Sanford Children's Health Research Center, Sanford-Burnham Medical Research Institute, La Jolla, CA 92037, USA.
J Bone Miner Res. 2013 Jan;28(1):81-91. doi: 10.1002/jbmr.1733.
Medial vascular calcification (MVC) is common in patients with chronic kidney disease, obesity, and aging. MVC is an actively regulated process that resembles skeletal mineralization, resulting from chondro-osteogenic transformation of vascular smooth muscle cells (VSMCs). Here, we used mineralizing murine VSMCs to study the expression of PHOSPHO1, a phosphatase that participates in the first step of matrix vesicles-mediated initiation of mineralization during endochondral ossification. Wild-type (WT) VSMCs cultured under calcifying conditions exhibited increased Phospho1 gene expression and Phospho1(-/-) VSMCs failed to mineralize in vitro. Using natural PHOSPHO1 substrates, potent and specific inhibitors of PHOSPHO1 were identified via high-throughput screening and mechanistic analysis and two of these inhibitors, designated MLS-0390838 and MLS-0263839, were selected for further analysis. Their effectiveness in preventing VSMC calcification by targeting PHOSPHO1 function was assessed, alone and in combination with a potent tissue-nonspecific alkaline phosphatase (TNAP) inhibitor MLS-0038949. PHOSPHO1 inhibition by MLS-0263839 in mineralizing WT cells (cultured with added inorganic phosphate) reduced calcification in culture to 41.8% ± 2.0% of control. Combined inhibition of PHOSPHO1 by MLS-0263839 and TNAP by MLS-0038949 significantly reduced calcification to 20.9% ± 0.74% of control. Furthermore, the dual inhibition strategy affected the expression of several mineralization-related enzymes while increasing expression of the smooth muscle cell marker Acta2. We conclude that PHOSPHO1 plays a critical role in VSMC mineralization and that "phosphatase inhibition" may be a useful therapeutic strategy to reduce MVC.
血管中层钙化(MVC)在慢性肾脏病、肥胖和衰老患者中很常见。MVC 是一个活跃调节的过程,类似于骨骼矿化,是血管平滑肌细胞(VSMCs)向软骨-成骨转化的结果。在这里,我们使用矿化的鼠 VSMCs 来研究 PHOSPHO1 的表达,PHOSPHO1 是一种参与软骨内成骨过程中基质小泡介导的矿化起始的第一步的磷酸酶。在矿化条件下培养的野生型(WT)VSMCs 表现出磷酸 1 基因表达增加,而磷酸 1(-/-)VSMCs 未能在体外矿化。通过高通量筛选和机制分析,我们使用天然 PHOSPHO1 底物鉴定出 PHOSPHO1 的有效且特异性抑制剂,并选择了两种抑制剂 MLS-0390838 和 MLS-0263839 进行进一步分析。评估了它们通过靶向 PHOSPHO1 功能来预防 VSMC 钙化的效果,单独使用和与一种有效的组织非特异性碱性磷酸酶(TNAP)抑制剂 MLS-0038949 联合使用。在矿化的 WT 细胞(用添加的无机磷酸盐培养)中,MLS-0263839 抑制 PHOSPHO1 可使培养物中的钙化减少到对照的 41.8%±2.0%。MLS-0263839 联合 TNAP 的 MLS-0038949 抑制 PHOSPHO1 显著降低钙化至对照的 20.9%±0.74%。此外,双重抑制策略影响了几种矿化相关酶的表达,同时增加了平滑肌细胞标记物 Acta2 的表达。我们得出结论,PHOSPHO1 在 VSMC 矿化中起着关键作用,“磷酸酶抑制”可能是减少 MVC 的一种有用的治疗策略。
