1. Deletion of IκB‐Kinase β in Smooth Muscle Cells Induces Vascular Calcification Through β‐Catenin–Runt‐Related Transcription Factor 2 Signaling
- Author
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Takeshi Kimura, Noboru Ashida, and Isehaq Al‐Huseini
- Subjects
0301 basic medicine ,IKKβ ,Myocytes, Smooth Muscle ,Aortic Diseases ,Core Binding Factor Alpha 1 Subunit ,IκB kinase ,030204 cardiovascular system & hematology ,Molecular Cardiology ,Muscle, Smooth, Vascular ,Calcium Chloride ,03 medical and health sciences ,0302 clinical medicine ,Smooth muscle ,Osteogenesis ,Advanced phase ,Animals ,Medicine ,Aorta, Abdominal ,Vascular calcification ,Transcription factor ,Cells, Cultured ,beta Catenin ,Original Research ,Mice, Knockout ,business.industry ,nuclear factor‐κB ,Runt ,Ubiquitination ,vascular biology ,medicine.disease ,I-kappa B Kinase ,Cell biology ,Mice, Inbred C57BL ,Disease Models, Animal ,030104 developmental biology ,vascular calcification ,Catenin ,cardiovascular system ,atherosclerosis ,Cardiology and Cardiovascular Medicine ,business ,Gene Deletion ,Signal Transduction ,Calcification - Abstract
Background Vascular calcification was previously considered as an advanced phase of atherosclerosis; however, recent studies have indicated that such calcification can appear in different situations. Nevertheless, there has been a lack of mechanistic insight to explain the difference. For example, the roles of nuclear factor‐κB, a major regulator of inflammation, in vascular calcification are poorly explored, although its roles in atherosclerosis were well documented. Herein, we investigated the roles of nuclear factor‐κB signaling in vascular calcification. Methods and Results We produced mice with deletion of IKK β, an essential kinase for nuclear factor‐κB activation, in vascular smooth muscle cells (VSMCs; KO mice) and subjected them to the CaCl 2 ‐induced aorta injury model. Unexpectedly, KO mice showed more calcification of the aorta than their wild‐type littermates, despite the former's suppressed nuclear factor‐κB activity. Cultured VSMC s from the aorta of KO mice also showed significant calcification in vitro. In the molecular analysis, we found that Runt‐related transcription factor 2, a transcriptional factor accelerating bone formation, was upregulated in cultured VSMC s from KO mice, and its regulator β‐catenin was more activated with suppressed ubiquitination in KO VSMC s. Furthermore, we examined VSMC s from mice in which kinase‐active or kinase‐dead IKK β was overexpressed in VSMC s. We found that kinase‐independent function of IKK β is involved in suppression of calcification via inactivation of β‐catenin, which leads to suppression of Runt‐related transcription factor 2 and osteoblast marker genes. Conclusions IKK β negatively regulates VSMC calcification through β‐catenin–Runt‐related transcription factor 2 signaling, which revealed a novel function of IKK β on vascular calcification.
- Published
- 2018
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