Lysosomal sulfoglycolipid storage in the kidneys of mice deficient for arylsulfatase A (ASA) and of double-knockout mice deficient for ASA and galactosylceramide synthase

Abstract.

The inherited deficiency of arylsulfatase A (ASA) causes lysosomal accumulation of sulfoglycolipids (mainly sulfo-galactosylceramide, S-GalCer ) and leads to metachromatic leukodystrophy in humans. Among visceral organs, kidneys are particularly affected. In the present study, the regional distribution and temporal development of sulfoglycolipid storage in kidneys of ASA^-/- mice was investigated histochemically (alcian blue) and ultrastructurally. Furthermore, the sulfoglycolipid storage was examined in kidneys of double-knockout mice, which are incapable of: (a) degrading any sulfolipids (ASA^-/-) and (b) synthesizing the major sulfolipid S-GalCer because of deficiency for galactosylceramide synthase (CGT), with the aim to search for additional ASA substrates. In ASA^-/- mice, the nephron segments could be ranged in the order of decreasing sulfolipid storage: thin limbs of long-looped nephrons ~ thick ascending limbs > distal convoluted tubules > collecting ducts ~ short thin limbs. Macula densa and proximal tubules were unaffected. In ASA^-/-/CGT^-/- mice, the long thin limbs and distal convoluted tubules resembled those of ASA^-/-/CGT^+/+ mice, while the other segments showed less storage. The results suggest that the turnover of sulfolipids in general is highest in the distal nephron except macula densa, and that long thin limbs and distal convoluted tubules are the main sites for turnover of a minor sulfolipid species, which is known to be synthesized in the kidney of CGT^-/- mice.