Mouse Models of Human Lysosomal Diseases
- 1 January 1998
- journal article
- review article
- Published by Wiley in Brain Pathology
- Vol. 8 (1) , 195-215
- https://doi.org/10.1111/j.1750-3639.1998.tb00145.x
Abstract
Genetically authentic animal models of human lysosomal diseases occur spontaneously in many mammalian species. However, most are among larger domestic or farm animals with only two well‐defined genetic lysosomal diseases known among rodents. This status changed dramatically in recent years with the advent of the combined homologous recombination and embryonic stem cell technology, which allows directed generation of mouse models that are genetically equivalent to human diseases. Almost all known human sphingolipidoses, two mucopolysaccharidoses and aspartylglycosamin‐uria have so far been duplicated in mice and more are expected in the near future. This technology also allows generation of mouse mutants that are not known or are highly unlikely to exist in humans, such as “double‐knockouts.” These animal models will play an important role in studies of the pathogenesis and treatment of these disorders. While the utility of these mouse models is obvious, species differences in brain development and metabolic pathways must be always remembered, if the ultimate goal of the study is application to human patients.Keywords
This publication has 69 references indexed in Scilit:
- Neurological manifestations of knockout mice with β-galactosidase deficiencyBrain & Development, 1997
- A biochemical and ultrastructural evaluation of the type 2 Gaucher mouseMolecular and Chemical Neuropathology, 1995
- Molecular genetics of metachromatic leukodystrophyHuman Mutation, 1994
- N‐acetylglucosamine 6‐sulphatase deficiency in a Nubian goat: A model of Sanfilippo syndrome type D (mucopolysaccharidosis IIID)Journal of Inherited Metabolic Disease, 1992
- Neuropathology of Late Onset GangliosidosesDevelopmental Neuroscience, 1991
- Animal models for lysosomal storage diseases: A new case of feline mucopolysaccharidosis VIJournal of Inherited Metabolic Disease, 1991
- Sphingolipid activator protein deficiency in a 16-week-old atypical Gaucher disease patient and his fetal sibling: Biochemical signs of combined sphingolipidosesEuropean Journal of Pediatrics, 1989
- Cloning and sequence analysis of a cDNA encoding the β‐subunit of mouse β‐hexosaminidaseFEBS Letters, 1988
- Position-independent, high-level expression of the human β-globin gene in transgenic miceCell, 1987
- Ultrastructural Study on a Severe Infantile Sialidosis (β-Galactosidase - α-Neuraminidase Deficiency)Neuropediatrics, 1985