Death-associated protein kinase 3 (DAPK3) regulates the myogenic reactivity of cerebral arterioles

The vascular smooth muscle (VSM) of resistance blood vessels displays intrinsic autoregulatory responses to increased intraluminal pressure, the myogenic response. In the brain, the myogenic responses of cerebral arterioles are critical to homeostatic blood flow regulation. Here we provide the first evidence to link the death-associated protein kinase 3 (DAPK3) to the myogenic response of rat and human cerebral arterioles. DAPK3 is a Ser/Thr kinase involved in Ca2+- sensitization mechanisms of VSM contraction. Ex vivo administration of a specific DAPK3 inhibitor (i.e., HS38) could attenuate vessel constrictions invoked by serotonin as well as intraluminal pressure elevation. The HS38-dependent dilation was not associated with any change in myosin light chain (LC20) phosphorylation. The results suggest that DAPK3 does not regulate Ca2+ sensitization pathways during the myogenic response of cerebral vessels but rather operates to control the actin cytoskeleton. Finally, a slow return of myogenic tone was observed during the sustained exposure of cerebral arterioles to a suite of DAPK3 inhibitors. Recovery of tone was associated with greater LC20 phosphorylation that suggests intrinsic signaling compensation in response to attenuation of DAPK3 activity. The translational importance of DAPK3 to the human cerebral vasculature was noted, with robust expression of the protein kinase and significant HS38-dependent attenuation of myogenic reactivity found for human pial vessels.