1. Low O-2 concentrations enhance the positive effect of IL-17 on the maintenance of erythroid progenitors during co-culture of CD34+and mesenchymal stem cells
- Author
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Krstić, Aleksandra, Krstić, Aleksandra, Vlaški, Marija, Hammoud, Mohammad, Chevaleyre, Jean, Duchez, Pascale, Jovčić, Gordana, Bugarski, Diana, Milenković, Pavle B., Bourin, Philippe, Boiron, Jean-Michel, Praloran, Vincent, Ivanović, Zoran, Krstić, Aleksandra, Krstić, Aleksandra, Vlaški, Marija, Hammoud, Mohammad, Chevaleyre, Jean, Duchez, Pascale, Jovčić, Gordana, Bugarski, Diana, Milenković, Pavle B., Bourin, Philippe, Boiron, Jean-Michel, Praloran, Vincent, and Ivanović, Zoran
- Abstract
Co-culture of haematopoietic cells with a stromal cell layer does not mimic the physiological, micro-environmental niche, whose major feature is a low oxygen (O-2) concentration. Thus, in order to study the effects of IL-17 in a context which better approximates the physiological state, we investigated its effects on cell expansion, colony-forming ability, and the phenotypical profile of normal, human blood CD34(+) cells co-cultured for five days with MSC layers at various O-2 concentrations (20%, 12.5% and 3% O-2). We demonstrated that IL-17 enhances CD34(+) and total CFC production during the five days of MSC/CD34(+) co-culture. This effect depends upon the O-2 concentration, reaching its maximum at 3% O-2, and is more pronounced on erythroid progenitors (BFU-E). In addition, the stimulation of IL-6 production by IL-17 in MSC cultures and co-cultures is enhanced by low O-2 concentration. The expression of some differentiation markers (CD34, CD13 and CD41) on haematopoietic cells in co-cultures also depends upon the oxygen concentration. Our results strengthen the concept that physiological levels of O-2 (mistakenly called hypoxia), should be considered as an important environmental factor that significantly influences cytokine activity.
- Published
- 2009