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Recombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblasts.

Publication ,  Journal Article
Yang, HW; Kikuchi, T; Hagiwara, Y; Mizutani, M; Chen, YT; Van Hove, JL
Published in: Pediatr Res
March 1998

Acid alpha-glucosidase (GAA) deficiency causes Pompe disease, a lethal lysosomal glycogen storage disease for which no effective treatment currently exists. We investigated the endocytic process in deficient cells of human recombinant GAA produced in Chinese hamster ovary cells, and the potential of GAA-deficient Japanese acid maltase-deficient quail as a model for evaluating the enzyme replacement therapy for Pompe disease. After 24-h incubation with a single dose of recombinant enzyme, intracellular GAA and glycogen levels in deficient human fibroblasts were normalized, and this correction lasted for 7 d. The 110-kD precursor recombinant enzyme was processed to the 76-kD mature form within 24 h after uptake. Intracellular GAA levels in deficient quail fibroblasts and myoblasts were similarly corrected to their average normal levels within 24 h. Differences existed in the efficiency of endocytosis among subfractions of the enzyme, and among different cell types. Fractions with a larger proportion of precursor GAA were endocytosed more efficiently. Quail fibroblasts required a higher dose, 4200 nmol.h-1.mL-1 to normalize intracellular GAA levels than human fibroblasts, 1290 nmol.h-1.mL-1, whereas primary quail myoblasts required 2800 nmol.h-1.mL-1. In all three cell lines, the endocytosed enzyme localized to the lysosomes on immunofluorescence staining, and the endocytosis was inhibited by mannose 6-phosphate (Man-6-P) added to the culture medium. Despite structural differences in Man-6-P receptors between birds and mammals, these studies illustrate that Man-6-P receptor mediated endocytosis is present in quail muscle cells, and demonstrate the potential of acid maltase-deficient quail to test receptor mediated enzyme replacement therapy for Pompe disease.

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Published In

Pediatr Res

DOI

ISSN

0031-3998

Publication Date

March 1998

Volume

43

Issue

3

Start / End Page

374 / 380

Location

United States

Related Subject Headings

  • alpha-Glucosidases
  • Recombinant Proteins
  • Receptor, IGF Type 2
  • Quail
  • Pediatrics
  • Muscles
  • Kinetics
  • Humans
  • Glycogen Storage Disease Type II
  • Glycogen
 

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Yang, H. W., Kikuchi, T., Hagiwara, Y., Mizutani, M., Chen, Y. T., & Van Hove, J. L. (1998). Recombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblasts. Pediatr Res, 43(3), 374–380. https://doi.org/10.1203/00006450-199803000-00011
Yang, H. W., T. Kikuchi, Y. Hagiwara, M. Mizutani, Y. T. Chen, and J. L. Van Hove. “Recombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblasts.Pediatr Res 43, no. 3 (March 1998): 374–80. https://doi.org/10.1203/00006450-199803000-00011.
Yang HW, Kikuchi T, Hagiwara Y, Mizutani M, Chen YT, Van Hove JL. Recombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblasts. Pediatr Res. 1998 Mar;43(3):374–80.
Yang, H. W., et al. “Recombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblasts.Pediatr Res, vol. 43, no. 3, Mar. 1998, pp. 374–80. Pubmed, doi:10.1203/00006450-199803000-00011.
Yang HW, Kikuchi T, Hagiwara Y, Mizutani M, Chen YT, Van Hove JL. Recombinant human acid alpha-glucosidase corrects acid alpha-glucosidase-deficient human fibroblasts, quail fibroblasts, and quail myoblasts. Pediatr Res. 1998 Mar;43(3):374–380.

Published In

Pediatr Res

DOI

ISSN

0031-3998

Publication Date

March 1998

Volume

43

Issue

3

Start / End Page

374 / 380

Location

United States

Related Subject Headings

  • alpha-Glucosidases
  • Recombinant Proteins
  • Receptor, IGF Type 2
  • Quail
  • Pediatrics
  • Muscles
  • Kinetics
  • Humans
  • Glycogen Storage Disease Type II
  • Glycogen