C. Whitehouse scite author profile

Niemann-Pick disease type C (NPC) is an autosomal recessive, neurovisceral lipid storage disorder. Mutations in two genes (NPC1 and NPC2) produce indistinguishable clinical phenotypes by biochemical mechanisms that have not yet been entirely clarified. The wide spectrum of clinical presentations of NPC includes hepatic and pulmonary disease as well as a range of neuropsychiatric disorders. Late-onset disease has been increasingly recognized as the biochemical diagnosis of NPC has been more widely applied in adult neurology clinics. The clinical presentation and follow-up of 94 patients with NPC is described, 58 of whom were still alive at the time this report was prepared. The age at diagnosis ranged from the prenatal period (with hydrops fetalis) up to 51 years. This review of NPC patients in the UK confirms the phenotypic variability of this inherited lipid storage disorder reported elsewhere. Although a non-neuronopathic variant has been described, most patients in this series who survived childhood inevitably suffered neurological and in some cases neuropsychiatric deterioration. While symptomatic treatment, such as anticholinergic and antiepileptic drugs, can alleviate some aspects of the disease, there is a clear need to develop a specific treatment for this progressively debilitating neurodegenerative disorder.

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Niemann–Pick disease type C in adults

Imrie

Vijayaraghaven

Whitehouse

et al. 2002

J of Inher Metab Disea

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Although it is often perceived as a paediatric disorder, significant numbers of patients with Niemann-Pick disease type C present for the first time in adult life or survive into adult life. The presentation in these patients differs from that seen in the classical juvenile form of the disease. Adult patients are often referred to clinicians with psychosis or other major psychiatric problems. The dystonia with preserved intellectual functioning can be mistaken for other basal ganglia disorders such as Wilson disease. The presence of vertical gaze palsy is an important clinical clue and, in the presence of a modest increase in plasma chitotriosidase activity, can be very helpful in the differential diagnosis. The diagnosis should be confirmed in suspected cases by filipin staining of cultured fibroblasts, as well as cholesterol esterification studies and DNA mutation analysis.

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Mutation analysis in 46 British and Irish patients with Gaucher's disease

Hatton

Cooper

Whitehouse

et al. 1997

Archives of Disease in Childhood

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Methionine and Serine Formation in Control and Mutant Human Cultured Fibroblasts: Evidence for Methyl Trapping and Characterization of Remethylation Defects

et al. 1997

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The conversion of labeled formate to methionine and serine, as a measure of remethylation of homocysteine to methionine and folate coenzyme cycling, has been studied in control and mutant human fibroblasts. Fibroblasts in monolayer culture were incubated with [14C]formate, and labeled methionine sulfone and serine were determined in hydrolysates of oxidized cell proteins. In control cells, methionine and serine were clearly measurable (n = 21, 1.7-5.5 and 2.4-9.7 nmol/mg protein/16 h, respectively). In contrast, methionine formation was reduced in cells from patients with methylenetetrahydrofolate reductase (MR) deficiency (MR mutant, n = 11, 0.05-0.44), combined methylmalonic aciduria/homocystinuria [cobalamin(cbl)C/D mutant, n = 12, 0.014-0.13), and methionine synthase deficiency (MS mutant, n = 3, 0.04-0.23). Furthermore, serine formation was low in cblC/D mutant (0.08-0.98) and MS mutant (0.17-0.94) cells, but normal or high in MR mutant cells (5.2-11.4). Growth of cblC/D mutant cells in medium supplemented with high concentrations of hydroxo-cbl resulted in significant increases of both methionine and serine formation. Taken together these findings provide clear evidence for the existence of the formate to serine pathway described by W. B. Strong and V. Schirch in cultured fibroblasts and indicate that disturbed MS function due to a specific genetic disorder is associated with reduced serine formation in vitro, which reflects availability of reduced folate coenzymes. The correction of this defect by vitamin B12 alone, in cblC/D mutant cell lines, correlates well with the clinical response in the patients and fits in well with the idea that reduced availability of folate coenzymes occurs in functional MS deficiency, in agreement with the methyl trap hypothesis.

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The natural history of Niemann–Pick disease type C in the UK

Imrie

Dasgupta

Besley

et al. 2007

J of Inher Metab Disea

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C. Whitehouse

The natural history of Niemann–Pick disease type C in the UK

Niemann–Pick disease type C in adults

Mutation analysis in 46 British and Irish patients with Gaucher's disease

Methionine and Serine Formation in Control and Mutant Human Cultured Fibroblasts: Evidence for Methyl Trapping and Characterization of Remethylation Defects

The natural history of Niemann–Pick disease type C in the UK

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