Aging is a significant risk factor for cardiovascular disease and is known to be associated with an increase in vascular stiffness and decrease in sensitivity to NO mediated vasodilatation. However, the underlying mechanism for these changes in vascular function is unknown. Smooth muscle tone is known to be regulated by the expression and phosphorylation of both nonmuscle (NM) and smooth muscle (SM) myosin. NM and SM phosphorylation is regulated by the activity of myosin light chain kinase (MLCK) and MLC phosphatase. MLC phosphatase is a trimeric enzyme consisting of enzymatic, myosin targeting (MYPT1) and a 20kDa subunit of unknown function. Two isoforms of MYPT1 are produced by alternative mRNA splicing, which differ by the presence or absence of a COOH-terminal leucine zipper (LZ+/-), and the relative expression of LZ+/LZ- MYPT1 determines the sensitivity to NO mediated vasodilatation. We defined NM myosin expression using two-dimensional SDS PAGE and LZ+/LZ- MYPT1 expression using immunoblotting in aortic and tertiary mesenteric smooth muscle from 6mo and 24mo old Fischer344 rats. The data demonstrate that aging is associated with a significant decrease in the expression of both LZ+ MYPT1 and NM myosin. The reduction in LZ+ MYPT1 expression would both decrease the sensitivity to NO mediated smooth muscle dilatation and increase vascular tone, which is a hallmark of the vasculature in aging. On the other hand, the reduction in NM myosin would result in a decrease in vascular tone and could represent a compensatory mechanism to normalize blood pressure during aging. These data demonstrate that there are changes in the expression of smooth muscle regulatory and contractile proteins during aging and these changes in protein expression contribute to molecular mechanism for the decrease in sensitivity to NO mediated vasodilatation as well as the increase in vascular tone or the vascular dysfunction that occurs with aging. Supported by a Mayo CV Prospective Grant (FVB). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.