The effects of endothelial progenitor cells on rat atherosclerosis: The Effects of EPCs on Atherosclerosis

Ultrastructural changes of vascular smooth muscle cells and resistance to vasospasm treatment in femoral arteries of an arteriosclerotic rat model

The objective of this study was to establish an animal model of arteriosclerosis for assessing vasospasm and to investigate the relationship between arteriosclerosis and vasospasm. Twelve-week-old male Sprague-Dawley rats were fed a diet supplemented with adenine and vitamin D (adenine/vitD). Body weight, blood, and femoral artery histopathology were assessed at 2, 4, and 6 weeks. Change in the femoral artery was examined by transmission electron microscope (TEM). Vasospasm was induced by administering epinephrine extravascularly into the femoral artery and released by the treatment with lidocaine as a vasodilator. During this period, the extravascular diameter and blood flow were measured. The rats in the adenine/vitD group developed renal dysfunction, uremia, hyperphosphatemia, and elevated serum alkaline phosphatase. Histological and TEM analyses of the femoral arteries in the treated rats revealed the degeneration of elastic fibers and extensive calcification of the tunica media and intima. Vascular smooth muscles were degenerated and osteoblasts were developed, resulting in calcified arteriosclerosis. Vasospasm in arteriosclerotic arteries was detected; however, vasodilation as well as an increase in the blood flow was not observed. This study revealed the development of vasospasm in the femoral arteries of the arteriosclerotic rats and, a conventional vasodilator did not release the vasospasm.

Endothelial progenitor cell-derived exosomes ameliorate endothelial dysfunction in a mouse model of diabetes

Atherosclerosis is a serious cardiovascular complication of diabetes characterized by inflammation and endothelial damage. Indeed, dysfunction of the endothelium is considered an early marker of atherosclerosis. Endothelial progenitor cells (EPCs) are prerequisites for blood vessels lined with endothelial cells (ECs), which produce many factors to regulate blood vessel function. Importantly, EPCs also repair some dysfunctions in ECs. Exosomes have been associated with the occurrence and development of disease. Here, we analyzed the microRNAs (miRNAs) contained in exosomes derived from EPCs by using next-generation sequencing. We found that most of the top 10 highest expressed miRNAs in these exosomes were related to atherosclerosis. In a mouse model of atherosclerotic diabetes, treatment with EPC-derived exosomes significantly reduced the production of diabetic atherosclerotic plaques and inflammatory factors. In an in vitro assay examining the contractility of the thoracic aorta from these mice, the addition of EPC-derived exosomes significantly ameliorated the observed endothelium-dependent contractile dysfunction. Taken together, these results indicated that EPC-derived exosomes ameliorated atherosclerotic endothelial dysfunction in a mouse model of atherosclerotic diabetes. Thus, the present study provides a potential therapeutic application of EPC-derived exosomes in cardiovascular disease.

Cai's Neiyi Prescription promotes apoptosis and inhibits inflammation in endometrial stromal cells with endometriosis through inhibiting USP10

To observe the effect of Cai's Neiyi Prescription (CNYP) on the apoptosis and inflammation in endometrial stromal cells with endometriosis (EM) both in vivo and in vitro, EM model rats and endometrial stromal cells were treated with CNYP and the level of USP10, p-ERK1/2, ERK1/2, and apoptosis-related protein as well as the levels of proinflammatory factors were measured by Western blotting and ELISA, respectively. Rats with surgically induced EM showed increased USP10 expression and ERK/2 activation. Intragastric administration of CNYP granule significantly inhibited EM-induced ERK1/2 activation and expression of USP10 and Bcl-2, but increased the expression of Bax and Caspase-7 in EM-induced rats. CNYP granule administration also inhibited EM-induced inflammation in rats. Moreover, the ectopic endometrial stromal cells isolated from EM patients demonstrated decreased ERK1/2 activation and expression of USP10 and Bcl-2 and increased expression of Bax and Caspase-7 after cultured in DMEM containing CNYP-medicated rat serum, which were reversed by USP10 overexpression and were enhanced by USP10 siRNA. USP10 overexpression also inhibited while USP10 siRNA enhanced the CNYP-induced inhibition of inflammation in ectopic endometrial stromal cells. Taken together, our results suggest that CNYP granule promotes apoptosis and inhibits inflammation in endometrial stromal cells with EM through inhibiting USP10.