ABSTRACT: Cardiovascular calcification can occur in vascular and valvular structures and is commonly associated with calcium deposition and tissue mineralization leading to stiffness and dysfunction. Based on shared risk factors and end stage pathologies, calcific aortic valve disease (CAVD) and coronary artery calcification (CAC) are often considered as one disease, and similarly treated. However, the clinical conditions associated with each phenotype can be different, suggesting multifaceted pathologies. To better understand diversity in molecular and cellular processes that underlie calcification in vascular and valvular structures, we exposed aortic vascular smooth muscle cells (AVSMCs) and aortic valve interstitial cells (AVICs) to calcific stimuli including high (2.5mM) phosphate and osteogenic media (OM) treatments in vitro. Consistent with clinical observations made by others, we show that AVSMCs are more susceptible to calcification than AVICs, and this process is mediated by cell-specific and treatment-specific molecular responses. RNA-seq analysis demonstrates that in response to calcific-stimuli, both AVSMCs and AVICs activate a robust ossification-program, although the signaling pathways, cellular processes and osteogenic-associated markers involved are diverse. In addition, VIC-mediated calcification appears to involve biological processes related to osteo-chondro differentiation and down regulation of actin cytoskeleton genes, that are not observed in VSMCs. Furthermore, are findings suggest that signaling pathways involved in cardiovascular cell calcification are dependent on the calcific-stimuli, including a requirement of PI3K signaling for OM-induced calcification, and not 2.5mM Phosphate. Together, this study provides a wealth of information suggesting that the pathogenesis of cardiovascular calcifications may be significantly more diverse than previously appreciated.