Nancy E. Hastings scite author profile

Nancy E. Hastings

2Publications

46Citation Statements Received

28Citation Statements Given

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University of Tennessee at Knoxville

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Bone marrow transplantation in canine mucopolysaccharidosis I. Effects within the central nervous system.

Shull¹,

Hastings²,

Selcer³

et al. 1987

J. Clin. Invest.

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Five dogs with mucopolysaccharidosis I, a model of human Hurler/Scheie syndrome, were transplanted with marrow from phenotypically normal littermates at 5 mo of age. At 3 and 9 mo posttransplantation, biopsies of cerebral cortex, liver, and cerebrospinal fluid were obtained. The a-L-iduronidase levels in these tissues were 0.8-7.4, 26-45, and 6.3-14.9% of the paired donor tissues, respectively. Although iduronidase was present in relatively low levels in the recipients' brains and cerebrospinal fluid at both biopsy times, reduction in brain glycosaminoglycan (GAG) was comparable to that observed in liver. Ultrastructural studies of cells within the transplanted dogs' brains showed less lysosomal distension and storage product than in affected, nontransplanted, littermate controls. The most marked clearing of stored GAG was in cells surrounding blood vessels, but decreased lysosomal storage in neurons and glial cells was also observed. Urinary GAG excretion also decreased to near normal levels by 5 mo posttransplantation.

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Neurochemical Characterization of Canine α‐L‐Iduronidase Deficiency Disease (Model of Human Mucopolysaccharidosis I)

Constantopoulos

Shull

Hastings

et al. 1985

Journal of Neurochemistry

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This report presents the neurochemical findings on the first dog to die with deficiency of alpha-L-iduronidase (mucopolysaccharide alpha-L-iduronohydrolase; EC 3.2.1.76). The principal findings were (a) markedly increased glycosaminoglycan content in all neural tissues examined (from threefold in sciatic nerve to 15-fold in brainstem), (b) a modest increase in levels of gangliosides GM2, GM3, and GD3, particularly in gray matter, (c) excessive accumulation of glycosaminoglycans in the CSF, (d) the increased glycosaminoglycans were dermatan sulfate and heparan sulfate, and (e) the molecular weights of the liver glycosaminoglycans were shifted toward smaller sizes, indicating partial degradation. The canine disorder thus resembles mucopolysaccharidosis I in all aspects.

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Nancy E. Hastings

Bone marrow transplantation in canine mucopolysaccharidosis I. Effects within the central nervous system.

Neurochemical Characterization of Canine α‐L‐Iduronidase Deficiency Disease (Model of Human Mucopolysaccharidosis I)

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