Yuji Shiraishi scite author profile

Our results provide the first evidence that increased plasma urotensin II level stimulates oxidized low-density lipoprotein and reactive oxygen species production and macrophage foam cell formation via increased expression of CD36, scavenger receptor class A, and acyl-CoA:cholesterol acyltransferase-1, contributing to the development of atherosclerosis in apolipoprotein E-deficient mice. Urotensin II receptor antagonism may be a promising therapeutic strategy against atherosclerosis.

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Human Urotensin II Promotes Hypertension and Atherosclerotic Cardiovascular Diseases

Watanabe¹,

Arita²,

Shiraishi³

et al. 2009

CMC

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Human urotensin II (U-II), the most potent vasoconstrictor undecapeptide identified to date, and its receptor (UT) are involved in the pathogenesis of systemic and pulmonary hypertension. Here, we review recent advances in our understanding of the pathophysiology of U-II with particular reference to its role in atherosclerotic cardiovascular diseases. Single-nucleotide polymorphisms of U-II gene (S89N) are associated with onset of essential hypertension, type II diabetes mellitus, and insulin resistance in the Asian population. Plasma U-II levels are elevated in patients with vascular endothelial dysfunction-related diseases such as essential hypertension, diabetes mellitus, atherosclerosis, ischemic heart disease, and heart failure. Chronic infusion of U-II enhances atherosclerotic lesions in the aorta in apolipoprotein E-knockout mice. In human atherosclerotic plaques from the aorta and coronary and carotid arteries, U-II is expressed at high levels in endothelial cells (ECs) and lymphocytes, whereas UT is expressed at high levels in vascular smooth muscle cells (VSMCs), ECs, monocytes, and macrophages. U-II stimulates vascular cell adhesion molecule-1 and intercellular adhesion molecule-1 expression in human ECs as chemoattractant for monocytes, and accelerates foam cell formation by up-regulation of acyl-coenzyme A:cholesterol acyltransferase-1 in human monocyte-derived macrophages. U-II produces reactive oxygen species (ROS) via nicotinamide adenine dinucleotide phosphate oxidase activation in human VSMCs, and stimulates VSMC proliferation with synergistic effects when combined with ROS, oxidized LDL, and serotonin. Clinical studies demonstrated increased plasma U-II levels in accordance with the severity of carotid atherosclerosis in patients with essential hypertension and that of coronary artery lesions in patients with ischemic heart disease. Here, we summarize the key roles of U-II in progression of hypertension and atherosclerotic cardiovascular diseases.

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Cardiac gene transfer by intracoronary infusion of adenovirus vector—mediated reporter gene in the transplanted mouse heart

Lee¹,

Laks²,

Drinkwater³

et al. 1996

The Journal of Thoracic and Cardiovascular Surgery

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This study introduces a model for intracoronary gene transfer in murine cardiac isografts using adenovirus vectors. This approach may offer an opportunity to modulate alloreactivity after cardiac transplantation. Donor hearts were infected via the coronary arteries with a volume of 10(9) plaque-forming units per milliliter of a recombinant adenovirus containing the beta-galactosidase-encoding gene (Ad.CMVLacZ). In a control group, 200 microliters of normal saline solution was infused. The grafts were stored in 4 degrees C cold saline solution for 15 minutes, then transplanted heterotopically into syngeneic hosts (B10.BR). The grafts were harvested at 3, 7, 15, or 30 days (n = 5 for each group) after transplantation, and beta-galactosidase activity was assessed by histochemical staining (X-gal). All grafts were functioning when harvested. X-gal staining pattern was nonuniform with positive staining appearing in epicardial, myocardial, and endocardial cells, as well as in the vessel walls. The cells permissive to infection consisted predominantly of myocardial cells. The mean total numbers of beta-gal-positive staining cells per slice were 68.7 +/- 27.3 in the 3-day group, 330.4 +/- 53.8 in the 7-day group, 151.3 +/- 48.0 in the 15-day group, and 39.9 +/- 10.8 in the 30-day group, thus peaking in the 7-day group (p < 0.05). Control isografts (n = 5), retrieved at day 30, revealed no staining activity. In conclusion, our model demonstrates that intracoronary gene transfer to the transplanted murine cardiac grafts is feasible at the time of harvest. Adenovirus-mediated gene transfer produces widespread gene expression which, though perhaps transient, does not adversely affect myocardial structure or function. This technology may allow modification of graft immunogenicity in the future through the production of therapeutic proteins sufficient to modulate local immune responses.

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Yuji Shiraishi

Chronic infusion of salusin-α and -β exerts opposite effects on atherosclerotic lesion development in apolipoprotein E-deficient mice

The Effects of Statin and Fibrate on Lowering Small Dense LDL- Cholesterol in Hyperlipidemic Patients with Type 2 Diabetes

Chronic urotensin II infusion enhances macrophage foam cell formation and atherosclerosis in apolipoprotein E-knockout mice

Human Urotensin II Promotes Hypertension and Atherosclerotic Cardiovascular Diseases

Cardiac gene transfer by intracoronary infusion of adenovirus vector—mediated reporter gene in the transplanted mouse heart

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