Intravenous administration of phosphorylated acid alpha-glucosidase leads to uptake of enzyme in heart and skeletal muscle of mice.
Van der Ploeg AT, Kroos MA, Willemsen R, Brons NH, Reuser AJ
The Journal of clinical investigation, 1991 Feb
Abstract
The lysosomal storage disorder glycogenosis type II is caused by acid alpha-glucosidase deficiency. In this study we have investigated the possible applicability of mannose 6-phosphate receptor-mediated enzyme replacement therapy to correct the enzyme deficiency in the most affected tissues. Bovine testes acid alpha-glucosidase containing phosphorylated mannose residues was intravenously administered to mice and found to be taken up by heart (70% increase of activity) and skeletal muscle (43% increase); the major target organs. The uptake of nonphosphorylated human placenta acid alpha-glucosidase by heart and skeletal muscle appeared to be significantly less efficient, whereas uptake of dephosphorylated bovine testes enzyme was not detectable. The phosphorylated bovine testes acid alpha-glucosidase remained present in mouse skeletal muscle up to 9-15 d after administration, with a half-life of 2-4 d. Besides being measured in skeletal muscle and heart, uptake of phosphorylated bovine testes and nonphosphorylated human placenta acid alpha-glucosidase was measured in several other organs, but not in brain. The increase of acid alpha-glucosidase activity was highest in liver and spleen. We concluded that application of mannose 6-phosphate receptor-mediated enzyme replacement therapy may offer new perspectives for treatment of glycogenesis type II.