TABLE 1.
The effect of oxLDL on key mechanisms involved in atherogenesis.
| Atherogenic process | Involved cells | OxLDL effect | References |
|---|---|---|---|
| Endothelial dysfunction | ECs | OxLDL induces endothelial dysfunction via cytoplasmic adapter protein TRAF3IP2 | Valente et al. (2014) |
| NO production | ECs | OxLDL inhibits eNOS activity and NO production | Blair et al. (1999) |
| Apoptosis | VSMCs | OxLDL overproduction triggers LOX-1 expression and apoptosis | Wu et al. (2017) |
| Cell adhesion | ECs, leukocytes | OxLDL can stimulate the activation of endothelial cells and the production of adhesion molecules that mediate the adhesion of blood leukocytes, that adhere to the endothelium and migrate into the intima. As the consequence of the macrophage activation, proinflammatory cytokines are released, ROS are synthesized, and proteolytic enzymes that contribute to the matrix degradation are also produced. This leads to plaque destabilization | Chen and Khismatullin (2015); Obermayer et al. (2018) |
| Proliferation | ECs | OxLDL induces cell proliferation via Rho/ROCK/Akt/p27kip1 signaling | Zhang et al. (2017) |
| Cell death | ECs | OxLDL induces cell death via cytoplasmic adapter protein TRAF3IP2 | Valente et al. (2014) |
| NLRP3 inflammasome activation | Macrophages | OxLDL and cholesterol crystal accumulation are important triggers of inflammasome activation. OxLDL can activate NLRP3 inflammasome even without cholesterol crystals. Macrophages uptake oxLDL via CD36, which results in the intracellular nucleation of cholesterol crystals in lysosomes | Grebe et al. (2018); Poznyak et al. (2020b) |