Literature DB >> 25947259

Molecular Mechanisms of Vascular Calcification in Chronic Kidney Disease: The Link between Bone and the Vasculature.

Chang Hyun Byon1, Yabing Chen.   

Abstract

Vascular calcification is highly prevalent in patients with chronic kidney disease (CKD) and increases mortality in those patients. Impaired calcium and phosphate homeostasis, increased oxidative stress, and loss of calcification inhibitors have been linked to vascular calcification in CKD. Additionally, impaired bone may perturb serum calcium/phosphate and their key regulator, parathyroid hormone, thus contributing to increased vascular calcification in CKD. Therapeutic approaches for CKD, such as phosphate binders and bisphosphonates, have been shown to ameliorate bone loss as well as vascular calcification. The precise mechanisms responsible for vascular calcification in CKD and the contribution of bone metabolism to vascular calcification have not been elucidated. This review discusses the role of systemic uremic factors and impaired bone metabolism in the pathogenesis of vascular calcification in CKD. The regulation of the key osteogenic transcription factor Runt-related transcription factor 2 (Runx2) and the emerging role of Runx2-dependent receptor activator of nuclear factor kappa-B ligand (RANKL) in vascular calcification of CKD are emphasized.

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Year:  2015        PMID: 25947259      PMCID: PMC4489999          DOI: 10.1007/s11914-015-0270-3

Source DB:  PubMed          Journal:  Curr Osteoporos Rep        ISSN: 1544-1873            Impact factor:   5.096


  99 in total

1.  Bisphosphonate Use and Prevalence of Valvular and Vascular Calcification in Women MESA (The Multi-Ethnic Study of Atherosclerosis).

Authors:  Sammy Elmariah; Joseph A C Delaney; Kevin D O'Brien; Matthew J Budoff; Jens Vogel-Claussen; Valentin Fuster; Richard A Kronmal; Jonathan L Halperin
Journal:  J Am Coll Cardiol       Date:  2010-11-16       Impact factor: 24.094

2.  The combination of lanthanum chloride and the calcimimetic calindol delays the progression of vascular smooth muscle cells calcification.

Authors:  Paola Ciceri; Elisa Volpi; Irene Brenna; Francesca Elli; Elisa Borghi; Diego Brancaccio; Mario Cozzolino
Journal:  Biochem Biophys Res Commun       Date:  2012-01-28       Impact factor: 3.575

3.  Targeted disruption of Cbfa1 results in a complete lack of bone formation owing to maturational arrest of osteoblasts.

Authors:  T Komori; H Yagi; S Nomura; A Yamaguchi; K Sasaki; K Deguchi; Y Shimizu; R T Bronson; Y H Gao; M Inada; M Sato; R Okamoto; Y Kitamura; S Yoshiki; T Kishimoto
Journal:  Cell       Date:  1997-05-30       Impact factor: 41.582

4.  Long-term sevelamer treatment lowers serum fibroblast growth factor 23 accompanied with increasing serum Klotho levels in chronic haemodialysis patients.

Authors:  Hsin-Hung Lin; Hung-Hsiang Liou; Ming-Shiou Wu; Ching-Yuang Lin; Chiu-Ching Huang
Journal:  Nephrology (Carlton)       Date:  2014-11       Impact factor: 2.506

5.  Inhibition of FOXO1/3 promotes vascular calcification.

Authors:  Liang Deng; Lu Huang; Yong Sun; Jack M Heath; Hui Wu; Yabing Chen
Journal:  Arterioscler Thromb Vasc Biol       Date:  2014-11-06       Impact factor: 8.311

6.  Phosphate regulation of vascular smooth muscle cell calcification.

Authors:  S Jono; M D McKee; C E Murry; A Shioi; Y Nishizawa; K Mori; H Morii; C M Giachelli
Journal:  Circ Res       Date:  2000-09-29       Impact factor: 17.367

7.  Elevated extracellular calcium levels induce smooth muscle cell matrix mineralization in vitro.

Authors:  Hsueh Yang; Gabrielle Curinga; Cecilia M Giachelli
Journal:  Kidney Int       Date:  2004-12       Impact factor: 10.612

8.  Association of low fetuin-A (AHSG) concentrations in serum with cardiovascular mortality in patients on dialysis: a cross-sectional study.

Authors:  Markus Ketteler; Philipp Bongartz; Ralf Westenfeld; Joachim Ernst Wildberger; Andreas Horst Mahnken; Roland Böhm; Thomas Metzger; Christoph Wanner; Willi Jahnen-Dechent; Jürgen Floege
Journal:  Lancet       Date:  2003-03-08       Impact factor: 79.321

9.  Uremia induces the osteoblast differentiation factor Cbfa1 in human blood vessels.

Authors:  Sharon M Moe; Danxia Duan; Brian P Doehle; Kalisha D O'Neill; Neal X Chen
Journal:  Kidney Int       Date:  2003-03       Impact factor: 10.612

10.  RANKL enhances macrophage paracrine pro-calcific activity in high phosphate-treated smooth muscle cells: dependence on IL-6 and TNF-α.

Authors:  Kate Ann Deuell; Andrea Callegari; Cecilia M Giachelli; Michael E Rosenfeld; Marta Scatena
Journal:  J Vasc Res       Date:  2012-08-30       Impact factor: 1.934
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  27 in total

1.  Cystathionine γ-Lyase-Hydrogen Sulfide Induces Runt-Related Transcription Factor 2 Sulfhydration, Thereby Increasing Osteoblast Activity to Promote Bone Fracture Healing.

Authors:  Yang Zheng; Feng Liao; Xianjuan Lin; Fengjiao Zheng; Jinghui Fan; Qinghua Cui; Jichun Yang; Bin Geng; Jun Cai
Journal:  Antioxid Redox Signal       Date:  2017-03-10       Impact factor: 8.401

2.  Malignant Mönckeberg medial calcific sclerosis.

Authors:  Isabella Pisani; Alessandro De Troia; Landino Allegri; Domenico Corradi; Augusto Vaglio
Journal:  Intern Emerg Med       Date:  2018-01-23       Impact factor: 3.397

3.  Skeleton-secreted PDGF-BB mediates arterial stiffening.

Authors:  Lakshmi Santhanam; Guanqiao Liu; Sandeep Jandu; Weiping Su; Bulouere P Wodu; William Savage; Alan Poe; Xiaonan Liu; Lacy M Alexander; Xu Cao; Mei Wan
Journal:  J Clin Invest       Date:  2021-10-15       Impact factor: 19.456

Review 4.  Arterial Stiffness: A Focus on Vascular Calcification and Its Link to Bone Mineralization.

Authors:  Yabing Chen; Xinyang Zhao; Hui Wu
Journal:  Arterioscler Thromb Vasc Biol       Date:  2020-04-02       Impact factor: 8.311

5.  MicroRNAs 223-3p and 93-5p in patients with chronic kidney disease before and after renal transplantation.

Authors:  M Ulbing; A H Kirsch; B Leber; S Lemesch; J Münzker; N Schweighofer; D Hofer; O Trummer; A R Rosenkranz; H Müller; K Eller; V Stadlbauer; B Obermayer-Pietsch
Journal:  Bone       Date:  2016-11-17       Impact factor: 4.398

6.  Aortic calcification burden predicts deterioration of renal function after radical nephrectomy.

Authors:  Ken Fukushi; Shingo Hatakeyama; Hayato Yamamoto; Yuki Tobisawa; Tohru Yoneyama; Osamu Soma; Teppei Matsumoto; Itsuto Hamano; Takuma Narita; Atsushi Imai; Takahiro Yoneyama; Yasuhiro Hashimoto; Takuya Koie; Yuriko Terayama; Tomihisa Funyu; Chikara Ohyama
Journal:  BMC Urol       Date:  2017-02-06       Impact factor: 2.264

7.  Activating BK channels ameliorates vascular smooth muscle calcification through Akt signaling.

Authors:  Feng-Ling Ning; Jie Tao; Dan-Dan Li; Lu-Lu Tian; Meng-Ling Wang; Svetlana Reilly; Cheng Liu; Hui Cai; Hong Xin; Xue-Mei Zhang
Journal:  Acta Pharmacol Sin       Date:  2021-06-23       Impact factor: 6.150

Review 8.  Transcriptional Programming in Arteriosclerotic Disease: A Multifaceted Function of the Runx2 (Runt-Related Transcription Factor 2).

Authors:  Yabing Chen; Xinyang Zhao; Hui Wu
Journal:  Arterioscler Thromb Vasc Biol       Date:  2020-10-29       Impact factor: 8.311

Review 9.  The molecular mechanisms of hemodialysis vascular access failure.

Authors:  Akshaar Brahmbhatt; Andrea Remuzzi; Marco Franzoni; Sanjay Misra
Journal:  Kidney Int       Date:  2016-02       Impact factor: 10.612

10.  Label-Free Quantitative Proteomics Reveals Differences in Molecular Mechanism of Atherosclerosis Related and Non-Related to Chronic Kidney Disease.

Authors:  Magdalena Luczak; Joanna Suszynska-Zajczyk; Lukasz Marczak; Dorota Formanowicz; Elzbieta Pawliczak; Maria Wanic-Kossowska; Maciej Stobiecki
Journal:  Int J Mol Sci       Date:  2016-05-02       Impact factor: 5.923
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