ABSTRACT: Hurler syndrome (mucopolysaccharidosis type I
[MPS I]) is a uniformly lethal autosomal recessive storage disease
caused by absence of the enzyme �-L-iduronidase (IDUA), which is
involved in lysosomal degradation of sulfated glycosaminoglycans
(GAGs). Cardiomyopathy and valvar insufficiency occur as GAGs
accumulate in the myocardium, spongiosa of cardiac valves, and
myointima of coronary arteries. Here we report the functional, biochemical,
and morphologic cardiac findings in the MPS I mouse. We
compare the cardiac functional and histopathological findings in the
mouse to human MPS I. In MPS I mice, we have noted aortic
insufficiency, increased left ventricular size, and decreased ventricular
function. Aortic and mitral valves are thickened and the aortic root
is dilated. However, murine MPS I is not identical to human MPS I.
Myointimal proliferation of epicardial coronary arteries is unique to
human MPS I, whereas dilation of aortic root appears unique to
murine MPS I. Despite the differences between murine and human
MPS I, the murine model provides reliable in vivo outcome parameters,
such as thickened and insufficient aortic valves and depressed
cardiac function that can be followed to assess the impact of therapeutic
interventions in preclinical studies in Hurler syndrome.
(Pediatr Res 59: 27–32, 2006)
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