Objective
This study tested the hypothesis that vasospasm can trigger of coronary plaque injury and acute ischemic myocardial damage.
Approach and Results
Hyperlipidemic myocardial infarction–prone rabbits (WHHLMI strain) received an intravenous bolus of ergonovine maleate (0.45 μmol/kg) during intravenous infusion of norepinephrine (12 nmol/kg/min) to provoke coronary spasm in vivo. After this treatment, coronary angiography demonstrated vasospasm, and the electrocardiogram (ECG) showed ischemic abnormalities (ST depression/elevation and T-wave inversion) in 77% of animals (23/30). These changes normalized after nitroglycerin injection. In rabbits that demonstrated these ECG findings for more than 20 minutes, echocardiograms showed left ventricular wall motion abnormality. Serum levels of heart-type fatty acid binding protein, cardiac troponin-I, and myoglobin increased markedly 4 hours after spasm provocation. In coronary lesions of WHHLMI rabbits with provoked coronary spasm, we observed intimal injury in 60.9% in the form of endothelial cell protrusions (39.1%), denudation (30.4%), and macrophage extravasation (56.5%). Plaque disruption with luminal thrombus, however, was only seen in 2/23 animals (8.7%), and mural microthrombus was rarely observed (4.3%).
Conclusions
These observations show that provocation of vasospasm in WHHLMI rabbits associates with subsequent ischemic myocardial damage. Although treatment with spasmogens altered aspects of plaque morphology, for example endothelial protrusion and macrophage emigration, thrombosis was rare in these animals with chronic atherosclerotic disease.
Abstract:In order to examine their suitability for studies on coronary atherosclerosis, we evaluated the features of coronary atherosclerotic plaques in myocardial infarction-prone Watanabe heritable hyperlipidemic (WHHLMI) rabbits, a spontaneous animal model for coronary atherosclerosis and myocardial infarction. Coronary segments of the hearts of 187 WHHLMI rabbits (10-29 months old) were sectioned serially and stained histopathologically and immunohistologically. Progression of coronary lesions was prominent in rabbits that had died suddenly. The degree of coronary lesions of females was higher than that of males. Various types of atherosclerotic lesions were observed in the coronary arteries, such as plaques with a large lipid core covered by a thin fibrous cap, fatty streaks, early and advanced fibroatheromas, fibrous lesions, and advanced lesions with calcium accumulation and the vasa vasorum. In rabbits that had died suddenly, the frequencies of fibroatheromas or advanced lesions were higher than those of rabbits euthanized. Matrix metalloproteinase (MMP)-positive macrophages were detected in gaps among endothelial cells at the plaque surface, beneath the fibrous cap of thin-capped fibroatheromas, and at the bottom of the intimal plaques in which the tunica media was attenuated. Immunohistological results suggest that MMP-positive macrophages are involved in the initiation, progression, and destabilization of coronary plaques, in addition to vascular remodeling, even in WHHLMI rabbits. In conclusion, coronary lesions in WHHLMI rabbits resemble human atherosclerotic lesions, and thus, the WHHLMI rabbit is a suitable animal model for studies on human coronary plaques.
LC3 − the mammalian homolog of Atg8 − was found as autophagosome membrane binding protein
in mammals and widely used as an autophagosomal marker. LC3A, B and C show different
expression patterns in each tissue. The aim of this study was to reveal the differences of
expression patterns among LC3 families in mouse placenta under normal condition and
nutrient starving condition. LC3A and B were highly expressed in decidual cells. LC3A and
B were increased in D14 compared with D12 and D16 in mouse placenta, while LC3C was
decreased. Starvation induced increase in LC3B expression specifically.
Immunohistochemistry showed different expression patterns among LC3A, B and C. LC3A
expression in syncytiotrophoblast was vanished by starvation. The results of real time
RT-PCR suggested differences between D12 and D16 in autophagic cascade induced by
starvation. Taken together, this study suggests that autophagy could play a role in
placental invasion system and that nutrient starvation affects LC3B expression.
Objectives: To examine whether the myocardial infarction-prone Watanabe heritable hyperlipidemic (WHHLMI) rabbit with visceral fat accumulation is a new animal model for human metabolic syndrome, we examined the relationship between mesenteric fat accumulation and insulin resistance, hyperlipidemia and atherosclerosis. Methods: Glucose tolerance tests were performed using adult (11- to 15-month-old) and middle-aged (17- to 21-month-old) WHHLMI rabbits fed standard chow restrictedly. In addition, lipoprotein lipid levels, serum C-reactive protein (CRP) levels, mesenteric fat weight and physical and physiological parameters were measured. Mesenteric fat was stained immunohistochemically. Results: The mesenteric adipose tissue was positive for monoclonal antibodies against macrophages, C-reactive protein and monocyte chemoattractant protein. In adult rabbits, mesenteric fat correlated to aortic lesion area, insulin resistance, fasting immunoreactive insulin, serum CRP, abdominal circumference and body weight. In middle-aged rabbits, mesenteric fat correlated to lipoprotein lipid levels in addition to the parameters showing a significant correlation in adult rabbits, excluding aortic lesion area. Conclusions: The WHHLMI rabbit with visceral fat accumulation is a new animal model for metabolic syndrome.
We examined the relationship between atherosclerosis and the provocation of coronary
spasm as well as the influence of coronary spasm on the onset of acute ischemic myocardial
disease. Coronary spasm was provoked in anesthetized normal Japanese white (JW) rabbits
and myocardial infarction-prone Watanabe heritable hyperlipidemic (WHHLMI) rabbits, an
animal model for coronary atherosclerosis and myocardial infarction, by injecting
ergonovine during the infusion of norepinephrine through a marginal ear vein. A decrease
in contrast flow in the left circumflex artery was observed on coronary angiograms.
Ischemic changes were observed on the electrocardiograms of 29% (2/7) of JW and 79%
(27/34, P=0.007) of WHHLMI rabbits. The frequency of coronary spasm was
significantly high in rabbits with severe coronary plaques showing diffuse lesions. Left
ventricle motility in vasospasm-positive rabbits, which was evaluated with
echocardiograms, was decreased by 29% following the ergonovine injection
(P<0.001), and every serum ischemic marker markedly increased 4 h
after the provocation of vasospasm. These results demonstrate that atherosclerotic
coronary arteries are positively related to the provocation of vasospasm, and vasospasm in
severe atherosclerotic coronary segments evokes angina pectoris-like findings and/or
non-fatal myocardial infarction. WHHLMI rabbits may be a novel animal model for angina
pectoris and acute ischemic heart disease.
Owl monkeys are the only one species possessing the nocturnal lifestyles among the simian monkeys. Their eyes and retinas have been interested associating with the nocturnal adaptation. We examined the cellular
specificity and electroretinogram (ERG) reactivity in the retina of the owl monkeys by comparison with the squirrel monkeys, taxonomically close-species and expressing diurnal behavior. Owl monkeys did not have clear
structure of the foveal pit by the funduscope, whereas the retinal wholemount specimens indicated a small-condensed spot of the ganglion cells. There were abundant numbers of the rod photoreceptor cells in owl monkeys
than those of the squirrel monkeys. However, the owl monkeys’ retina did not possess superiority for rod cell-reactivity in the scotopic ERG responses. Scanning electron microscopic observation revealed that the rod
cells in owl monkeys’ retina had very small-sized inner and outer segments as compared with squirrel monkeys. Owl monkeys showed typical nocturnal traits such as rod-cell dominance. However, the individual photoreceptor
cells seemed to be functionally weak for visual capacity, caused from the morphological immaturity at the inner and outer segments.
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