Fetal Cell Receptors Repertoire

Venous Ulcer, Sickle Cell Ulcer, Diabetic Ulcer, Post-partum Women, Mixed Ulcer

Microchimerism, Foetal stem cells, Receptors

The purpose of this study is to describe the transcriptomic profile of foetal cells in post-partum and more specifically to determine which chemokine receptors are overexpressed in foetal cells in post-partum women with wounds To do so, the investigators will isolate foetal cells from the peripheral blood of healthy controls post partum women as well as from post partum women with skin ulcers and then perform RNA sequencing.

The aim of regenerative medicine is to repair damaged tissue using different sources of autologous or heterologous stem cells. These cells are then cultured to achieve amplification and differentiation adapted to the cell type of the organ to be repaired. These methods are potentially effective, but involve risks and limitations, in particular the risks of genetic modifications during culture or contamination by residual ES or iPS cells. Immunosuppressive treatment is also necessary if the source of stem cells is allogeneic. Finally, implantation of this type of culture may also be unsuccessful. Our team is seeking for an alternative strategy to these methods. This relies on the presence of a niche of foetal cells transferred during pregnancy that persist after delivery. In fact, all mammalian pregnancies lead to foetal-maternal cell transfer. The foetal cells -transferred to the maternal circulation- contain different types of stem cells that will remain in the maternal bone marrow and persist there for the rest of the mother's life. The team has shown that in the event of cutaneous wounds in post-gestational mice, a population of CD11b+ CD34+ CD31+ foetal progenitors was recruited from the maternal bone marrow to the cutaneous granulation tissue. These cells over-express the chemokine receptor CCR2 compared with their adult counterparts. Consequently, the injection of low, so-called physiological, doses of the CCL2 chemokine subcutaneously into wounds accelerates normal wound healing and restores delayed healing in two pathological models. This pro-healing activity is linked to the specific recruitment of foetal stem cells to the site of injected wounds. These low doses of CCL2 never affected wound healing in virgin mice, confirming that this type of treatment does not alter the homeostasis of adult cells. The therapeutic strategy the investigators are proposing, entitled natural stem therapy, is based on this reservoir of foetal stem cells present in every woman who has had at least one pregnancy, i.e. more than 60% of adult women in western countries. In order to test the validity of this concept, it is important to ascertain the pathways by which foetal cells are chemoattracted in the human species, in particular the CCR2/CCL2 pathway.

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