As the global pandemic has unfolded, medical workers and researchers have noted that patients who have diabetes tend to have worse outcomes than people with no underlying health issues—the same has been found to be true for patients with influenza infections. In this new effort, the researchers sought to better understand why such patients are more susceptible to an inflammatory response that can lead to pneumonia and death.
Prior research has shown that when the influenza virus (or the SARS-CoV-2 virus) makes its way into the human body, the immune system responds by sending immune cells to the site to combat the threat. Cytokines are produced as part of the response. Their job is to handle cell-to-cell communications. In some people, though, the body produces too many cytokines, resulting in a cytokine storm, which can lead to very serious problems such as pneumonia or organ failure. Unfortunately, medical scientists have not been able to figure out why they occur in some patients but not others. In this new effort, the researchers suspected that heightened levels of glucose in the bloodstream might play a role. The researchers injected flu-infected test mice with glucosamine to see if it resulted in an increased chance of cytokine storms and report that it did.
Another part of the study involved analyzing blood samples drawn from 119 influenza patients at two hospitals in Wuhan, China, prior to the outbreak of the pandemic. The team then compared what they found with blood drawn from healthy people as part of normal blood drives. They focused their efforts on both cytokine and blood glucose levels to see if they could find a pattern. They found that those patients with higher glucose levels were more likely to undergo a cytokine storm. They suggest their findings explain why patients with diabetes are more likely to experience cytokine storms and to have worse outcomes with flu (and possibly COVID-19) infections.
More information:
Qiming Wang et al. O-GlcNAc transferase promotes influenza A
virus–induced cytokine storm by targeting interferon regulatory
factor–5, Science Advances (2020). DOI: 10.1126/sciadv.aaz7086
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.