How COVID Triggers Autoimmune Reactions in Children?

105

  • The study found that children with MIS-C developed autoantibodies targeting a human protein that resembles a part of the SARS-CoV-2 virus, leading to severe inflammation and organ damage.
  • Using Phage Immunoprecipitation Sequencing (PhIP-Seq), scientists identified autoantibodies against SNX8 and discovered their similarity to a segment of the viral N protein.
  • The findings offer insights into the mechanisms behind MIS-C and may help in developing new diagnostic and therapeutic approaches for autoimmune diseases like multiple sclerosis and type 1 diabetes.

Early in the pandemic, some children with COVID-19 displayed mild symptoms, only to later experience severe organ failure, a condition known as multisystem inflammatory syndrome in children (MIS-C). This mysterious illness puzzled scientists and doctors alike, as it emerged weeks after the initial COVID-19 infection, often leading to dramatic and sudden health crises, reports UCSF.

Key Findings from Recent Research

A groundbreaking study, published on August 7 in Nature, sheds light on the origins of MIS-C. Researchers from UC San Francisco, Chan Zuckerberg Biohub San Francisco, St. Jude Children’s Research Hospital, and Boston Children’s Hospital have uncovered crucial insights into how this condition develops.

1. Immune System Overreaction: The study reveals that the children’s immune systems mistakenly attacked their tissues. This autoimmune response was triggered by a component of the coronavirus that closely resembles a human protein found in the heart, lungs, kidneys, brain, skin, eyes, and gastrointestinal tract. The immune system’s confusion led to widespread inflammation and organ damage.

2. Discovery Method: Using a technique called Phage Immunoprecipitation Sequencing (PhIP-Seq), the researchers identified autoantibodies targeting SNX8, a human protein. They found that these autoantibodies were directed against a segment of the SARS-CoV-2 N protein that resembles SNX8. This molecular mimicry between the virus and human proteins triggered the autoimmune response.

3. Role of T Cells: The study also highlighted the involvement of T cells, which normally destroy infected cells. In MIS-C patients, these T cells were found to target both the viral protein and the SNX8 protein, confirming the autoimmune nature of the response.

Implications and Future Directions

This research not only clarifies the mechanism behind MIS-C but also opens new avenues for understanding and treating other autoimmune diseases. The study’s findings suggest that similar mechanisms might be at play in conditions like multiple sclerosis and type 1 diabetes.

1. Improved Diagnostic and Treatment Approaches: By identifying the specific proteins involved and the nature of the immune response, researchers hope to develop targeted diagnostic tools and treatments for autoimmune diseases.

2. Broader Impact: The study underscores the importance of continued research into post-infectious autoimmune conditions. Understanding the exact triggers and mechanisms can lead to more effective therapies and better management of these complex diseases.

3. Long-term Outlook: Most children who experienced MIS-C have made full recoveries, and new cases are now relatively rare, primarily affecting unvaccinated individuals. However, the insights gained from this research will be invaluable for addressing similar autoimmune responses in the future.

The study represents a significant step forward in linking viral infections to autoimmune diseases, offering hope for breakthroughs in the treatment and understanding of various immune system disorders.

Did you subscribe to our daily Newsletter?

It’s Free! Click here to Subscribe

Source: UCSF