdom: prospective multicentre observational cohort study. Swann OV, Holden KA, Turtle L, Harrison EW, Docherty AB, Semple MG, et al. Br Med J. 2020 Aug 17.
 NIH-funded project seeks to identify children at risk for MIS-C. NIH. August 7, 2020.
Coronavirus (COVID-19) (NIH)
Kawasaki Disease (Genetic and Rare Disease Information Center/National Center for Advancing Translational Sciences/NIH)
Shane Tibby (Evelina London Children’s Hospital, London)
Manu Shankar-Hari (King’s College, London)
NIH Support: Eunice Kennedy Shriver National Institute of Child Health and Human Development; Office of the Director; National Heart, Lung, and Blood Institute; National Institute of Allergy and Infectious Diseases; National Institute of Arthritis and Musculoskeletal and Skin Diseases; National Institute on Drug Abuse; National Institute of Minority Health and Health Disparities; Fogarty International Center