OBJECTIVE: The role of antioxidants in preventing vascular disease remains controversial. Vascular endothelial growth factor (VEGF-A) is important for endothelial and monocyte function. This study investigated the negative effects of smoking on monocyte migratory responsiveness to VEGF-A and the usefulness of vitamin C to prevent smoking-induced monocyte dysfunction. METHODS AND RESULTS: The chemotactic response of isolated monocytes from a cohort of 17 non-smokers and 10 smokers toward VEGF-A was assessed. VEGF-A significantly stimulated the migration of monocytes in non-smokers; the monocytes from smokers failed to respond to VEGF-A. Repeated analysis after 2 weeks of vitamin C intake (2 g/d) showed a fully restored VEGF-A-induced monocyte migration in smokers. VEGF-A serum levels were not altered by vitamin C. VEGF-A-inducible kinase activity was intact in monocytes from smokers as assessed by in vitro kinase assay. Monocyte dysfunction can be mimicked in vitro by challenging monocytes with a range of reactive oxygen species (ROS). CONCLUSIONS: Stimulation of monocyte migration by VEGF-A was severely attenuated in smokers, and the deficit observed was surmounted by vitamin C supplementation. The negative effects of smoking on monocyte function may translate into adverse impacts on VEGF-A-dependent repair processes such as arteriogenesis. These results propose a causative role of oxidative stress in smoking-induced monocyte dysfunction.
OBJECTIVE: The role of antioxidants in preventing vascular disease remains controversial. Vascular endothelial growth factor (VEGF-A) is important for endothelial and monocyte function. This study investigated the negative effects of smoking on monocyte migratory responsiveness to VEGF-A and the usefulness of vitamin C to prevent smoking-induced monocyte dysfunction. METHODS AND RESULTS: The chemotactic response of isolated monocytes from a cohort of 17 non-smokers and 10 smokers toward VEGF-A was assessed. VEGF-A significantly stimulated the migration of monocytes in non-smokers; the monocytes from smokers failed to respond to VEGF-A. Repeated analysis after 2 weeks of vitamin C intake (2 g/d) showed a fully restored VEGF-A-induced monocyte migration in smokers. VEGF-A serum levels were not altered by vitamin C. VEGF-A-inducible kinase activity was intact in monocytes from smokers as assessed by in vitro kinase assay. Monocyte dysfunction can be mimicked in vitro by challenging monocytes with a range of reactive oxygen species (ROS). CONCLUSIONS: Stimulation of monocyte migration by VEGF-A was severely attenuated in smokers, and the deficit observed was surmounted by vitamin C supplementation. The negative effects of smoking on monocyte function may translate into adverse impacts on VEGF-A-dependent repair processes such as arteriogenesis. These results propose a causative role of oxidative stress in smoking-induced monocyte dysfunction.
Authors: Evangelia Pardali; Timo Schmitz; Andreas Borgscheiper; Janette Iking; Lars Stegger; Johannes Waltenberger Journal: EJNMMI Res Date: 2016-10-24 Impact factor: 3.138
Authors: Arjun K Ravi; Jonathan Plumb; Rosemary Gaskell; Sarah Mason; Caroline S Broome; George Booth; Matthew Catley; Jørgen Vestbo; Dave Singh Journal: Respir Res Date: 2017-05-11
Authors: Mary L Fantacone; Malcolm B Lowry; Sandra L Uesugi; Alexander J Michels; Jaewoo Choi; Scott W Leonard; Sean K Gombart; Jeffrey S Gombart; Gerd Bobe; Adrian F Gombart Journal: Nutrients Date: 2020-08-14 Impact factor: 5.717
Authors: Pierre Mineur; Alain C Colige; Christophe F Deroanne; Johanne Dubail; Frédéric Kesteloot; Yvette Habraken; Agnès Noël; Stefan Vöö; Johannes Waltenberger; Charles M Lapière; Betty V Nusgens; Charles A Lambert Journal: J Cell Biol Date: 2007-12-17 Impact factor: 10.539