Researchers discover new approach to healing skin infections and wounds

Researchers discover new approach to healing skin infections and wounds
Vascularized wound under the microscope. Credit: Rachel Kratofil

University of Calgary researchers have identified a promising new approach to treating bacterial skin infections. In a study recently published in Nature, first author Dr. Rachel Kratofil, Ph.D., and co-senior authors Drs. Paul Kubes, Ph.D., Justin Deniset, Ph.D., and their research team show new insight which could lead to advancements in treating bacterial infections and wounds.

"While translating our research from bench to bedside will require many more experiments and involve a model more closely related to , it is exciting that we have made a fundamental discovery that could improve infections and in humans, especially hard-to-treat cases," says Kratofil.

Traditionally, researchers have thought that both neutrophils and monocytes () were recruited to clear bacteria from an infected site on the skin. When these cells work together, they act as the 's first line of defense in our bodies.

However, the new research reveals that monocytes alone are capable of facilitating faster healing of wounds. Monocytes help the by regulating and blood vessel growth during wound repair. They also produce ghrelin, a hormone that helps wounds heal more efficiently.

Surprising connection between metabolic hormones and tissue repair

Ghrelin is produced by the stomach when you are hungry, and leptin—also a hormone—is produced by fat cells after you eat a meal and feel full. This balance between ghrelin and leptin has long been understood as critical to metabolism and diet, but until now, has not been known for its connection to immune mechanisms and tissue repair.

Using intravital microscopy, which allows observation of live cells and is a specialization of the Kubes Lab, Kratofil was able to visualize the to Staphylococcus aureus (S. aureus) bacteria in an .

Snyder Institute researchers discover new approach to healing skin infections and wounds
Rachel Kratofil. Credit: Rachel Kratofil

S. aureus is a germ commonly found on skin or in the nose of a healthy body. It can be a catalyst for a wide variety of diseases related to skin and tissue infections such as abscesses or boils. In some cases, the bacteria can lead to severe infections like pneumonia and endocarditis, a life-threatening inflammation of the inner lining of the heart's chambers and valves.

After an S. aureus infection, the body recruits those helpful immune cells, neutrophils and monocytes. Neutrophils clear bacteria, while monocytes help repair tissue. In the absence of monocytes there is increased leptin production, leading to blood vessel growth in the infection. The result can be delayed healing and scarring. In contrast, monocytes produce ghrelin at the infection site, which blocks the formation of excess blood vessel growth driven by leptin, leading to tissue repair.

Importance of the study's results

"This research is important because it indicates a challenging the current thinking that neutrophils and monocytes clear bacteria. Our study elevates the role of monocytes in wound repair," explains Kratofil.

Principal investigator Kubes and his research team believe this study opens the door to introduce metabolic hormones (ghrelin and leptin) in the fields of immunology and microbiology.

"It will be interesting, for example, to see how ghrelin and leptin respond in other disease models such as sterile injury or cancer, and to learn how these processes are altered when a patient has multiple simultaneous diseases or conditions such as obesity and diabetes," says Kubes.

Next steps

The next step for the researchers is to better understand the functions of immune cells such as neutrophils during infection. Specifically, they are interested in how neutrophils become cleared from an infection and whether neutrophils take on different functions in addition to clearing bacteria.

This research team's interdisciplinary work is the product of 133 independent experiments that were carried out in collaboration with the labs of Dr. Keith Sharkey, Ph.D. (Snyder Institute, Hotchkiss Brain Institute (HBI)), Dr. Jeff Biernaskie, Ph.D., (HBI and Alberta Children's Hospital Research Institute), and researchers from University Hospital Regensburg, Germany, and Texas A&M University.

More information: Rachel M. Kratofil et al, A monocyte–leptin–angiogenesis pathway critical for repair post-infection, Nature (2022). DOI: 10.1038/s41586-022-05044-x

Journal information: Nature
Citation: Researchers discover new approach to healing skin infections and wounds (2022, August 12) retrieved 1 March 2024 from
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