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@proceedings{1138588, author = {Lánová, Martina and Večeřa, Josef and Kučera, Jan and Medalová, Jiřina and Pacherník, Jiří}, booktitle = {Stem Cells and Cell therapy: From research to modern clinical application}, keywords = {ABC-transporters neural stem cells}, language = {eng}, title = {The role of ABC transporters associated with multidrug resistance in stem cells}, url = {http://www.symma.cz/baria/down/abstrakta_2013.pdf}, year = {2013} }
TY - CONF ID - 1138588 AU - Lánová, Martina - Večeřa, Josef - Kučera, Jan - Medalová, Jiřina - Pacherník, Jiří PY - 2013 TI - The role of ABC transporters associated with multidrug resistance in stem cells KW - ABC-transporters neural stem cells UR - http://www.symma.cz/baria/down/abstrakta_2013.pdf L2 - http://www.symma.cz/baria/down/abstrakta_2013.pdf N2 - ATP-binding transporters (ABC-t) play various roles in regulation of organism function and homeostasis from prokaryote to mammals. ABC-t mediate transport mainly of lipophilic substances through cellular membranes. These transporters protect stem cells against toxic substances of either endogenous, or importantly, exogenous origin. These transporters are called ABC-t associated with multi-drug resistance (MDR), according to their role in multidrug resistance to pharmacotherapy. High level of ABC-t expression is a typical feature of stem cells and many types of cancer stem cells. Particularly, ABCB1/P-glycoprotein/MDR1, ABCC1/multidrug resistance-associated protein 1 (MRP1), and ABCG2/BCRP (Breast cancer resistance protein);. However, substrates of ABC-t/MDR are not only toxins, but also important signaling molecules as well as leukotrienes and/or glutathione conjugates; and porphyrins, which mediate balance in intracellular oxidation-reduction processing. Thus we hypothesize the role of ABC-t/MDR in regulation of stem cells fate. To test this hypothesis we analyzed effect of modulation of ABC-t/MDR activity in embryonic and neural stem cells. We observed that ABCC1 and ABCG2 are the most expressed ABC-t/MDR in our tested stem cells. Importantly, inhibition of these ABC-t/MDR leads to decreasing of stemness and induction of differentiation in both embryonic and neural stem cells. Analysis of mechanism of observed effect and identification of studying ABC-t/MDR substrates, which may be responsible for this effect, are in progress. ER -
LÁNOVÁ, Martina, Josef VEČEŘA, Jan KUČERA, Jiřina MEDALOVÁ and Jiří PACHERNÍK. The role of ABC transporters associated with multidrug resistance in stem cells. In \textit{Stem Cells and Cell therapy: From research to modern clinical application}. 2013.
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