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  • Pathophysiological role of vascular smooth muscle alkaline phosphatase in medial artery calcification.

Pathophysiological role of vascular smooth muscle alkaline phosphatase in medial artery calcification.

Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research (2014-11-28)
Campbell R Sheen, Pia Kuss, Sonoko Narisawa, Manisha C Yadav, Jessica Nigro, Wei Wang, T Nicole Chhea, Eduard A Sergienko, Kapil Kapoor, Michael R Jackson, Marc F Hoylaerts, Anthony B Pinkerton, W Charles O'Neill, José Luis Millán
ABSTRACT

Medial vascular calcification (MVC) is a pathological phenomenon that causes vascular stiffening and can lead to heart failure; it is common to a variety of conditions, including aging, chronic kidney disease, diabetes, obesity, and a variety of rare genetic diseases. These conditions share the common feature of tissue-nonspecific alkaline phosphatase (TNAP) upregulation in the vasculature. To evaluate the role of TNAP in MVC, we developed a mouse model that overexpresses human TNAP in vascular smooth muscle cells in an X-linked manner. Hemizygous overexpressor male mice (Tagln-Cre(+/-) ; Hprt(ALPL) (/Y) or TNAP-OE) show extensive vascular calcification, high blood pressure, and cardiac hypertrophy, and have a median age of death of 44 days, whereas the cardiovascular phenotype is much less pronounced and life expectancy is longer in heterozygous (Tagln-Cre(+/-) ; Hprt(ALPL) (/-) ) female TNAP-OE mice. Gene expression analysis showed upregulation of osteoblast and chondrocyte markers and decreased expression of vascular smooth muscle markers in the aortas of TNAP-OE mice. Through medicinal chemistry efforts, we developed inhibitors of TNAP with drug-like pharmacokinetic characteristics. TNAP-OE mice were treated with the prototypical TNAP inhibitor SBI-425 or vehicle to evaluate the feasibility of TNAP inhibition in vivo. Treatment with this inhibitor significantly reduced aortic calcification and cardiac hypertrophy, and extended lifespan over vehicle-treated controls, in the absence of secondary effects on the skeleton. This study shows that TNAP in the vasculature contributes to the pathology of MVC and that it is a druggable target.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
SBI-425, ≥98% (HPLC)