Seasonal variations in the biophysical properties of rabbit aorta and its susceptibility to arteriosclerosis

Effect of D-penicillamine on the mechanical properties of aorta, muscle tendon and skin in rats

The biomechanical properties of rat aorta, muscle tendon and skin were studied after daily D-penicillamine treatment (500 mg/kg) for 5, 10 and 42 days. D-Penicillamine treatment for 5 days resulted in increased aortic extensibility. After long-term treatment the aorta exhibited a shift towards decreased extensibility and increased stiffness at small 'stress' values. Simultaneously the dry weight and diameter of the aortic samples were increased after D-penicillamine treatment for 42 days. After correction of the mechanical parameters for the increased amount of tissue of the samples, the stiffness at small 'stress' values was still increased and the mechanical stability at high 'stress' values retained. This is in contrast to the marked reduction in the strength of muscle tendon and skin of the same animals after D-penicillamine treatment for 42 days. This study demonstrates that a primary increase in the extensibility of aorta may elicit a reactive formation of vascular connective tissue. It is proposed that aortic smooth muscle cells are activated by an increased pulsatile distension of the vessel wall secondary to the early effect of D-penicillamine on collagen and elastin. The resulting excess deposition of collagen and elastin leads to increased stiffness, which may in turn increase the susceptibility of the aortic wall to hemodynamic injury. Consequently D-penicillamine may not as proposed counteract the development of atherosclerosis.

D-penicillamine-induced angiopathy in rats. Changes in aortic collagen, glycosaminoglycans, DNA and RNA in rats treated with D-penicillamine

Male Sprague-Dawley rats were treated with D-penicillamine (D-pen) in doses of 100, 250 or 500 mg/kg per day for 10, 32, 42 or 70 days. In addition animals were examined 28 days after withdrawal from 42 day's treatment with D-pen at 100 or 500 mg/kg per day. Pair-fed rats served as controls. The changes in aortic collagen, glycosaminoglycans (GAGs), DNA and RNA were studied. D-Pen had a dose- and time-related solubilizing effect on aortic collagen, which regained normal resistance to extraction within 28 days after cessation of the treatment. In contrast, D-pen caused a progressive accumulation of hydroxyproline (Hyp) in the aortic wall during and after treatment, probably mediated by an increased number of matrix synthesizing cells, as judged by augmentation of the DNA content in the presence of unaltered Hyp/DNA and RNA/DNA ratios. The relative amount of type III collagen was increased after 500 mg/kg per day D-pen for 10 and 42 days. High doses of D-pen increased the percentage of water in the aortic wall and reduced the ratio of Hyp to total tissue protein, suggesting an increased content of water-binding substances. This was confirmed by GAG accumulation. Hyaluronic acid (HA) and chondroitin 4,6-sulphate (CHS) were predominant after 32 and 42 days, whereas CHS, heparan sulphate (HS) and dermatan sulphate (DS) prevailed after 70 days of treatment. These observations suggest that processes of repair and regeneration are elicited secondary to the inhibitory effect of D-pen on aortic collagen and elastin crosslinking. Hypertrophy of the vessel wall may imply an increased rigidity, resulting in further increase of the susceptibility to haemodynamic injury.

The evolution of experimental endarteritis in the rabbit abdominal aorta. Light and transmission electron microscopy

Experimental aortic intimal thickening has been induced in rabbits by sheathing the vessel with a polyethylene cuff. The alterations have been examined by light and transmission electron microscopy, during 12 months. An irregular intimal thickening develops as soon as the 15th day and includes numerous myofibroblasts with some other cells of monocytic or endothelial type. Microfibrils, elastic aggregates and collagen fibers are found in the intercellular space. Simultaneously, the media undergoes a fragmentation of the elastic laminae and the adventitia shows a capillary angiectasis and a granuloma. After 3 months there is, between the intimal smooth muscle cells, a progressive increase of elastic and collagenous material. In the media, elastic break up becomes more frequent after the 4th month and myocytes appear increasingly atrophic, which facilitates the extension of fibrosis. This is accompanied at times by a thinning of the arterial wall with or without localized disappearance of the media. All these modifications are discussed and compared to what we had previously found in the femoral artery [12].