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ABSTRACT: Alzheimer’s disease (AD) is characterized by a significant reduction in AcetylCholinesterase and an increase in ButyrylCholinesterase
(BuChE) activity. The existence of polymorphic regions on the BuChE gene has been previously described; the most frequently
found polymorphism is the so-called K variant, which leads to a 30% decreased enzymatic activity. Different studies reported
a positive association between K variant and AD, strongest among late-onset AD and Apolipoprotein E (APOE) e4 carriers. We
analyzed APOE and BuChE polymorphisms in 167 AD and 59 fronto-temporal dementia (FTD) patients compared with 129 healthy controls
(HC). We reported a significantly lower frequency of the BuChE K variant in AD compared with HC and FTD and a significant
increased frequency of the K variant in FTD. These results are in agreement with the known increase of the BuChE activity
in AD and support the evidence of different molecular pathways involved in the pathogenesis of AD and FTD.
KeywordsBuChE K variant polymorphism-Alzheimer’s disease-Fronto-temporal dementia-APOE-Risk factors-Cholinergic system-Therapy
Acta Neurovegetativa 04/2012; 117(3):377-383. · 2.73 Impact Factor
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[show abstract]
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ABSTRACT: Alzheimer's disease (AD) is characterized by a significant reduction in AcetylCholinesterase and an increase in ButyrylCholinesterase (BuChE) activity. The existence of polymorphic regions on the BuChE gene has been previously described; the most frequently found polymorphism is the so-called K variant, which leads to a 30% decreased enzymatic activity. Different studies reported a positive association between K variant and AD, strongest among late-onset AD and Apolipoprotein E (APOE) e4 carriers. We analyzed APOE and BuChE polymorphisms in 167 AD and 59 fronto-temporal dementia (FTD) patients compared with 129 healthy controls (HC). We reported a significantly lower frequency of the BuChE K variant in AD compared with HC and FTD and a significant increased frequency of the K variant in FTD. These results are in agreement with the known increase of the BuChE activity in AD and support the evidence of different molecular pathways involved in the pathogenesis of AD and FTD.
Acta Neurovegetativa 03/2010; 117(3):377-83. · 2.73 Impact Factor
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ABSTRACT: Alzheimer's Disease (AD) is a neurodegenerative disorder with a complex aetiology displayed by multiple pathogenic factors. The APOE varepsilon4 allele represents the only established genetic risk factor for sporadic AD; in addition, previous findings on three single nucleotide polymorphisms (SNPs) located on the APOE promoter region, have led to a growing interest in their potential role in AD pathogenesis. The -491 A/T promoter polymorphism has been the one most frequently shown to be associated with AD, as it influences the APOE coding region transcription. The aim of this study was to evaluate the possible effect of the -491 A/T polymorphism on the cognitive profile of sporadic AD patients with a disease severity ranging from mild to moderate. Our results showed that patients carrying the -491 AA genotype had poorer cognitive performances than the -491 AT ones, statistically significant in demanding tests of visual attention, especially for the late-onset AD (LOAD). No further differences on cognitive profile were observed when stratifying AA and AT patients according to their APOE genotype. These results suggest a possible functional effect of the -491 A/T promoter on the neuropsychological performances of AD. This role seems to be independent of APOE genotype. In fact the effect of -491 A/T occurs predominantly on attention while the APOE varepsilon4 allele mainly affects memory performances. According to the biological effect exerted on APOE transcription, the -491 A/T polymorphism could be considered a disease modifier more than a risk factor for sporadic AD.
Neuroscience Letters 02/2010; 472(3):199-203. · 2.11 Impact Factor
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ABSTRACT: Spinal muscular atrophy (SMA) is an inherited neuromuscular disorder caused by homozygous absence of the survival motor neuron gene (SMN1). All patients have at least one, usually two to four copies of the related SMN2 gene which, however, produce insufficient levels of functional SMN protein due to the exclusion of exon 7 in the majority of SMN2 transcripts. Here, we show that salbutamol, a beta2-adrenoceptor agonist, determines a rapid and significant increase in SMN2-full length mRNA and SMN protein in SMA fibroblasts, predominantly by promoting exon 7 inclusion in SMN2 transcripts. These data, together with previous clinical findings, provide a strong rationale to investigate further the clinical efficacy of salbutamol in SMA patients.
Journal of Medical Genetics 02/2008; 45(1):29-31. · 6.36 Impact Factor
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F D Tiziano,
E Bertini,
S Messina,
C Angelozzi,
M Pane,
A D'Amico,
P Alfieri,
S Fiori,
R Battini,
A Berardinelli, [......],
T Mongini,
L Morandi,
S Orcesi,
M Pelliccioni,
A Pini,
M Villanova,
G Vita,
M Locatelli,
E Mercuri, C Brahe
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ABSTRACT: Previous studies showed that SMN2 copy number correlates inversely with the disease severity. Our aim was to evaluate SMN2 copy numbers and the Hammersmith functional motor scale in 87 patients with SMA II in order to establish whether, within SMAII, the number of copies correlates with the severity of functional impairment. Our results showed a relative variability of functional scores, but a significant correlation between the number of SMN2 genes and the level of function.
Neuromuscular Disorders 06/2007; 17(5):400-3. · 2.80 Impact Factor
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E Mercuri,
E Bertini,
S Messina,
A Solari,
A D'Amico,
C Angelozzi,
R Battini,
A Berardinelli,
P Boffi,
C Bruno, [......],
L Morandi,
G Neri,
S Orcesi,
M Pane,
M Pelliccioni,
A Pini,
F D Tiziano,
M Villanova,
G Vita, C Brahe
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ABSTRACT: To assess the efficacy of phenylbutyrate (PB) in patients with spinal muscular atrophy in a randomized, double-blind, placebo-controlled trial involving 10 Italian centers.
One hundred seven children were assigned to receive PB (500 mg/kg/day) or matching placebo on an intermittent regimen (7 days on/7 days off) for 13 weeks. The Hammersmith functional motor scale (primary outcome measure), myometry, and forced vital capacity were assessed at baseline and at weeks 5 and 13.
Between January and September 2004, 107 patients aged 30 to 154 months were enrolled. PB was well tolerated, with only one child withdrawing because of adverse events. Mean improvement in functional score was 0.60 in the PB arm and 0.73 in placebo arm (p = 0.70). Changes in the secondary endpoints were also similar in the two study arms.
Phenylbutyrate was not effective at the regimen, schedule, and duration used in this study.
Neurology 02/2007; 68(1):51-5. · 8.31 Impact Factor
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ABSTRACT: The existence of an association between apolipoprotein E (APOE) and Alzheimer's disease (AD) has been reported in several studies. The possession of an ApoE epsilon4 allele is now considered a genetic risk factor for sporadic AD. There has been a growing agreement about the role exerted by the ApoE epsilon4 allele on the neuropsychological profile and the rate of cognitive decline in AD patients. However, a more controversial issue remains about a possible influence of the APOE genotype on acetylcholinesterase inhibitor therapy response in AD patients. In order to address this issue, 81 patients diagnosed as having probable AD were evaluated by a complete neuropsychological test battery at the time of diagnosis (baseline) and after 12-16 months (retest). Patients were divided into two subgroups: (1) treated with donepezil at a dose of 5 mg once a day (n = 41) and (2) untreated (n = 40). Donepezil therapy was started after baseline evaluation. The APOE genotype was determined according to standardized procedures. We evaluated the possible effect of the APOE genotype on the neuropsychological tasks in relation to donepezil therapy. The statistical analysis of the results showed a global worsening of cognitive performances for all AD patients at the retest. Differences in the clinical outcome were analysed in the four subgroups of AD patients for each neuropsychological task. ApoE epsilon4 carriers/treated patients had improved or unchanged scores at retest evaluation for the following tasks: visual and verbal memory, visual attention and inductive reasoning and Mini Mental State Examination. These results indicate an effect of donepezil on specific cognitive domains (attention and memory) in the ApoE epsilon4 carriers with AD. This might suggest an early identification of AD patients carrying at least one epsilon4 allele as responders to donepezil therapy.
Dementia and Geriatric Cognitive Disorders 02/2005; 20(4):254-61. · 2.14 Impact Factor
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ABSTRACT: Autosomal recessive spinal muscular atrophy (SMA) is a common motor neuron disease caused by absence or mutation in the survival motor neuron (SMN1) gene. SNM1 and a nearly identical copy, SMN2, encode identical proteins, but SMN2 only produces a little full length protein due to alternative splicing. The level of functional SMN protein and the number of SMN2 genes correlate with the clinical phenotype ranging from severe to very mild. Here, we report on premature termination mutations in SMN1 exon 3 (425del5 and W102X) which induce skipping of the mutated exon. The novel nonsense mutation W102X was detected in two patients with a relatively mild phenotype who had only two copies of the SMN2 gene, a number that has previously been found associated with the severe form of SMA. We show that the shortened transcripts are translated into predicted in frame protein isoforms. Aminoglycoside treatment suppressed the nonsense mutation in cultured cells and abolished exon skipping. Fibroblasts from both patients show a high number of nuclear structures containing SMN protein (gems). These findings suggest that the protein isoform lacking the exon 3 encoded region contributes to the formation of the nuclear protein complex which may account for the milder clinical phenotype.
European Journal of HumanGenetics 03/2001; 9(2):113-20. · 4.40 Impact Factor
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ABSTRACT: Knobloch syndrome (KS) is an autosomal recessive disorder defined by the occurrence of high myopia, vitreoretinal degeneration with retinal detachment, macular abnormalities and occipital encephalocele. The KS causative gene had been assigned to a 4.3 cM interval at 21q22.3 by linkage analysis of a large consanguineous Brazilian family. We reconstructed the haplotypes of this family with ten additional markers (five were novel) and narrowed the candidate interval to a region of <245 kb, which contains 24 expressed sequence tags, the KIAA0958 gene and the 5' end of the COL18A1 gene. We identified a homozygous mutation at the AG consensus acceptor splice site of COL18A1 intron 1 exclusively among the 12 KS patients, which was not found among 140 control chromosomes. This mutation predicts the creation of a stop codon in exon 4 and therefore the truncation of the alpha1(XVIII) collagen short form, which was expressed in human adult retina. These findings provide evidence that KS is caused by mutations in COL18A1 which, therefore, has a major role in determining the retinal structure as well as in the closure of the neural tube. Therefore, we show for the first time that the absence of a collagen isoform impairs embryonic cell proliferation and/or migration as a primary or secondary effect.
Human Molecular Genetics 08/2000; 9(13):2051-8. · 7.64 Impact Factor
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C Brahe
Neuromuscular Disorders 07/2000; 10(4-5):274-5. · 2.80 Impact Factor
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ABSTRACT: Excitatory amino acids which promote the survival of cerebellar granule cells in culture, also promote the expression of the survival of motor neuron (SMN) protein. Immunolocalization studies using SMN monoclonal antibody showed that SMN is decreased in cultures grown in low K+ or chemically defined medium with respect to cultures grown in high K+ medium and that an increase of SMN can be induced by treatment of low K+ cultures with glutamate or N-methyl-D-aspartate.
Amino Acids 02/2000; 18(3):299-304. · 3.25 Impact Factor
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ABSTRACT: Spinal muscular atrophy (SMA) is a common autosomal recessive neuromuscular disorder which presents with various clinical phenotypes ranging from severe to very mild. All forms are caused by the homozygous absence of the survival motor neuron ( SMN1 ) gene. SMN1 and a nearly identical copy ( SMN2 ) are located in a duplicated region at 5q13 and encode identical proteins. The genetic basis for the clinical variability of SMA remains unclear, but it has been suggested that the copy number of SMN2 could influence the disease severity. We have assessed the number of SMN2 genes in patients with different clinical phenotypes by fluorescence in situ hybridization (FISH) using as SMN probe a mixture of small specific DNA fragments. Gene copy number was established by FISH on interphase nuclei, but the presence of two SMN2 genes on the same chromosome could also be revealed by FISH on metaphase spreads. All patients had at least two SMN2 genes. We found two or three copies of SMN2 in severely affected type I patients, three copies in intermediately affected type II patients, generally four copies in mildly affected type III patients and four or eight copies in patients with very mild adult-onset SMA. No alterations of the genes were detected by Southern blot and sequence analysis, suggesting that all gene copies of SMN2 were intact. These data provide additional evidence that the SMN2 genes modulate the disease severity and suggest that knowledge of the gene copy number could be of some prognostic value.
Human Molecular Genetics 01/2000; 8(13):2525-32. · 7.64 Impact Factor
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ABSTRACT: Spinal muscular atrophy (SMA) is an autosomal recessive neuromuscular disorder caused by the homozygous absence of the telomeric copy of the survival motor neuron (SMNt) gene, due to deletion, gene conversion or point mutation. SMNt and its homologous centromeric copy (SMNc) encode the SMN protein, which is diffusely present in the cytoplasm and in dot-like structures, called gems, in the nucleus. We have studied the SMN protein in different cell cultures, including fibroblasts, amniocytes and CVS cells from SMA individuals and controls. By immunofluorescence analysis we found a marked reduction in the number of gems in fibroblasts, amniocytes and chorionic villus cells of all SMA patients and foetuses, independent of the type of the genetic defect. We also show that immunolocalisation of the SMN protein may be a useful tool for the characterisation of particular patients of uncertain molecular diagnosis.
European Journal of HumanGenetics 05/1999; 7(3):301-9. · 4.40 Impact Factor
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ABSTRACT: Spinal muscular atrophy (SMA) is caused by homozygous absence of the telomeric copy of the survival motor neuron (SMNt) gene. SMNt and its homologous centromeric copy (SMNc) encode the SMN protein, which is markedly reduced in SMA I patients. We have performed SMN transcript and protein studies on spinal cord sections of an SMA I patient using in situ hybridization and immunofluorescence. While the amount of protein was negligible, the level of transcripts was comparable with that of controls. These findings suggest that the reduced protein level is not caused by a deficient transcription of the SMNc gene.
Neurogenetics 05/1999; 2(2):97-100. · 3.35 Impact Factor
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ABSTRACT: Comparative mapping of human and mouse chromosomes can be used to predict locations of homologous loci between the species, provides the substrate to examine the process of chromosomal evolution, and facilitates the continuing development of mouse genetic models for human disorders. A YAC contig of the region of mouse Chromosome (Chr) 10 (MMU10) that demonstrates conserved linkage with the distal portion of human Chr 21 (HSA21) has been constructed. The contig contains all known genes mapped in both species, defines the proximal region of homology between MMU10 and HSA22, and contains the evolutionary junction between HSA21 and HSA22 on MMU10. It consists of 23 YACs and 2 PACs, and covers 3.2 Mb of MMU10. The average marker density for this region is 1 marker/69 kb. Nine of 22 expressed sequences are mapped here for the first time in mouse, and two are newly characterized expressed sequences. The contig also contains 12 simple sequence repeats (SSRs) and 16 YAC and PAC endclone markers. YAC fragmentation analysis was used to create a physical map for the proximal 2.2 Mb of the contig. Cloning of the corresponding region of HSA21 has proven difficult, and the mouse contig includes segments absent from previously described sequence ready maps of HSA21.
Mammalian Genome 04/1999; 10(3):229-34. · 2.89 Impact Factor
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ABSTRACT: We amplified 305bp of the 3'UT region of COL18A1 from 62 healthy chromosomes from Caucasian individuals. SSCP analysis of these PCR products allowed us to identify 3 alleles which were confirmed through sequencing analysis and ASO. The heterozigosity found for this polymorphic region is 74.2%, and mendelian inheritance was demonstrated in 5 two/three generation families. This polymorphism, located in a region relatively devoid of microsatellites, will be very useful for linkage analysis, particularly for narrowing down candidate regions for genes mapped in this area.
Human Mutation 02/1999; 13(2):170. · 5.69 Impact Factor
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V Lapenta,
V Sossi,
P Gosset,
C Vayssettes,
T Vitali,
N Rabatel,
F Tassone,
J L Blouin,
H S Scott,
S E Antonarakis,
N Créau, C Brahe
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ABSTRACT: The gene-rich telomeric region of 21q harbors several loci relevant to human diseases including autoimmune polyglandular disease type I, nonsyndromic deafness, Knobloch syndrome, holoprosencephaly, and bipolar affective disorder. A contig of genomic clones in this region would facilitate the isolation of these genes. However, distal 21q22.3 has yet been poorly mapped, presumably due to the presence of sequences that are underrepresented in yeast artificial chromosome (YAC) libraries. We generated a framework of YACs and used these clones as starting points for the isolation of a combination of bacterial artificial chromosome clones, P1-derived artificial chromosome clones, and cosmid clones by chromosome walking procedures. These studies resulted in the construction of a high-resolution contig map spanning the 2.5-Mb region from PFKL to the telomere, approximately 2 Mb of which are covered by ready-to-sequence contigs. Within this map we determined the location and relative distance of 21 markers. These include 9 established genetic markers, the order of which is cen-PFKL-D21S154-D21S170-D21S171-D21S1903- D21S1897- D21S112-D21S1446-D21S1575-tel. Moreover, we established the precise map position of 13 genes and 4 ESTs including the recently isolated genes C21ORF2, SMT3H1, RNA editing deaminase 1 (ADARB1), folate transporter (SLC19A1), COL18A1, lanosterol synthase (LSS-PEN), pericentrin (PCNT), and arginine methyltransferase (HRMT1L1). This integrated map provides a useful resource for the mapping and isolation of disease genes and for the construction of a complete transcription map of distal 21q as well as for large-scale sequencing efforts.
Genomics 05/1998; 49(1):1-13. · 3.02 Impact Factor
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ABSTRACT: We report on a case with a partial monosomy for the regions 9p23 --> pter and 13p11 --> pter as a result of a de novo translocation (9p23;13p11). The patient, a 16-year-old girl, has mental deficiency, obesity, and minor anomalies, including trigonocephaly, hypertelorism and a short, broad neck. Cytogenetic and microsatellite marker analysis allowed us to assign the breakpoint to the chromosomal region 9p23, flanked by the markers D9S144 and D9S157. In an attempt to establish a phenotype-genotype correlation, the clinical manifestations present in our patient are compared to those with partial 9p monosomy and breakpoint in p23, referred to in the literature.
American Journal of Medical Genetics 09/1997; 71(2):139-43.
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ABSTRACT: The alpha1(VI) and alpha2(VI) chains of type VI collagen (nonfibrillar) are highly similar and are encoded by single-copy genes in close proximity on human Chromosome (Chr) 21q22.3, a gene-rich region that has proved refractory to cloning. For the alpha1(VI) chain, only the regions encoding the triple-helical and the promoter have been characterized hitherto.To facilitate our study of the role of this gene in the phenotype of Down syndrome, we have cloned and sequenced the amino- and carboxyl-terminal globular domains of COL6A1. The amino-terminal domain consists of seven exons and the carboxyl-terminal globular domain of nine exons. Together with the exons of the triple-helical domain, COL6A1 is encoded by a total of 36 exons spanning approximately 30 kb. Comparison of the genomic organization of COL6A1 and COL6A2 revealed that despite the similarity within their triple-helical domains, the intron-exon structures of their globular domains differ markedly. Conservation is limited to the exons encoding amino acids immediately adjacent to the triple-helical region, including the cysteine residues essential for the structure of mature collagen VI. The intron-exon structures of these two genes are highly similar to the collagen VI genes of chicken. These data suggest that COL6A1 and COL6A2 arose from a gene duplication before the divergence of the reptilian and mammalian lineages.
Mammalian Genome 06/1997; 8(5):342-5. · 2.89 Impact Factor
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ABSTRACT: cDNA selection was used to isolate coding sequences from cosmids mapping to the gene-rich telomeric region of human chromosome 21q. A novel cDNA, termed SMT3A, was isolated and mapped between the loci PFKL and D21S171, about 2.2 Mb proximal to the telomere. The predicted protein of 103 amino acids appears to be a homologue of the Saccharomyces cerevisiae SMT3 protein, whose gene was previously isolated as a suppressor of mutations in the MIF2 gene. The yeast MIF2 gene encodes an essential centromeric protein and shows homology to mammalian CENP-C, an integral component of active kinetochores. SMT3A was found to be highly homologous to two other recently isolated human genes, suggesting the presence of a new gene family. Homologous sequences were also found in protozoa, metazoa, and plants. Moreover, all predicted proteins show significant homology to ubiquitin. The proposed role of yeast SMT3 as centromeric protein and the strong evolutionary conservation of the SMT3A gene suggest an involvement of the encoded protein in the function and/or structure of the eukaryotic kinetochore.
Genomics 04/1997; 40(2):362-6. · 3.02 Impact Factor
