Alam MS, Getz M, Haldar K. Chronic administration of an HDAC
inhibitor treats
both neurological and systemic Niemann-Pick type C disease
in a mouse model. Sci
Transl Med. 2016 Feb 17;8(326):326ra23.
Abstract
Histone deacetylase inhibitors (HDACi) are approved for
treating rare cancers and are of interest as potential therapies for
neurodegenerative disorders. We evaluated a triple combination formulation
(TCF) comprising the pan-HDACi vorinostat, the caging agent
2-hydroxypropyl-β-cyclodextrin (HPBCD), and polyethylene glycol (PEG) for
treating a mouse model (the Npc1(nmf164) mouse) of Niemann-Pick type C (NPC)
disease, a difficult-to-treat cerebellar disorder. Vorinostat alone showed
activity in cultured primary cells derived from Npc1(nmf164) mice but did not
improve animal survival. However, low-dose, once-weekly intraperitoneal
injections of the TCF containing vorinostat increased histone acetylation in
the mouse brain, preserved neurites and Purkinje cells, delayed symptoms of
neurodegeneration, and extended mouse life span from 4 to almost 9 months. We
demonstrate that the TCF boosted the ability of HDACi to cross the blood-brain
barrier and was not toxic even when used long term. Further, the TCF enabled dose
reduction, which has been a major challenge in HDACi therapy. TCF
simultaneously treats neurodegenerative and systemic symptoms of Niemann-Pick
type C disease in a mouse model.
Pipalia NH, Cosner CC, Huang A, Chatterjee A, Bourbon P,
Farley N, Helquist P,
Wiest O, Maxfield FR. Histone deacetylase inhibitor
treatment dramatically
reduces cholesterol accumulation in Niemann-Pick type C1
mutant human
fibroblasts. Proc Natl Acad Sci U S A. 2011 Apr
5;108(14):5620-5.
Abstract
Niemann-Pick type C (NPC) disease is predominantly caused by
mutations in the NPC1 protein that affect intracellular cholesterol trafficking
and cause accumulation of unesterified cholesterol and other lipids in
lysosomal storage organelles. We report the use of a series of small molecule
histone deacetylase (HDAC) inhibitors in tissue culture models of NPC human
fibroblasts. Some HDAC inhibitors lead to a dramatic correction in the NPC
phenotype in cells with either one or two copies of the NPC1(I1061T) mutation,
and for several of the inhibitors, correction is associated with increased
expression of NPC1 protein. Increased NPC1(I1061T) protein levels may partially
account for the correction of the phenotype, because this mutant can promote
cholesterol efflux if it is delivered to late endosomes and lysosomes. The HDAC
inhibitor treatment is ineffective in an NPC2 mutant human fibroblast line.
Analysis of the isoform selectivity of the compounds used implicates HDAC1
and/or HDAC2 as likely targets for the observed correction, although other
HDACs may also play a role. LBH589 (panobinostat) is an orally available HDAC
inhibitor that crosses the blood-brain barrier and is currently in phase III
clinical trials for several types of cancer. It restores cholesterol
homeostasis in cultured NPC1 mutant fibroblasts to almost normal levels within
72 h when used at 40 nM. The findings that HDAC inhibitors can correct
cholesterol storage defects in human NPC1 mutant cells provide the potential
basis for treatment options for NPC disease.
See: http://childnervoussystem.blogspot.com/2015/11/modified-amino-acid-acetyl-dl-leucine.html
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