scholarly journals Arsenic Increases Pi-Mediated Vascular Calcification and Induces Premature Senescence in Vascular Smooth Muscle Cells

2012 ◽  
Vol 131 (2) ◽  
pp. 641-653 ◽  
Author(s):  
Ana Martín-Pardillos ◽  
Cecilia Sosa ◽  
Victor Sorribas
Keyword(s):  
Smooth Muscle ◽  
Vascular Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Vascular Calcification ◽  
Vascular Smooth Muscle Cells ◽  
Muscle Cells ◽  
Premature Senescence

scholarly journals Interleukin-1β-Induced Senescence Promotes Osteoblastic Transition of Vascular Smooth Muscle Cells

2020 ◽  
Vol 45 (2) ◽  
pp. 314-330 ◽  
Author(s):  
Linzi Han ◽  
Yuying Zhang ◽  
Mingming Zhang ◽  
Liyu Guo ◽  
Jun Wang ◽  
...  
Keyword(s):  
Smooth Muscle ◽  
Vascular Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Signaling Pathway ◽  
Vascular Calcification ◽  
Vascular Smooth Muscle Cells ◽  
Muscle Cells ◽  
Premature Senescence ◽  
Healthy Individuals ◽  
Mineral Deposition

Introduction: Interleukin (IL)-1β, as a key biomarker and mediator of vascular calcification in patients with end-stage renal disease (ESRD), may be involved in the process of premature senescence of vascular smooth muscle cells (VSMCs). This work sought to investigate whether IL-1β-induced premature senescence contributes to the process of osteoblastic transition and vascular calcification in VSMCs. Methods: Eighty-eight patients with ESRD (aged 25–81 years), 11 healthy individuals, and 15 cases of lesion-free distal radial arteries from dialysis ESRD patients with angiostomy were collected in this study. Immunohistochemical analysis was performed to detect expression of IL-1β, p21, and bone morphogenetic protein-2 (BMP2) in the distal radial arteries. Primary human VSMCs from healthy neonatal umbilical cords were incubated with test agents for 1–3 days. Intracellular levels of reactive oxygen species (ROS) and senescence-associated-β-galactosidase (SA-β-gal) staining were used to detect senescent cells. Alizarin red staining and the calcium content of the cell layer were used to detect mineral deposition in VSMCs. Results: Coincident with positive staining of IL-1β, p21, and BMP2 in the lesion-free distal radial arteries, 66.67% patients showed mineral deposition. Serum IL-1β was 0.24 ± 0.57, 1.20 ± 2.95, and 9.41 ± 40.52 pg/mL in 11 healthy individuals, 20 patients without calcification, and 53 patients with calcification, respectively. Analysis of the cross-table chi-square test showed cardiovascular calcification is not correlated with levels of serum IL-1β in patients with ESRD (p = 0.533). In response to IL-1β, VSMCs showed a senescence-like phenotype, such as flat and enlarged morphology, increased expression of p21, an increased activity of SA-β-gal, and increased levels of ROS. IL-1β-induced senescence of VSMCs was required for the activation of IL-1β/NF-κB/p53/p21 signaling pathway. IL-1β-induced senescent VSMCs underwent calcification due to osteoblastic transition mainly depending upon the upregulation of BMP2. Resveratrol, an activator of sirtuin-1, postponed the IL-1β-induced senescence through blocking the NF-κB/p53/p21 pathway and attenuated the osteoblastic transition and calcification in VSMCs. Conclusions: High levels of IL-1β in medial smooth muscles of arteries may play roles in inducing senescence-associated calcification. IL-1β-induced senescence depending on the activation of the NF-κB/p53/p21 signaling pathway and contributing to osteoblastic transition of VSMCs.

scholarly journals MicroRNA-223-3p inhibits vascular calcification and the osteogenic switch of vascular smooth muscle cells

2021 ◽  
Vol 296 ◽  
pp. 100483
Author(s):  
Yingchun Han ◽  
Jichao Zhang ◽  
Shan Huang ◽  
Naixuan Cheng ◽  
Congcong Zhang ◽  
...  
Keyword(s):  
Smooth Muscle ◽  
Vascular Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Vascular Calcification ◽  
Vascular Smooth Muscle Cells ◽  
Muscle Cells

Fetuin-A decrease induced by a low-protein diet enhances vascular calcification in uremic rats with hyperphosphatemia

2015 ◽  
Vol 309 (8) ◽  
pp. F744-F754 ◽  
Author(s):  
Shunsuke Yamada ◽  
Masanori Tokumoto ◽  
Kazuhiko Tsuruya ◽  
Narihito Tatsumoto ◽  
Hideko Noguchi ◽  
...  
Keyword(s):  
Smooth Muscle ◽  
Calcium Phosphate ◽  
Vascular Smooth Muscle ◽  
Smooth Muscle Cells ◽  
Vascular Calcification ◽  
Vascular Smooth Muscle Cells ◽  
Muscle Cells ◽  
Fetuin A ◽  
Low Protein ◽  
High Phosphate

Although dietary phosphate restriction is important for treating hyperphosphatemia in patients with chronic kidney disease, it remains unclear whether a low-protein diet (LPD), which contains low phosphate, has beneficial effects on malnutrition, inflammation, and vascular calcification. The effects of LPD on inflammation, malnutrition, and vascular calcification were therefore assessed in rats. Rats were fed a normal diet or diets containing 0.3% adenine and low/normal protein and low/high phosphate. After 6 wk, serum and urinary biochemical parameters, systemic inflammation, and vascular calcification were examined. The protective effect of fetuin-A and albumin were assessed in cultured vascular smooth muscle cells. Rats fed the diet containing 0.3% adenine developed severe azotemia. LPD in rats fed high phosphate induced malnutrition (decreases in body weight, food intake, serum albumin and fetuin-A levels, and urinary creatinine excretion) and systemic inflammation (increases in serum tumor necrosis factor-α and urinary oxidative stress marker). LPD decreased the serum fetuin-A level and fetuin-A synthesis in the liver and increased serum calcium-phosphate precipitates. A high-phosphate diet increased aortic calcium content, which was enhanced by LPD. Reduced fetal calf serum in the medium of cultured vascular smooth muscle cells enhanced phosphate-induced formation of calcium-phosphate precipitates in the media and calcification of vascular smooth muscle cells, both of which were prevented by fetuin-A administration. Our results suggest that phosphate restriction by restricting dietary protein promotes vascular calcification by lowering the systemic fetuin-A level and increasing serum calcium-phosphate precipitates and induces inflammation and malnutrition in uremic rats fed a high-phosphate diet.

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