June 29, 2020
Gut reaction: How the gut microbiome may influence the severity of COVID-19
The risk of severe COVID-19 infection is more common in those with high blood pressure, diabetes and obesity, conditions that are all associated with . This raises the question of whether the gut microbiome has a role in dictating COVID-19 severity.
Let鈥檚 recap what we know about COVID-19. caused by a very contagious virus called SARS-CoV-2.
In , the virus does not cause serious illness. However, it causes a very serious respiratory disease 鈥 and even death 鈥 in a minority of patients. Through many studies of people with COVID-19 over the past few months, we have learned what to mild versus severe forms of the disease.
Who is predisposed to serious COVID-19?
Piqsels
and are less likely to develop symptomatic COVID-19, although with equally in the airway, suggesting that they can certainly infect others. In contrast, people of older age and those with are highly at risk and very likely develop symptomatic, severe disease.
If we consider the gradient of severity of the disease, children are at one end, and the elderly and patients with chronic conditions are at the other end.
What conditions are linked to severe COVID-19?
The information collected by researchers from many countries all points to similar characteristics and health conditions that are more commonly seen in patients with severe disease. These include older age, high blood pressure, diabetes and .
The strength of these associations is even more prominent among younger individuals, as younger patients with and are more likely to have serious disease.
In , 5,279 patients tested positive for COVID-19 between March 1 and April 8, 2020. Of these, 22.6 per cent had diabetes and 35.3 per cent were obese.
Obesity was associated with an increased rate of hospital admission and critical illness. Similar findings were provided by about the outbreak in Britain, where obese patients were twice as likely to develop severe disease.
Do these findings raise the possibility that the mechanisms underlying high blood pressure, diabetes and obesity may help explain why these conditions lead to severe COVID-19 disease? Before exploring this question, let鈥檚 zoom in on cellular and molecular mechanisms known to be involved in COVID-19 disease.
How does the body fight COVID-19 infection?
When the virus enters the body, it mostly goes to the and the . The virus then binds to on the surface of epithelial cells to enter these cells. Viral replication within the cells leads to cell damage and cell death. This results in the release of specific signalling molecules that alert the local .
Shutterstock
Armies of immune cells are then dispatched to initiate an antiviral response. Some of these cells are specialized to locate and identify the virus, while others mount a specific immune attack. The results in the release of cytokines, chemokines and antibodies, which in many cases can defeat the virus, and the patient recovers.
Sometimes the immune system is dangerously at high alert and overreacts. In this case, the immune cells mount an especially strong inflammatory response 鈥 one that goes beyond what is required to kill the virus. This extra-strong attack releases cytokines and chemokines on a massive scale throughout the body, resulting in a , which causes widespread inflammation and tissue damage in patients with severe COVID-19.
One of the reasons for an abnormal, overreactive immune response lies in the gastrointestinal tract. Millions of interactions are constantly occurring between the immune system and trillions of non-dangerous microbes that live within the body. These interactions educate the immune system in how to function and, importantly, in how not to overreact to infectious microbes. Could this help explain why some people are more likely to develop uncontrolled inflammation upon COVID-19 infection?
Trillions of micro-organisms that call your gastrointestinal tract home
Piqsels
The gut microbiome is the community of micro-organisms living inside the gastrointestinal tract, mostly in the large bowel. The microbiome contains bacteria, fungi (yeast), viruses and protozoa, all of which contribute to maintaining a balanced ecosystem and human health. These microbes collectively perform many beneficial functions, including educating the immune system.
When studying the microbiome, scientists examine the composition (what is there) and function (what are they doing) of this ecosystem. We have learned that both composition and function of the gut microbiome are important . In certain conditions, the balance of the gut microbiome composition and function is disrupted in a way that leads to disease, a phenomenon called microbiome dysbiosis.
There is accumulating evidence from animal and human studies that in metabolism dysregulation manifested as diabetes and obesity 鈥 the risk factors of severe COVID-19 disease.
Is gut microbiome predisposing patients to severe COVID-19?
The gut microbiome regulates host defences against viral infections including respiratory viruses, such as . This occurs through the activation of immune antiviral mechanisms and the prevention of excessive inflammation.
Different species of the gut microbiome have pro- or anti-inflammatory properties and play different roles in regulating the immune system. In the context of COVID-19, showed that specific members of the gut microbiome were associated with severe disease and with immune markers known to be elevated in severe disease. The association of these gut bacteria with the immune markers was even higher than that of the known risk factors of COVID-19 severity: age and obesity.
Further work is needed to confirm that pro-inflammatory microbial species can contribute to the immune responses that make severe COVID-19 more likely, but based on what we know about the microbiome, this is certainly a possibility. This also could mean that beneficial gut microbiome species, the type that promote low inflammation, have the potential to prevent or remediate the immune alterations that lead to severe COVID-19.
Potential for treatments and prevention
The research community is working very hard to develop and test and treatments against COVID-19. Tapping into the potential of the gut microbiome is another avenue that we can pursue to identify potential for prevention and treatment. This is not unprecedented in the context of viral respiratory diseases: probiotics and prebiotics can affect the immune response to the , and may improve outcomes in .
Until effective treatments are available, 鈥渕ind your microbes鈥 and maintain a healthy lifestyle.