New Personalized Medicine Approach May Help Treat Even the Most Challenging Wounds

05/29/2017

An experimental treatment that allows the reprogramming of blood cells to promote the healing process of cutaneous wound may be beneficial in healing challenging wounds.

“We discovered a way to modify specific white blood cells – the macrophages – and make them capable of accelerating cutaneous healing," explained nephrologist Jean-François Cahier, MD, PhD, a University of Montreal Hospital Research Centre (CRCHUM) researcher and professor at the University of Montreal, in a news release.

 The findings appear in the Journal of Investigative Dermatology.

Macrophages play a key role in the normal wound healing process. They specialize in major cellular clean-up processes and are essential for tissue repair; they accelerate healing while maintaining a balance between inflammatory and anti-inflammatory reactions (pro-reparation).

“When a wound doesn’t heal, it might be secondary to enhanced inflammation and not enough anti-inflammatory activity,” explained Cailhier. “We discovered that macrophage behaviour can be controlled so as to tip the balance toward cell repair by means of a special protein called Milk Fat Globule Epidermal Growth Factor-8, or MFG-E8.”

The team first showed that when there is a skin lesion, MFG-E8 calls for an anti-inflammatory and pro-reparatory reaction in the macrophages. Without this protein, the lesions heal much more slowly. Then the researchers developed a treatment by adoptive cell transfer in order to amplify the healing process.

Adoptive cell transfer consists in treating the patient using his or her own cells, which are harvested, treated, then re-injected to exert their action on an organ. This immunotherapeutic strategy is usually used to treat various types of cancer. This is the first time it has been shown to also be useful in reprogramming cells to facilitate healing of the skin.

“We used stem cells derived from murine bone marrow to obtain macrophages, which we treated ex vivo with the MFG-E8 protein before re-injecting them into the mice, and we quickly noticed an acceleration of healing,” said Dr. Patrick Laplante, MSc, Cailhier's research assistant and first author of the study.

“The MFG-E8 protein, by acting directly upon macrophages, can generate cells that will orchestrate accelerated cutaneous healing,” added Dr. Cailhier.

The beauty of this therapy is that the patient (in this case the mouse) is not exposed to the protein itself. Indeed, as Dr. Cailhier explained, “if we were to inject the MFG-E8 protein directly into the body there could be effects, distant from the wound, upon all the cells that are sensitive to MFG-E8, which could lead to excess repair of the skin causing aberrant scars named keloids. The major advantage [of this treatment] is that we only administer reprogrammed cells, and we find that they are capable of creating the environment needed to accelerate scar formation. We have indeed discovered the unbelievable potential of the macrophage to make healing possible by simple ex vivo treatment.”

Next, the team must test this personalized treatment using human cells. Thereafter, the goal will be to develop a program of human cell therapy for diabetic patients and for individuals with severe burns. It will take several years of research before this stage can be reached.

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