Ivan A. Borbon scite author profile

We have identified a point mutation in Npc1 that creates a novel mouse model (Npc1(nmf164)) of Niemann-Pick type C1 (NPC) disease: a single nucleotide change (A to G at cDNA bp 3163) that results in an aspartate to glycine change at position 1005 (D1005G). This change is in the cysteine-rich luminal loop of the NPC1 protein and is highly similar to commonly occurring human mutations. Genetic and molecular biological analyses, including sequencing the Npc1(spm) allele and identifying a truncating mutation, confirm that the mutation in Npc1(nmf164) mice is distinct from those in other existing mouse models of NPC disease (Npc1(nih), Npc1(spm)). Analyses of lifespan, body and spleen weight, gait and other motor activities, as well as acoustic startle responses all reveal a more slowly developing phenotype in Npc1(nmf164) mutant mice than in mice with the null mutations (Npc1(nih), Npc1(spm)). Although Npc1 mRNA levels appear relatively normal, Npc1(nmf164) brain and liver display dramatic reductions in Npc1 protein, as well as abnormal cholesterol metabolism and altered glycolipid expression. Furthermore, histological analyses of liver, spleen, hippocampus, cortex and cerebellum reveal abnormal cholesterol accumulation, glial activation and Purkinje cell loss at a slower rate than in the Npc1(nih) mouse model. Magnetic resonance imaging studies also reveal significantly less demyelination/dysmyelination than in the null alleles. Thus, although prior mouse models may correspond to the severe infantile onset forms of NPC disease, Npc1(nmf164) mice offer many advantages as a model for the late-onset, more slowly progressing forms of NPC disease that comprise the large majority of human cases.

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Niemann-Pick C1 Mice, a Model of “Juvenile Alzheimer's Disease”, with Normal Gene Expression in Neurons and Fibrillary Astrocytes Show Long Term Survival and Delayed Neurodegeneration

Borbon

Totenhagen

Fiorenza

et al. 2012

JAD

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Niemann-Pick C1 (NPC) disease, also known as "juvenile Alzheimer's disease", is a disease in which alterations in intracellular cholesterol trafficking occur. The contribution of various CNS cell types to the neurodegeneration has been of much interest. We have previously shown that expression of the normal gene only in fibrillary astrocytes could extend survival of Npc1-/- mice over 3-fold (Zhang et al., 2008 [13]). We have now studied expression only in neurons or in both neurons and fibrillary astrocytes. Neuron-only expression resulted in survivals of over a year (>5-fold) but motor symptoms started at about 6 months. As reflected in weight gain, this especially affected females who weighed less than wild-type starting at about 10 weeks while male differences in weight are delayed. Expression in both cell types led to a nearly normal phenotype with motor symptoms developing at about ten months and increased survival times. Purkinje cell loss was slowed, but severe, in both NSE- and NSE-GFAP-Npc1, transgenic Npc1-/- mice. MRI studies showed that myelination of the long tracts was significantly improved in NSE-Npc1 transgenics, perhaps less than in GFAP-Npc1 transgenics, and not differently than in the double transgenics. Memory was improved in both single and double transgenics. Somatic disease had not been ameliorated and lungs were massively infiltrated with foamy macrophages at 10 months. Our results suggest that neuron-only expression does not completely prevent neurodegeneration and that the addition of astrocyte expression decreases the rate/degree of decline.

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Lack of efficacy of curcumin on neurodegeneration in the mouse model of Niemann–Pick C1

Borbon

Hillman

Durán

et al. 2012

Pharmacology Biochemistry and Behavior

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In order to determine the efficacy of curcumin in ameliorating symptoms of neurodegeneration in the mouse model of Niemann–Pick C1, a variety of formulations and dosages of curcumin, one comparable to one previously reported as efficacious, were provided orally to Npc1−/−mice. Plasma levels of curcumin, survival, tests of motor performance, and memory (in some cases) were performed. We found variable, but mild, increases in survival (1.5% to 18%). The greatest increased survival occurred with the highest dose (which was unformulated) while the control for the lipidated formulation (containing phosphatidylcholine and stearic acid) had an equivalent impact and other formulations, while not significantly increased, are also not statistically different in effect from the highest dose. We conclude that curcumin is not a highly efficacious treatment for neurodegeneration in Npc1−/− mice. Phosphatidylcholine and stearic acid should be studied further.

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Pulmonary function and pathology in hydroxypropyl-beta-cyclodextin-treated and untreated Npc1−/− mice

Muralidhar

Borbon

Esharif

et al. 2011

Molecular Genetics and Metabolism

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Lung dysfunction is an important part of the pathology of the neurodegenerative disorder, Niemann-Pick C1 (NPC1). We have studied the pulmonary disease in the Npc1NIH/NIH mouse model. On histology, we find large numbers of alveolar foamy macrophages but no alveolar proteinosis. Lung weight as percent of body weight was markedly increased; using the flexiVent small animal ventilator (SCIREQ, Inc.), we find inspiratory capacity, elastance and hysterisivity to be increased while resistance was not changed. Cholesterol measurements show a doubling of lung cholesterol levels. Collagen is also increased. Treatment of Npc1−/− mice with hydroxypropyl-β-cyclodextrin (HPBCD), despite efficacious effects in brain and liver, results in little difference from age-matched controls (using a CNS-expressed transgene to extend the life expectancy of the Npc1−/− mice) for these variables.

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In vivo assessment of neurodegeneration in niemann‐pick type C mice by quantitative T2 mapping and diffusion tensor imaging

Totenhagen

Lope–Piedrafita

Borbon

et al. 2011

Magnetic Resonance Imaging

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Purpose To quantitatively and non-invasively assess neurological disease progression in a mouse model of Niemann-Pick type C (NPC) disease by measuring white matter status with MRI techniques of T2 mapping and Diffusion Tensor Imaging (DTI). Materials and Methods Quantitative T2 and DTI experiments were performed in-vivo in NPC disease model and control mice at three time points to quantify differences and changes in white matter with measurements of T2 relaxation and DTI parameters. Histological staining for myelin content was also performed at two time points to compare with the MRI findings. Results The results of the T2 and DTI measurements show significant differences in white matter areas of the brain in the NPC disease model compared to control mice at several time points, and were seen to change over time in both groups. Conclusions The findings of this study suggest that quantitative MRI measurements may be suitable in-vivo biomarkers of disease status for future studies of NPC disease models. The changes in white matter measurements between time points in both control and NPC disease groups suggest that white matter structures continue to change and develop over time in the NPC model and can be tracked with MRI techniques.

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Ivan A. Borbon

A novel mouse model of Niemann–Pick type C disease carrying a D1005G-Npc1 mutation comparable to commonly observed human mutations

Niemann-Pick C1 Mice, a Model of “Juvenile Alzheimer's Disease”, with Normal Gene Expression in Neurons and Fibrillary Astrocytes Show Long Term Survival and Delayed Neurodegeneration

Lack of efficacy of curcumin on neurodegeneration in the mouse model of Niemann–Pick C1

Pulmonary function and pathology in hydroxypropyl-beta-cyclodextin-treated and untreated Npc1−/− mice

In vivo assessment of neurodegeneration in niemann‐pick type C mice by quantitative T2 mapping and diffusion tensor imaging

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