Abstract
Notch receptors and ligands mediate heterotypic cell signaling that is required for normal vascular development. Dysregulation of select Notch receptors in mouse vascular smooth muscle (VSM) and in genetic human syndromes causes functional impairment in some regional circulations, the mechanistic basis of which is undefined. In this study, we used a dominant-negative Mastermind-like (DNMAML1) to block signaling through all Notch receptors specifically in VSM to more broadly test a functional role for this pathway in vivo. Mutant DNMAML1-expressing mice exhibited blunted blood pressure responses to vasoconstrictors, and their aortic, femoral, and mesenteric arteries had reduced contractile responses to agonists and depolarization in vitro. The mutant arteries had significant and specific reduction in the expression and activity of myosin light chain kinase (MLCK), a primary regulator of VSM force production. Conversely, activated Notch signaling in VSM cells induced endogenous MLCK transcript levels. We identified MLCK as a direct target of activated Notch receptor as demonstrated by an evolutionarily conserved Notch-responsive element within the MLCK promoter that binds the Notch receptor complex and is required for transcriptional activity. We conclude that Notch signaling through the transcriptional control of key regulatory proteins is required for contractile responses of mature VSM. Genetic or pharmacological manipulation of Notch signaling is a potential strategy for modulating arterial function in human disease.
Highlights
Notch signaling in smooth muscle is necessary for arterial maturation
We have identified a novel role for Notch signaling in the regulation of arterial contractile function through transcriptional control of smooth muscle myosin light chain kinase (MLCK)
Inhibition of canonical Notch signaling either through elaboration of DNMAML1 or by DAPT suggested the possibility of intrinsic deficiencies in vascular smooth muscle contractile capacity
Summary
Notch signaling in smooth muscle is necessary for arterial maturation. Results: In mice and vessels, Notch signaling deficiency reduces MLCK and phosphorylated MLC content concomitantly with blunted pressor responses and attenuated agonist-induced vasoreactivity. We hypothesized that Notch signals modulate the transcription of key regulatory contractile proteins and tested this by examining expression and function in a mouse model expressing a dominant-negative Mastermind-like (DNMAML1) protein to inhibit (CSL-dependent) Notch signaling targeted to smooth muscle with the SM22␣-Cre promoter (18). This model suppresses canonical signaling through all Notch receptors, overcoming potential functional redundancies and providing a more comprehensive assessment of Notch signaling contribution in VSM.
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