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Widespread increase in myeloid calcifying cells contributes to ectopic vascular calcification in type 2 diabetes.

Circulation research (2011-03-12)
Gian Paolo Fadini, Mattia Albiero, Lisa Menegazzo, Elisa Boscaro, Saula Vigili de Kreutzenberg, Carlo Agostini, Anna Cabrelle, Gianni Binotto, Marcello Rattazzi, Elisa Bertacco, Roberta Bertorelle, Lorena Biasini, Monica Mion, Mario Plebani, Giulio Ceolotto, Annalisa Angelini, Chiara Castellani, Mirko Menegolo, Franco Grego, Stefanie Dimmeler, Florian Seeger, Andreas Zeiher, Antonio Tiengo, Angelo Avogaro
RÉSUMÉ

Acquisition of a procalcific phenotype by resident or circulating cells is important for calcification of atherosclerotic plaques, which is common in diabetes. We aim to identify and characterize circulating calcifying cells, and to delineate a pathophysiological role for these cells in type 2 diabetes. We demonstrate for the first time that a distinct subpopulation of circulating cells expressing osteocalcin and bone alkaline phosphatase (OC(+)BAP(+)) has procalcific activity in vitro and in vivo. The study of naïve patients with chronic myeloid leukemia indicated that OC(+)BAP(+) cells have a myeloid origin. Myeloid calcifying OC(+)BAP(+) cells (MCCs) could be differentiated from peripheral blood mononuclear cells, and generation of MCCs was closely associated with expression of the osteogenic transcription factor Runx2. In gender-mismatched bone marrow-transplanted humans, circulating MCCs had a much longer half-life compared with OC(-)BAP(-) cells, suggesting they belong to a stable cell repertoire. The percentage of MCCs was higher in peripheral blood and bone marrow of type 2 diabetic patients compared with controls but was lowered toward normal levels by optimization of glycemic control. Furthermore, diabetic carotid endoarterectomy specimens showed higher degree of calcification and amounts of cells expressing OC and BAP in the α-smooth muscle actin-negative areas surrounding calcified nodules, where CD68(+) macrophages colocalize. High glucose increased calcification by MCCs in vitro, and hypoxia may regulate MCC generation in vitro and in vivo. These data identify a novel type of blood-derived procalcific cells potentially involved in atherosclerotic calcification of diabetic patients.

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Sigma-Aldrich
Anticorps monoclonal anti-α-actine de muscle lisse, clone 1A4, ascites fluid
Sigma-Aldrich
Monoclonal Anti-RUNX2 antibody produced in mouse, clone 1D8, purified immunoglobulin, buffered aqueous solution