3 resultados para Phenylethanolamine N-methyltransferase
em AMS Tesi di Dottorato - Alm@DL - Università di Bologna
Resumo:
Autism is a neurodevelpmental disorder characterized by impaired verbal communication, limited reciprocal social interaction, restricted interests and repetitive behaviours. Twin and family studies indicate a large genetic contribution to ASDs (Autism Spectrum Disorders). During my Ph.D. I have been involved in several projects in which I used different genetic approaches in order to identify susceptibility genes in autism on chromosomes 2, 7 and X: 1)High-density SNP association and CNV analysis of two Autism Susceptibility Loci. The International Molecular Genetic Study of Autism Consortium (IMGSAC) previously identified linkage loci on chromosomes 7 and 2, termed AUTS1 and AUTS5, respectively. In this study, we evaluated the patterns of linkage disequilibrium (LD) and the distribution of haplotype blocks, utilising data from the HapMap project, across the two strongest peaks of linkage on chromosome 2 and 7. More than 3000 SNPs have been selected in each locus in all known genes, as well as SNPs in non-genic highly conserved sequences. All markers have been genotyped to perform a high-density association analysis and to explore copy number variation within these regions. The study sample consisted of 127 and 126 multiplex families, showing linkage to the AUTS1 and AUTS5 regions, respectively, and 188 gender-matched controls. Association and CNV analysis implicated several new genes, including IMMP2L and DOCK4 on chromosome 7 and ZNF533 and NOSTRIN on the chromosome 2. Particularly, my contribution to this project focused on the characterization of the best candidate gene in each locus: On the AUTS5 locus I carried out a transcript study of ZNF533 in different human tissues to verify which isoforms and start exons were expressed. High transcript variability and a new exon, never described before, has been identified in this analysis. Furthermore, I selected 31 probands for the risk haplotype and performed a mutation screen of all known exons in order to identify novel coding variants associated to autism. On the AUTS1 locus a duplication was detected in one multiplex family that was transmitted from father to an affected son. This duplication interrupts two genes: IMMP2L and DOCK4 and warranted further analysis. Thus, I performed a screening of the cohort of IMGSAC collection (285 multiplex families), using a QMPSF assay (Quantitative Multiplex PCR of Short fluorescent Fragments) to analyse if CNVs in this genic region segregate with autism phenotype and compare their frequency with a sample of 475 UK controls. Evidence for a role of DOCK4 in autism susceptibility was supported by independent replication of association at rs2217262 and the finding of a deletion segregating in a sib-pair family. 2)Analysis of X chromosome inactivation. Skewed X chromosome inactivation (XCI) is observed in females carrying gene mutations involved in several X-linked syndromes. We aimed to estimate the role of X-linked genes in ASD susceptibility by ascertaining the XCI pattern in a sample of 543 informative mothers of children with ASD and in a sample of 164 affected girls. The study sample included families from different european consortia. I analysed the XCI inactivation pattern in a sample of italian mothers from singletons families with ASD and also a control groups (144 adult females and 40 young females). We observed no significant excess of skewed XCI in families with ASD. Interestingly, two mothers and one girl carrying known mutations in X-linked genes (NLGN3, ATRX, MECP2) showed highly skewed XCI, suggesting that ascertainment of XCI could reveal families with X-linked mutations. Linkage analysis was carried out in the subgroup of multiplex families with skewed XCI (≥80:20) and a modest increased allele sharing was obtained in the Xq27-Xq28 region, with a peak Z score of 1.75 close to rs719489. In this region FMR1 and MECP2 have been associated in some cases with austim and therefore represent candidates for the disorder. I performed a mutation screen of MECP2 in 33 unrelated probands from IMGSAC and italian families, showing XCI skewness. Recently, Xq28 duplications including MECP2, have been identified in families with MR, with asymptomatic carrier females showing extreme (>85%) skewing of XCI. For these reason I used the sample of probands from X-skewed families to perform CNV analysis by Real-time quantitative PCR. No duplications have been found in our sample. I have also confirmed all data using as alternative method the MLPA assay (Multiplex Ligation dependent Probe Amplification). 3)ASMT as functional candidate gene for autism. Recently, a possible involvement of the acetylserotonin O-methyltransferase (ASMT) gene in susceptibility to ASDs has been reported: mutation screening of the ASMT gene in 250 individuals from the PARIS collection revealed several rare variants with a likely functional role; Moreover, significant association was reported for two SNPs (rs4446909 and rs5989681) located in one of the two alternative promoters of the gene. To further investigate these findings, I carried out a replication study using a sample of 263 affected individuals from the IMGSAC collection and 390 control individuals. Several rare mutations were identified, including the splice site mutation IVS5+2T>C and the L326F substitution previously reported by Melke et al (2007), but the same rare variants have been found also in control individuals in our study. Interestingly, a new R319X stop mutation was found in a single autism proband of Italian origin and is absent from the entire control sample. Furthermore, no replication has been found in our case-control study typing the SNPs on the ASMT promoter B.
Resumo:
Il vigore è un aspetto rilevante della qualità delle sementi, strettamente connesso al loro status fisiologico, al genotipo e alle condizioni di stoccaggio. Stress ossidativi e danni alle macromolecole sono alla base del deterioramento del seme, che è equipaggiato con sistemi protettivi e di riparazione. Uno di questi coinvolge l’L-isoaspartil metiltransferasi (PIMT) che ripara i misfolding proteici catalizzando la riconversione in aspartato dell’isoaspartile anomalo accumulato. Scopo di questo studio era valutare il possibile ruolo del meccanismo di riparazione di PIMT nel vigore del seme in girasole. Per questo il relativo gene è stato isolato e caratterizzato, la variabilità allelica determinata su un campione di linee inbred e l’espressione genica misurata in risposta all’invecchiamento accelerato (aging) e al priming. La sequenza codificante ottenuta è costituita da 4 esoni e contiene i 5 domini caratteristici delle metiltransferasi. Il gene mostra elevata similarità con gli ortologhi vegetali e scarsa diversità nucleotidica nei genotipi coltivati rappresentativi della variabilità della specie. Nella sequenza aminoacidica, comunque, sono state rinvenute tre sostituzioni che potrebbero influenzare la funzionalità enzimatica. Dal punto di vista fisiologico i genotipi considerati hanno esibito notevole variabilità di risposte ai trattamenti, sia in termini di vigore che di espressione genica. Aging e priming hanno prodotto generalmente gli effetti attesi, rispettivamente negativi e positivi, sulla germinabilità e sulla sua velocità. In generale l’espressione di PIMT è risultata massima nel seme secco, come riportato altrove, e ridotta dall’aging. Anche il priming ha diminuito l’espressione rispetto al seme quiescente, mentre il suo effetto dopo l’aging è risultato genotipo-dipendente. Tuttavia, nelle condizioni descritte, non si sono evidenziate correlazioni significative tra vigore ed espressione di PIMT, tali da suggerire un chiaro ruolo di questo meccanismo nella qualità fisiologica del seme.
Resumo:
Childhood neuroblastoma is the most common solid tumour of infancy and highly refractory to therapy. One of the most powerful prognostic indicators for this disease is the N-Myc gene amplification, which occurs in approximately 25% of all neuroblastomas. N-Myc is a member of transcription factors belonging to a subclass of the larger group of proteins sharing Basic-Region/Helix–Loop–Helix/Leucin-Zipper (BR/HLH/LZ) motif. N-Myc oncoproteins may determine activation or repression of several genes thanks to different protein-protein interactions that may modulate its transcriptional regulatory ability and therefore its potential for oncogenicity. Chromatin modifications, including histone methylation, have a crucial role in transcription de-regulation of many cancer-related genes. Here, it was investigated whether N-Myc can functionally and/or physically interact with two different factors involved in methyl histone modification: WDR5 (core member of the MLL/Set1 methyltransferase complex) and the de- methylase LSD1. Co-IP assays have demonstrated the presence of both N-Myc-WDR5 and N-Myc-LSD1 complexes in two neuroblastoma cell lines. Human N-Myc amplified cell lines were used as a model system to investigate on transcription activation and/or repression mechanisms carried out by N-Myc-LSD1 and N-Myc-WDR5 protein complexes. qRT-PCR and immunoblot assays underlined the ability of both complexes to positively (N-Myc-WDR5) and negatively (N-Myc-LSD1) influence transcriptional regulation of crititical neuroblastoma N-Myc-related genes, MDM2, p21 and Clusterin. Ch-IP experiments have revealed the binding of the N-Myc complexes above mentioned to the gene promoters analysed. Finally, pharmacological treatment pointed to abolish N-Myc and LSD1 activity were performed to test cellular alterations, such as cell viability and cell cycle progression. Overall, the results presented in this work suggest that N-Myc can interact with two distinct histone methyl modifiers to positively and negatively affect gene transcription in neuroblastoma.