4 resultados para Heterozygosity.

em AMS Tesi di Dottorato - Alm@DL - Università di Bologna


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Buschke Ollendorff syndrome (BOS) is a rare autosomal dominant genodermatosis, with high penetrance and variable expressivity, characterized by the association of connective tissue naevi and osteopoikilosis. Both cutaneous and osseous manifestations are usually asymptomatic. The disease is caused by a loss-of-function mutation in the gene LEMD3, that is located on chromosome 12q13. Differential diagnosis mainly includes pseudoxantoma elasticum, morphea, lipoid proteinosis, papular elastorrhexis, juvenile elastoma, papular mucinosis. The 2 cases of BOS here reported are an example of segmental type 2 autosomal dominant genodermatosis, that is due to the loss of heterozygosity occurring at an early developmental stage in a heterozygous patient, causing a segmental homozygosity. Such patients usually have pronounced segmental lesions in the first years of life and later develop disseminated symmetrical lesions.

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Oral cavity cancers (OSCC) are among the most malignances worldwide. OSCC tipically affects men in their IV or V dedade of life, and the most relevant risk factors are tobacco and alcohol consumption. OSCCs generally exhibit poor prognosis, and late stage identification correlates with higher mortality rates. Basic prognostic factors, are tumor size and presence of lymph node and/or distance metastases (T classification, N, M). However, tumors with the same TNM grade and similar morphology may have completely different evolution, because of their intrinsic biological characteristics. For these reasons, the identification of new molecular markers with a predictive value, could represent useful tools in OSCC prevention, prognosis and treatment. In the first part of my PhD project I evaluated the loss of heterozygosity as a possible cause of deregulation of well-known tumor suppressors genes. Obtained data put on light the importance of this rearrangement and genes PDCD4, CTNB1, CASP4 and HSP23, in the onset and progression of OSCC. Subsequently, the analysis of the expression profile of miRNAs, led to the identification of some miRNAs that seems to be involved in cancer development and metastatic progression. In both cases, we need further investigations to understand whether these molecules may be used ideal markers in OSCC diagnosis and treatment.

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Specific language impairment (SLI) is a complex neurodevelopmental disorder defined as an unexpected failure to develop normal language abilities for no obvious reason. Copy number variants (CNVs) are an important source of variation in the susceptibility to neuropsychiatric disorders. Therefore, a CNV study within SLI families was performed to investigate the role of structural variants in SLI. Among the identified CNVs, we focused on CNVs on chromosome 15q11-q13, recurrently observed in neuropsychiatric conditions, and a homozygous exonic microdeletion in ZNF277. Since this microdeletion falls within the AUTS1 locus, a region linked to autism spectrum disorders (ASD), we investigated a potential role of ZNF277 in SLI and ASD. Frequency data and expression analysis of the ZNF277 microdeletion suggested that this variant may contribute to the risk of language impairments in a complex manner, that is independent of the autism risk previously described in this region. Moreover, we identified an affected individual with a dihydropyrimidine dehydrogenase (DPD) deficiency, caused by compound heterozygosity of two deleterious variants in the gene DPYD. Since DPYD represents a good candidate gene for both SLI and ASD, we investigated its involvement in the susceptibility to these two disorders, focusing on the splicing variant rs3918290, the most common mutation in the DPD deficiency. We observed a higher frequency of rs3918290 in SLI cases (1.2%), compared to controls (~0.6%), while no difference was observed in a large ASD cohort. DPYD mutation screening in 4 SLI and 7 ASD families carrying the splicing variant identified six known missense changes and a novel variant in the promoter region. These data suggest that the combined effect of the mutations identified in affected individuals may lead to an altered DPD activity and that rare variants in DPYD might contribute to a minority of cases, in conjunction with other genetic or non-genetic factors.

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Background. Hhereditary cystic kidney diseases are a heterogeneous spectrum of disorders leading to renal failure. Clinical features and family history can help to distinguish the recessive from dominant diseases but the differential diagnosis is difficult due the phenotypic overlap. The molecular diagnosis is often the only way to characterize the different forms. A conventional molecular screening is suitable for small genes but is expensive and time-consuming for large size genes. Next Generation Sequencing (NGS) technologies enables massively parallel sequencing of nucleic acid fragments. Purpose. The first purpose was to validate a diagnostic algorithm useful to drive the genetic screening. The second aim was to validate a NGS protocol of PKHD1 gene. Methods. DNAs from 50 patients were submitted to conventional screening of NPHP1, NPHP5, UMOD, REN and HNF1B genes. 5 patients with known mutations in PKHD1 were submitted to NGS to validate the new method and a not genotyped proband with his parents were analyzed for a diagnostic application. Results. The conventional molecular screening detected 8 mutations: 1) the novel p.E48K of REN in a patient with cystic nephropathy, hyperuricemia, hyperkalemia and anemia; 2) p.R489X of NPHP5 in a patient with Senior Loken Syndrome; 3) pR295C of HNF1B in a patient with renal failure and diabetes.; 4) the NPHP1 deletion in 3 patients with medullar cysts; 5) the HNF1B deletion in a patient with medullar cysts and renal hypoplasia and in a diabetic patient with liver disease. The NGS of PKHD1 detected all known mutations and two additional variants during the validation. The diagnostic NGS analysis identified the patient’s compound heterozygosity with a maternal frameshift mutation and a paternal missense mutation besides a not transmitted paternal missense mutation. Conclusions. The results confirm the validity of our diagnostic algorithm and suggest the possibility to introduce this NGS protocol to clinical practice.