Treatment of advanced atherosclerotic mice with ABT-263 reduced indices of plaque stability and increased mortality
Santosh Karnewar, Vaishnavi Karnewar, Laura S. Shankman, Gary K. Owens
Santosh Karnewar, Vaishnavi Karnewar, Laura S. Shankman, Gary K. Owens
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Research Article Vascular biology

Treatment of advanced atherosclerotic mice with ABT-263 reduced indices of plaque stability and increased mortality

Abstract

The use of senolytic agents to remove senescent cells from atherosclerotic lesions is controversial. A common limitation of previous studies is the failure to rigorously define the effects of senolytic agent ABT-263 (Navitoclax) on smooth muscle cells (SMC) despite studies claiming that these cells are the major source of senescent cells. Moreover, there are no studies on the effect of ABT-263 on endothelial cells (EC), which — along with SMC — comprise 90% of α-smooth muscle actin+ (α-SMA+) myofibroblast-like cells in the protective fibrous cap. Here we tested the hypothesis that treatment of advanced atherosclerotic mice with ABT-263 will reduce lesion size and increase plaque stability. SMC (Myh11-CreERT2-eYFP) and EC (Cdh5-CreERT2-eYFP) lineage tracing Apoe–/– mice were fed a western diet (WD) for 18 weeks, followed by ABT-263 at 100 mg/kg/bw for 6 weeks or 50 mg/kg/bw for 9 weeks. ABT-263 treatment did not change lesion size or lumen area of the brachiocephalic artery (BCA). However, ABT-263 treatment reduced SMC by 90% and increased EC contributions to lesions via EC-to-mesenchymal transition (EndoMT) by 60%. ABT-263 treatment also reduced α-SMA+ fibrous cap thickness by 60% and was associated with a > 50% mortality rate. Taken together, ABT-263 treatment of WD-fed Apoe–/– mice with advanced lesions resulted in multiple detrimental changes, including reduced indices of stability and increased mortality.

Authors

Santosh Karnewar, Vaishnavi Karnewar, Laura S. Shankman, Gary K. Owens

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Figure 1

SMC-Klf4 KO resulted in a marked reduction in overall lesion senescence, including reduced expression of the prosenescence markers p21+ and SAβG+ cells.

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SMC-Klf4 KO resulted in a marked reduction in overall lesion senescence,...
(A) Experimental design, SMC (Myh11-CreERT2-eYFP) lineage tracing Klf4 WT versus KO Apoe–/– mice were injected with tamoxifen at 6–8 weeks of age and subsequently placed on western diet (WD) for 26 weeks to induce advanced atherosclerosis. (B) SAβG staining was performed as described in Methods on freshly isolated aortas. Thoracic and abdominal aortic sections from SAβG-stained aortas from the left images and counter stained with nuclear fast red and yellow arrows indicate the SAβG+ cells. Original magnification ×10. (C) Quantification of SAβG+ area of the aorta. (D) Representative images of costaining for eYFP (for detecting SMC), α-SMA, p21 (a marker of senescence), and DAPI (nucleus) in advanced BCA lesions from SMC Klf4 WT and KO animals fed a WD for 26 weeks. The confocal images show a maximum intensity projection ×20 zoom. Scale bar: 100 μm. (E and F) Quantification of the frequency of p21+ (p21+/DAPI) senescent cells in the lesion (E) and fibrous cap (F) as a percent of total cells in the lesions. (G and H) Quantification of SMC derived p21+ (eYFP+ p21+/eYFP) senescent cells in the lesion (G) and the fibrous cap (H) as a percent of total SMC. (I) Quantification of α-SMA+ senescent (α-SMA+ p21+/α-SMA) cells in the lesion as a percentage of total α-SMA+ cells. Mann-Whitney U tests were used for statistical analysis in C and EI. Data are shown as mean ± SEM. Independent animals are indicated as individual dots (WT, n = 7, and KO, n = 9). The P values are indicated on the respective graphs.