Niemann-Pick C disease: functional characterization of three NPC2 mutations and clinical and molecular update on patients with NPC2.

Niemann-Pick type C disease (NPC), a neurovisceral disorder characterized by accumulation of unesterified cholesterol and glycolipids in the lysosomal/late endosomal system, is due to mutations on either the NPC1 or the NPC2 genes. We report the diagnosis of six unrelated patients with NPC2, all with homozygous mutations. We further attempted functional characterization of the p.P120S, p.Q146X and IVS1 + 2 t>c mutations under native conditions. This was achieved by immunoblotting and immunocytofluorescence microscopy on cultured skin fibroblasts and in silico modeling. IVS1 + 2 t>c led to multiple transcripts, with only abnormally spliced cDNAs. Among the three NPC2 variants, only p.P120S led to detectable amounts of an immunoreactive protein. This protein showed a normal lysosomal localization. Our results suggest that the p.P120S mutation, the first naturally occurring missense mutation located in the cholesterol-binding Evolutionarily Constrained Regions D domain, results in reduced amounts of a protein capable to reach the lysosome, but unable to efficiently bind cholesterol. The patient had a juvenile neurological onset form of the disease. An update of the 22 families with mutations in the NPC2 gene, currently known to us, confirms the good genotype-phenotype correlations seen in this disorder. Characterization of more naturally occurring NPC2 mutations may help to dissect further the functional domains of the protein.

Partial cure of established disease in an animal model of metachromatic leukodystrophy after intracerebral adeno-associated virus-mediated gene transfer.

Metachromatic leukodystrophy (MLD) is a lysosomal storage disease caused by genetic deficiency of arylsulfatase A (ARSA) enzyme. Failure in catalyzing the degradation of its major substrate, sulfatide (Sulf), in oligodendrocytes and Schwann cells leads to severe demyelination in the peripheral (PNS) and central nervous system (CNS), and early death of MLD patients. The ARSA knockout mice develop a disease that resembles MLD but is milder, without significant demyelination in the PNS and CNS. We showed that adeno-associated virus serotype 5-mediated gene transfer in the brain of ARSA knockout mice reverses Sulf storage and prevents neuropathological abnormalities and neuromotor disabilities when vector injections are performed at a pre-symptomatic stage of disease. Direct injection of viral particles into the brain of ARSA knockout mice at a symptomatic stage results in sustained expression of ARSA, prevention of Sulf storage and neuropathological abnormalities. Despite these significant corrections, the treated mice continue to develop neuromotor disability. We show that more subtle biochemical abnormalities involving gangliosides and galactocerebroside are in fact not corrected.

[Fatal neonatal respiratory distress in Niemann-Pick C2 and prenatal diagnosis with mutations in gene HE1/NPC2]. / Forme respiratoire néonatale létale de la maladie de Niemann-Pick C2 et diagnostic anténatal par l'étude des mutations du gène HE1/NPC2.

UNLABELLED: We report the fifth case of neonatal form of type C2 (NP-C2) Niemann-Pick disease with early and fatal respiratory distress. Eleven families presenting such cases are known to date in the world. Since December 2000, isolation of the underlying gene HE1/NPC2 and its mutations has allowed major advances in diagnosis. CASE REPORT: Elisa was born in May 2000. NP-C2 disease was associated with severe respiratory distress leading to death at the age of four months. On the next pregnancy in September 2000, prenatal diagnosis was performed by means of biological tests that required four weeks response time. In December 2000, isolation of the HE1/NPC2 gene located to 14q24.3 and of some of its mutations allowed to characterize the patient as being homozygote for the nonsense mutation E20X. On the the two next pregnancies, prenatal diagnosis was performed at 12 SA, in 48 hours, by the means of mutation analysis. The last fetus was heterozygote for the mutation E20X, allowing the birth at term of a healthy male newborn baby. CONCLUSION: Niemann-Pick type C disease is a rare lysosomal lipid storage disease with severe prognosis. It is characterized by abnormalities of intracellular transport of endocytosed cholesterol. Diagnosis relies on biological tests that require cultured cells. Genetic heterogeneity defines two different genetic complementation groups C1 and C2. Severe and early respiratory distress is more likely to be associated with the rare type C2. Since December 2000, after identification of the disease-causing mutations in the proband, mutation analysis of gene HE1/NPC2 on direct chorionic villus samples allows early and fast (48 hours) prenatal diagnosis.