Death-associated protein kinase 3 regulates the myogenic reactivity of cerebral arteries.

New Findings: What is the central question of this study? DAPK3 contributes to the Ca -sensitization of vascular smooth muscle contraction: does this protein kinase participate in the myogenic response of cerebral arteries? What is the main finding and its importance? Small molecule inhibitors of DAPK3 effectively block the myogenic responses of cerebral arteries. HS38-dependent changes to vessel constriction occur independent of LC20 phosphorylation, and therefore DAPK3 appears to operate via the actin cytoskeleton. A role for DAPK3 in the myogenic response was not previously reported, and the results support a potential new therapeutic target in the cerebrovascular system.

Smoothelin-like 1 knockout mice display sex-dependent alterations in blood flow and cardiac function.

Smoothelin-like 1 (SMTNL1) modulates the contractile performance of smooth muscle and thus has a key role in vascular homeostasis. Elevated vascular tone, recognized as a contributor to the development of progressive cardiac dysfunction, was previously found with SMTNL1 deletion. In this study, we assessed cardiac morphology and function of male and female, wild-type () and global SMTNL1 knockout () mice at 10 weeks of age.

Smoothelin-like 1 deletion enhances myogenic reactivity of mesenteric arteries with alterations in PKC and myosin phosphatase signaling.

The role of the smoothelin-like 1 (SMTNL1) protein in mediating vascular smooth muscle contractile responses to intraluminal pressure was examined in resistance vessels. Mesenteric arterioles from wild type (WT) and SMTNL1 global knock-out (KO) mice were examined with pressure myography. SMTNL1 deletion was associated with enhanced myogenic tone in vessels isolated from male, but not female, mice.

In situ analysis of smoothelin-like 1 and calmodulin interactions in smooth muscle cells by proximity ligation.

The smoothelin-like 1 (SMTNL1) protein is the newest member of the smoothelin family of muscle proteins. Two calmodulin (CaM)-binding domains (CBD1 for Ca-CaM; CBD2 for apo-CaM) have been described for the SMTNL1 protein using in vitro assays. We now demonstrate in situ associations of SMTNL1 and CaM in A7r5 smooth muscle cells using the proximity ligation assay (PLA).

Novel contributions of the smoothelin-like 1 protein in vascular smooth muscle contraction and its potential involvement in myogenic tone.

Vascular smooth muscle contraction and the myogenic response regulate blood flow in the resistance vascular and contribute to systemic blood pressure. Three pathways are currently known to contribute to the development of the myogenic response: (i) Ca(2+) -dependent phosphorylation of LC20; (ii) Ca(2+) sensitization through inhibition of myosin phosphatase; and (iii) cortical actin polymerization. A number of regulatory smooth muscle proteins are integrated with these pathways to fine tune the response and facilitate adaptations to vascular (patho)physiologies.

MAPKs represent novel therapeutic targets for gastrointestinal motility disorders.

The number of patients suffering from symptoms associated with gastrointestinal (GI) motility disorders is on the rise. GI motility disorders are accompanied by alteration of gastrointestinal smooth muscle functions. Currently available drugs, which can directly affect gastrointestinal smooth muscle and restore altered smooth muscle contractility to normal, are not satisfactory for treating patients with GI motility disorders.

Mapping and functional characterization of the murine smoothelin-like 1 promoter.

Background: Smoothelin-like 1 (SMTNL1, also known as CHASM) plays a role in promoting relaxation as well as adaptive responses to exercise, pregnancy and sexual development in smooth and skeletal muscle. Investigations of Smtnl1 transcriptional regulation are still lacking. Thus, in this study, we identify and characterize key regulatory elements of the mouse Smtnl1 gene.