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will start to express cell adhesion molecules (CAMs), such as ICAM-1, VCAM-1,
E-selectin, and P-selectin. They are all essential to the recruitment of inflammatory
cells [ 120 ]. While physical exercise has a positive effect in the circulating CAMs.
Circulating ICAM-1, VCAM-1, and P-selectin are found to be significantly
decreased after 2 weeks of exercise training [ 121 – 123 ]. Similarly, physical exercise
performed 5 times per week for 6–8 weeks decreases circulating P-selectin andV-
CAM- 1 levels [ 124 ]. Shear stress induced during physical exercise could probably
contribute to these effects [ 125 ]. Besides, apart from the direct impact on CAMs
expression, physical exercise might also have indirect beneficial effects throughout
the reduction of agonists of CAM synthesis [ 43 , 126 , 127 ].
Endothelin-1 (ET-1), which is expressed by vascular endothelial cells, has strongconstrictor and proliferative activity on SMCs. Because of this, it has been implicated
in modulation of vascular contraction and progression of atherosclerosis. Its produc-
tion has been found to be elevated in human atherosclerotic lesions [ 128 – 130 ]. It was
found that in healthy adults, physical exercise is able to suppress its level [ 131 , 132 ].
In all, by reducing the soluble adhesion molecules which may represent the inter-action between activated monocytes/macrophages and endothelial cells and ET-1
concentration, physical exercise might be considered as an effective non-
pharmacological intervention to reduce endothelial adhesiveness.
2.5 Physical Exercise Regulates Macrophages Function
Macrophage has been studied for centuries for its role in inflammatory response. In
addition to modulating immune reaction, it is also noticed to take great part in the
atherosclerotic process. Macrophage is able to modulate lipid metabolism. During
the early phase of plaque formation, macrophages become foam cells when it can
not process OxLDL. Foam cells are the hallmarks of atherosclerotic lesions and
vulnerability [ 133 , 134 ]. Macrophages have been parsed into at least two
subtypes(M1 and M2), each of which have specific roles in atherosclerosis [ 135 –
138 ]. M1 macrophages produce high levels of pro-inflammatory factors like CD40,
CD80, IL-6, TNF-α, iNOS [ 139 ]. While M2 macrophages leads to more foam cell
formation with higher phagocytic nature and greater ability to import OxLDL. Foam
cell–prone M2 macrophages level is higher than pro-inflammatory M1 macrophages
in the early atherosclerotic lesions; but the ratio reverses as the lesion progresses
[ 140 ]. In addition, macrophages express MMPs to stable plaques during atherogen-
esis [ 141 – 143 ]. Additionally, HHcy may be a primary cause for the macrophages
dysfunction that leads to the effect on atherosclerosis [ 142 , 144 ].
Physical exercise prevents foam cell formation. It accelerates the transportationof cholesterol from macrophages to the liver which has been considered as the ini-
tial step of atherosclerosis [ 145 ]. Moreover, physical exercise encourages accumu-
lation of collagen and elastin by modulating serum level of MMPs and TIMP-1.
This greatly keep the plaque stability and reduce in lesion incidence and arterial
stenosis [ 146 – 148 ].
15 Physical Exercise Is a Potential “Medicine” for Atherosclerosis