Fabio Corsolini scite author profile

The characterization of the underlying GALC gene lesions was performed in 30 unrelated patients affected by Krabbe disease, an autosomal recessive leukodystrophy caused by the deficiency of lysosomal enzyme galactocerebrosidase. The GALC mutational spectrum comprised 33 distinct mutant (including 15 previously unreported) alleles. With the exception of 4 novel missense mutations that replaced evolutionarily highly conserved residues (p.P318R, p.G323R, p.I384T, p.Y490N), most of the newly described lesions altered mRNA processing. These included 7 frameshift mutations (c.61delG, c.408delA, c.521delA, c.1171_1175delCATTCinsA, c.1405_1407delCTCinsT, c.302_308dupAAATAGG, c.1819_1826dupGTTACAGG), 3 nonsense mutations (p.R69X, p.K88X, p.R127X) one of which (p.K88X) mediated the skipping of exon 2, and a splicing mutation (c.1489+1G>A) which induced the partial skipping of exon 13. In addition, 6 previously unreported GALC polymorphisms were identified. The functional significance of the novel GALC missense mutations and polymorphisms was investigated using the MutPred analysis tool. This study, reporting one of the largest genotype-phenotype analyses of the GALC gene so far performed in a European Krabbe disease cohort, revealed that the Italian GALC mutational profile differs significantly from other populations of European origin. This is due in part to a GALC missense substitution (p.G553R) that occurs at high frequency on a common founder haplotype background in patients originating from the Naples region. © 2010 Wiley-Liss, Inc.

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Molecular analysis and characterization of nine novel CTSK mutations in twelve patients affected by pycnodysostosis

Donnarumma¹,

Regis²,

Tappino³

et al. 2007

Hum. Mutat.

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Molecular characterization of twelve unrelated patients affected by the autosomal recessive osteosclerotic skeletal dysplasia, Pycnodysostosis (cathepsin k deficiency), revealed 11 different genotypes. The mutational profile consisted of 12 different mutations, including nine previously unreported ones, spread throughout the whole gene. One mutation occurred in regions coding predomain, two affected the prodomain and nine others occurred in the mature domain. The novel lesions consisted in six missense mutations c.20T>C (p.L7P), c.494A>G (p.Q165R), c.580G>A (p.G194S), c.746T>C (p.I249T), c.749A>G (p.D250G), c.955G>T (p.G319C), two frameshifts c.60_61dupGA (p.I21RfsX29), c.282dupA (p.S95VfsX9) and a splicing mutation c.890G>A (r.785_890del). The six new missense mutations were examined by western blots of COS-7 cells transfected with mutant CTSK genes. The L7P, occurring within the predicted hydrophobic domain of signal peptide, showed a significantly reduced expression level compared to the wild type control. These findings suggested that the mutation affected targeting and translocation of the nascent lysosomal protein across the endoplasmatic reticulum membrane. The novel amino acid changes were also modeled into the three-dimensional structure that predicted incorrect protein folding for all of them. Molecular characterization of the patients is of particular value for genetic counseling of patients and their families as diagnosis of Pycnodysostosis based on enzyme assay is unpractical and thus not offered routinely.

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Molecular Genetic Analysis of the PLP1 Gene in 38 Families with PLP1-related disorders: Identification and Functional Characterization of 11 Novel PLP1 Mutations

Grossi

Regis

Biancheri

et al. 2011

Orphanet J Rare Dis

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BackgroundThe breadth of the clinical spectrum underlying Pelizaeus-Merzbacher disease and spastic paraplegia type 2 is due to the extensive allelic heterogeneity in the X-linked PLP1 gene encoding myelin proteolipid protein (PLP). PLP1 mutations range from gene duplications of variable size found in 60-70% of patients to intragenic lesions present in 15-20% of patients.MethodsForty-eight male patients from 38 unrelated families with a PLP1-related disorder were studied. All DNA samples were screened for PLP1 gene duplications using real-time PCR. PLP1 gene sequencing analysis was performed on patients negative for the duplication. The mutational status of all 14 potential carrier mothers of the familial PLP1 gene mutation was determined as well as 15/24 potential carrier mothers of the PLP1 duplication.Results and ConclusionsPLP1 gene duplications were identified in 24 of the unrelated patients whereas a variety of intragenic PLP1 mutations were found in the remaining 14 patients. Of the 14 different intragenic lesions, 11 were novel; these included one nonsense and 7 missense mutations, a 657-bp deletion, a microdeletion and a microduplication. The functional significance of the novel PLP1 missense mutations, all occurring at evolutionarily conserved residues, was analysed by the MutPred tool whereas their potential effect on splicing was ascertained using the Skippy algorithm and a neural network. Although MutPred predicted that all 7 novel missense mutations would be likely to be deleterious, in silico analysis indicated that four of them (p.Leu146Val, p.Leu159Pro, p.Thr230Ile, p.Ala247Asp) might cause exon skipping by altering exonic splicing elements. These predictions were then investigated in vitro for both p.Leu146Val and p.Thr230Ile by means of RNA or minigene studies and were subsequently confirmed in the case of p.Leu146Val. Peripheral neuropathy was noted in four patients harbouring intragenic mutations that altered RNA processing, but was absent from all PLP1-duplication patients. Unprecedentedly, family studies revealed the de novo occurrence of the PLP1 duplication at a frequency of 20%.

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Fabio Corsolini

Identification and characterization of 15 novel GALC gene mutations causing Krabbe disease

Molecular analysis and characterization of nine novel CTSK mutations in twelve patients affected by pycnodysostosis

Molecular Genetic Analysis of the PLP1 Gene in 38 Families with PLP1-related disorders: Identification and Functional Characterization of 11 Novel PLP1 Mutations

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