OBJECTIVE: Intimal smooth muscle cells (SMCs) are dedifferentiated SMCs that have a powerful ability to proliferate and migrate. This cell-type is responsible for the development of intimal hyperplasia after vascular angioplasty. Retinoids, especially all-trans retinoid acid, are known to regulate many processes activated at sites of vascular injury, including modulation of SMC phenotype and inhibition of SMC proliferation. Intracellular levels of active retinoids are under firm control. A key enzyme is the all-trans retinoic acid-degrading enzyme cytochrome p450 isoform 26 (CYP26). Thus, an alternative approach to exogenous retinoid administration could be to increase the intracellular level of all-trans retinoic acid by blocking CYP26-mediated degradation of retinoids. METHODS AND RESULTS: Vascular intimal and medial SMCs expressed CYP26A1 and B1 mRNA. Although medial cells remained unaffected, treatment with the CYP26-inhibitor R115866 significantly increased cellular levels of all-trans retinoic acid in intimal SMCs. The increased levels of all-trans retinoic acid induced retinoid-regulated genes and decreased mitogenesis. CONCLUSIONS: Blocking of the CYP26-mediated catabolism mimics the effects of exogenously administrated active retinoids on intimal SMCs. Therefore, CYP26-inhibitors offer a potential new therapeutic approach to vascular proliferative disorders.
OBJECTIVE: Intimal smooth muscle cells (SMCs) are dedifferentiated SMCs that have a powerful ability to proliferate and migrate. This cell-type is responsible for the development of intimal hyperplasia after vascular angioplasty. Retinoids, especially all-transretinoid acid, are known to regulate many processes activated at sites of vascular injury, including modulation of SMC phenotype and inhibition of SMC proliferation. Intracellular levels of active retinoids are under firm control. A key enzyme is the all-trans retinoic acid-degrading enzyme cytochrome p450 isoform 26 (CYP26). Thus, an alternative approach to exogenous retinoid administration could be to increase the intracellular level of all-trans retinoic acid by blocking CYP26-mediated degradation of retinoids. METHODS AND RESULTS: Vascular intimal and medial SMCs expressed CYP26A1 and B1 mRNA. Although medial cells remained unaffected, treatment with the CYP26-inhibitor R115866 significantly increased cellular levels of all-trans retinoic acid in intimal SMCs. The increased levels of all-trans retinoic acid induced retinoid-regulated genes and decreased mitogenesis. CONCLUSIONS: Blocking of the CYP26-mediated catabolism mimics the effects of exogenously administrated active retinoids on intimal SMCs. Therefore, CYP26-inhibitors offer a potential new therapeutic approach to vascular proliferative disorders.
Authors: Olesya Krivospitskaya; Ali Ateia Elmabsout; Eva Sundman; Leif A Söderström; Olga Ovchinnikova; Andreas C Gidlöf; Nikolai Scherbak; Giuseppe Danilo Norata; Ann Samnegård; Hans Törmä; Samy M Abdel-Halim; Jan-Håkan Jansson; Per Eriksson; Allan Sirsjö; Peder S Olofsson Journal: Mol Med Date: 2012-05-09 Impact factor: 6.354
Authors: Ali Ateia Elmabsout; Ashok Kumawat; Patricia Saenz-Méndez; Olesya Krivospitskaya; Helena Sävenstrand; Peder S Olofsson; Leif A Eriksson; Ake Strid; Guro Valen; Hans Törmä; Allan Sirsjö Journal: PLoS One Date: 2012-05-29 Impact factor: 3.240
Authors: Maja Bilip; Shreya Shah; Mayuran Mathiyalakan; Aristides D Tagalakis; Stephen L Hart; Ruhina Maeshima; Simon Eaton; Michael Orford; Elsa Irving; Alessia Di Florio; Claire Simons; Andrew W Stoker Journal: J Drug Target Date: 2020-01-14 Impact factor: 5.121