We assessed mutant protein folding using computer-based molecular dynamics (MD) simulations and molecular docking of the three most common <i>NPC1</i> mutations, all of which result in changes in a cysteine-rich luminal loop region of the protein: a) I1061T is the most commonly detected variant in patients with NP-C worldwide; b) P1007A is the second most common variant, frequently detected in Portuguese, British and German patients; c) G992W occurs most often in patients of Acadian descent.
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.
Our findings provide the first description of an endoplasmic reticulum trafficking defect as a mechanism for human NPC disease, shedding light on the mechanism by which the NPC1(I1061T) mutation causes disease and suggesting novel approaches to treat NPC disease caused by the NPC1(I1061T) mutation.
We report on a patient with adult-onset Niemann-Pick type C (NPC) disease, carrying the mutations P1007 and I1061T in the NPC1 gene, presenting with marked psychiatric changes followed by dystonia and cognitive impairment.
Niemann-Pick C1 disease: the I1061T substitution is a frequent mutant allele in patients of Western European descent and correlates with a classic juvenile phenotype.