Protein catabolism in fibroblasts cultured from patients with mucolipidosis II and other lysosomal disorders.

Protein catabolism in fibroblasts cultured from the skin of normal individuals and of patients with mucolipidosis II (I-cell disease) and several other lysosomal storage diseases was examined by metabolic labelling with [3H]leucine and following the fate of radioactive proteins in pulse-chase experiments. In mucolipidosis II cells, overall protein degradative rates were found to be distinctly lower than in normal control cells. To distinguish lysosomal from non-lysosomal degradation, labelling experiments were carried out in the presence and absence of 10 mM NH4Cl, an inhibitor of lysosomal function. It was found that mucolipidosis II fibroblasts exhibited a markedly reduced rate of lysosomal protein degradation, whereas the rate of nonlysosomal degradation appeared normal. Serum and amino acid starvation led to a marked increase in lysosomal protein degradation in normal cells, but had only a minimal effect on that in mucolipidosis II fibroblasts. The specific activities of cathepsins B, H and L were profoundly diminished in all mucolipidosis II cell lines tested. Lysosomal protein degradation in a mucolipidosis III cell line was impaired to a similar degree as in mucolipidosis II cells, whereas it was decreased to a lesser extent in fibroblasts from patients with mucopolysaccharidoses I and VI, galactosialidosis and GM1-gangliosidosis. We conclude that fibroblasts from patients with mucolipidosis II and III have a severely compromised capacity for endogenous lysosomal protein degradation that appears to result from multiple cathepsin deficiency. This lysosomal defect is likely to have pathophysiological consequences.