OBJECTIVE: Emilin-1 is a protein of elastic extracellular matrix involved in blood pressure (BP) control by negatively affecting transforming growth factor (TGF)-β processing. Emilin1 null mice are hypertensive. This study investigates how Emilin-1 deals with vascular mechanisms regulating BP. METHODS AND RESULTS: This study uses a phenotype rescue approach in which Emilin-1 is expressed in either endothelial cells or vascular smooth muscle cells of transgenic animals with the Emilin1(-/-) background. We found that normalization of BP required Emilin-1 expression in smooth muscle cells, whereas expression of the protein in endothelial cells did not modify the hypertensive phenotype of Emilin1(-/-) mice. We also explored the effect of treatment with anti-TGF-β antibodies on the hypertensive phenotype of Emilin1(-/-) mice, finding that neutralization of TGF-β in Emilin1 null mice normalized BP quite rapidly (2 weeks). Finally, we evaluated the vasoconstriction response of resistance arteries to perfusion pressure and neurohumoral agents in different transgenic mouse lines. Interestingly, we found that the hypertensive phenotype was coupled with an increased arteriolar myogenic response to perfusion pressure, while the vasoconstriction induced by neurohumoral agents remained unaffected. We further elucidate that, as for the hypertensive phenotype, the increased myogenic response was attributable to increased TGF-β activity. CONCLUSIONS: Our findings clarify that Emilin-1 produced by vascular smooth muscle cells acts as a main regulator of resting BP levels by controlling the myogenic response in resistance arteries through TGF-β.
OBJECTIVE: Emilin-1 is a protein of elastic extracellular matrix involved in blood pressure (BP) control by negatively affecting transforming growth factor (TGF)-β processing. Emilin1 null mice are hypertensive. This study investigates how Emilin-1 deals with vascular mechanisms regulating BP. METHODS AND RESULTS: This study uses a phenotype rescue approach in which Emilin-1 is expressed in either endothelial cells or vascular smooth muscle cells of transgenic animals with the Emilin1(-/-) background. We found that normalization of BP required Emilin-1 expression in smooth muscle cells, whereas expression of the protein in endothelial cells did not modify the hypertensive phenotype of Emilin1(-/-) mice. We also explored the effect of treatment with anti-TGF-β antibodies on the hypertensive phenotype of Emilin1(-/-) mice, finding that neutralization of TGF-β in Emilin1 null mice normalized BP quite rapidly (2 weeks). Finally, we evaluated the vasoconstriction response of resistance arteries to perfusion pressure and neurohumoral agents in different transgenic mouse lines. Interestingly, we found that the hypertensive phenotype was coupled with an increased arteriolar myogenic response to perfusion pressure, while the vasoconstriction induced by neurohumoral agents remained unaffected. We further elucidate that, as for the hypertensive phenotype, the increased myogenic response was attributable to increased TGF-β activity. CONCLUSIONS: Our findings clarify that Emilin-1 produced by vascular smooth muscle cells acts as a main regulator of resting BP levels by controlling the myogenic response in resistance arteries through TGF-β.
Authors: Miroslava Rabajdova; Peter Urban; Ivana Spakova; Ladislav Saksun; Rastislav Dudic; Alexander Ostro; Martin Caprnda; Peter Kruzliak; Mariusz Adamek; Maria Marekova Journal: J Cancer Res Clin Oncol Date: 2016-08-31 Impact factor: 4.553
Authors: Rugmani Padmanabhan Iyer; Ying Ann Chiao; Elizabeth R Flynn; Kevin Hakala; Courtney A Cates; Susan T Weintraub; Lisandra E de Castro Brás Journal: Proteomics Clin Appl Date: 2015-12-17 Impact factor: 3.494
Authors: Francesco Villa; Albino Carrizzo; Chiara C Spinelli; Anna Ferrario; Alberto Malovini; Anna Maciąg; Antonio Damato; Alberto Auricchio; Gaia Spinetti; Elena Sangalli; Zexu Dang; Michele Madonna; Mariateresa Ambrosio; Leopoldo Sitia; Paolo Bigini; Gaetano Calì; Stefan Schreiber; Thomas Perls; Sergio Fucile; Francesca Mulas; Almut Nebel; Riccardo Bellazzi; Paolo Madeddu; Carmine Vecchione; Annibale A Puca Journal: Circ Res Date: 2015-06-01 Impact factor: 17.367
Authors: Bhavani S Sahu; Paul T Manna; James R Edgar; Robin Antrobus; Sushil K Mahata; Alessandro Bartolomucci; Georg H H Borner; Margaret S Robinson Journal: Mol Biol Cell Date: 2017-08-16 Impact factor: 4.138