Your search keyword '"Niceta M"' showing total 8 results

1. Biallelic mutations in DYNC2LI1 are a rare cause of Ellis‐van Creveld syndrome.

Author

Niceta, M., Margiotti, K., Digilio, M. C., Guida, V., Bruselles, A., Pizzi, S., Ferraris, A., Memo, L., Laforgia, N., Dentici, M. L., Consoli, F., Torrente, I., Ruiz‐perez, V. L., Dallapiccola, B., Marino, B., De Luca, A., and Tartaglia, M.

Subjects

*ELLIS-van Creveld syndrome, *DYNEIN genetics, *ALLELES, *HETEROZYGOSITY, *ECTODERMAL dysplasia, *MATHEMATICAL models, *GENETICS

Abstract

Ellis‐van Creveld syndrome (EvC) is a chondral and ectodermal dysplasia caused by biallelic mutations in the EVC, EVC2 and WDR35 genes. A proportion of cases with clinical diagnosis of EvC, however, do not carry mutations in these genes. To identify the genetic cause of EvC in a cohort of mutation‐negative patients, exome sequencing was undertaken in a family with 3 affected members, and mutation scanning of a panel of clinically and functionally relevant genes was performed in 24 additional subjects with features fitting/overlapping EvC. Compound heterozygosity for the c.2T>C (p.Met1?) and c.662C>T (p.Thr221Ile) variants in DYNC2LI1, which encodes a component of the intraflagellar transport‐related dynein‐2 complex previously found mutated in other short‐rib thoracic dysplasias, was identified in the 3 affected members of the first family. Targeted resequencing detected compound heterozygosity for the same missense variant and a truncating change (p.Val141*) in 2 siblings with EvC from a second family, while a newborn with a more severe phenotype carried 2 DYNC2LI1 truncating variants. Our findings indicate that DYNC2LI1 mutations are associated with a wider clinical spectrum than previously appreciated, including EvC, with the severity of the phenotype likely depending on the extent of defective DYNC2LI1 function. [ABSTRACT FROM AUTHOR]

Published

2018

2. Mutations in the IRBIT domain of ITPR1 are a frequent cause of autosomal dominant nonprogressive congenital ataxia.

Author

Barresi, S., Niceta, M., Alfieri, P., Brankovic, V., Piccini, G., Bruselles, A., Barone, M.R., Cusmai, R., Tartaglia, M., Bertini, E., and Zanni, G.

Subjects

*ATAXIA, *CONGENITAL disorders, *MUSCLE hypotonia in children, *DEVELOPMENTAL delay, *INOSITOL trisphosphate receptors, *GENETICS

Abstract

Congenital ataxias are nonprogressive neurological disorders characterized by neonatal hypotonia, developmental delay and ataxia, variably associated with intellectual disability and other neurological or extraneurological features. We performed trio-based whole-exome sequencing of 12 families with congenital cerebellar and/or vermis atrophy in parallel with targeted next-generation sequencing of known ataxia genes ( CACNA1A, ITPR1, KCNC3, ATP2B3 and GRM1) in 12 additional patients with a similar phenotype. Novel pathological mutations of ITPR1 (inositol 1,4,5-trisphosphate receptor, type 1) were found in seven patients from four families (4/24, ∼16.8%) all localized in the IRBIT (inositol triphosphate receptor binding protein) domain which plays an essential role in the regulation of neuronal plasticity and development. Our study expands the mutational spectrum of ITPR1-related congenital ataxia and indicates that ITPR1 gene screening should be implemented in this subgroup of ataxias. [ABSTRACT FROM AUTHOR]

Published

2017

3. 891 PIVOT ROLE OF PAI 1 4G4G IN NON-CIRRHOTIC PORTAL VEIN THROMBOSIS AND BUDD-CHIARI SYNDROME

Author

D'Amico, M., Niceta, M., Sammarco, P., Virdone, R., and Sinagra, E.

Published

2011

4. Persistent episomal transgene expression in liver following delivery of a scaffold/matrix attachment region containing non-viral vector.

Author

Argyros, O, Wong, S P, Niceta, M, Waddington, S N, Howe, S J, Coutelle, C, Miller, A D, and Harbottle, R P

Subjects

*TRANSGENE expression, *MATRIX attachment regions, *LIVER, *GENETIC vectors, *GENE therapy, *GENETICS

Abstract

An ideal gene therapy vector should enable persistent transgene expression without limitations of safety and reproducibility. Here we report the development of a non-viral episomal plasmid DNA (pDNA) vector that appears to fulfil these criteria. This pDNA vector combines a scaffold/matrix attachment region (S/MAR) with a human liver-specific promoter (α1-antitrypsin (AAT)) in such a way that long-term expression is enabled in murine liver following hydrodynamic injection. Long-term expression is demonstrated by monitoring the longitudinal luciferase expression profile for up to 6 months by means of in situ bioluminescent imaging. All relevant control pDNA constructs expressing luciferase are unable to sustain significant transgene expression beyond 1 week post-administration. We establish that this shutdown of expression is due to promoter methylation. In contrast, the S/MAR element appears to inhibit methylation of the AAT promoter thereby preventing transgene silencing. Although this vector appears to be maintained as an episome throughout, we have no evidence for its establishment as a replicating entity. We conclude that the combination of a mammalian, tissue-specific promoter with the S/MAR element is sufficient to drive long-term episomal pDNA expression of genes in vivo.Gene Therapy (2008) 15, 1593–1605; doi:10.1038/gt.2008.113; published online 17 July 2008 [ABSTRACT FROM AUTHOR]

Published

2008

5. DJ-1 modulates mitochondrial response to oxidative stress: clues from a novel diagnosis of PARK7.

Author

Di Nottia, M., Masciullo, M., Verrigni, D., Petrillo, S., Modoni, A., Rizzo, V., Di Giuda, D., Rizza, T., Niceta, M., Torraco, A., Bianchi, M., Santoro, M., Bentivoglio, A.R., Bertini, E., Piemonte, F., Carrozzo, R., and Silvestri, G.

Subjects

*MITOCHONDRIA, *OXIDATIVE stress, *PARKINSONIAN disorders, *MUSCULAR atrophy, *CLINICAL pathology, *THERAPEUTICS

Abstract

DJ-1 mutations are associated to early-onset Parkinson's disease and accounts for about 1-2% of the genetic forms. The protein is involved in many biological processes and its role in mitochondrial regulation is gaining great interest, even if its function in mitochondria is still unclear. We describe a 47-year-old woman affected by a multisystem disorder characterized by progressive, early-onset parkinsonism plus distal spinal amyotrophy, cataracts and sensory-neural deafness associated with a novel homozygous c. 461C>A [p. T154K] mutation in DJ-1. Patient's cultured fibroblasts showed low ATP synthesis, high ROS levels and reduced amount of some subunits of mitochondrial complex I; biomarkers of oxidative stress also resulted abnormal in patient's blood. The clinical pattern of multisystem involvement and the biochemical findings in our patient highlight the role for DJ-1 in modulating mitochondrial response against oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2017

6. Microcephaly, intractable seizures and developmental delay caused by biallelic variants in TBCD: further delineation of a new chaperone-mediated tubulinopathy.

Author

Pode‐Shakked, B., Barash, H., Ziv, L., Gripp, K.W., Flex, E., Barel, O., Carvalho, K.S., Scavina, M., Chillemi, G., Niceta, M., Eyal, E., Kol, N., Ben‐Zeev, B., Bar‐Yosef, O., Marek‐Yagel, D., Bertini, E., Duker, A.L., Anikster, Y., Tartaglia, M., and Raas‐Rothschild, A.

Subjects

*MICROCEPHALY, *SPASMS, *MOLECULAR chaperones, *TUBULINS, *PROTEINS

Abstract

Microtubule dynamics play a crucial role in neuronal development and function, and several neurodevelopmental disorders have been linked to mutations in genes encoding tubulins and functionally related proteins. Most recently, variants in the tubulin cofactor D ( TBCD) gene, which encodes one of the five co-chaperones required for assembly and disassembly of α/β-tubulin heterodimer, were reported to underlie a recessive neurodevelopmental/neurodegenerative disorder. We report on five patients from three unrelated families, who presented with microcephaly, intellectual disability, intractable seizures, optic nerve pallor/atrophy, and cortical atrophy with delayed myelination and thinned corpus callosum on brain imaging. Exome sequencing allowed the identification of biallelic variants in TBCD segregating with the disease in the three families. TBCD protein level was significantly reduced in cultured fibroblasts from one patient, supporting defective TBCD function as the event underlying the disorder. Such reduced expression was associated with accelerated microtubule re-polymerization. Morpholino-mediated TBCD knockdown in zebrafish recapitulated several key pathological features of the human disease, and TBCD overexpression in the same model confirmed previous studies documenting an obligate dependency on proper TBCD levels during development. Our findings confirm the link between inactivating TBCD variants and this newly described chaperone-associated tubulinopathy, and provide insights into the phenotype of this disorder. [ABSTRACT FROM AUTHOR]

Published

2017

7. A novel mutation in NDUFB11 unveils a new clinical phenotype associated with lactic acidosis and sideroblastic anemia.

Author

Torraco, A., Bianchi, M., Verrigni, D., Gelmetti, V., Riley, L., Niceta, M., Martinelli, D., Montanari, A., Guo, Y., Rizza, T., Diodato, D., Di Nottia, M., Lucarelli, B., Sorrentino, F., Piemonte, F., Francisci, S., Tartaglia, M., Valente, E.M., Dionisi‐Vici, C., and Christodoulou, J.

Subjects

*GENETIC mutation, *PHENOTYPES, *ANEMIA, *LACTIC acidosis, *MITOCHONDRIA

Abstract

NDUFB11, a component of mitochondrial complex I, is a relatively small integral membrane protein, belonging to the 'supernumerary' group of subunits, but proved to be absolutely essential for the assembly of an active complex I. Mutations in the X-linked nuclear-encoded NDUFB11 gene have recently been discovered in association with two distinct phenotypes, i.e. microphthalmia with linear skin defects and histiocytoid cardiomyopathy. We report on a male with complex I deficiency, caused by a de novo mutation in NDUFB11 and displaying early-onset sideroblastic anemia as the unique feature. This is the third report that describes a mutation in NDUFB11, but all are associated with a different phenotype. Our results further expand the molecular spectrum and associated clinical phenotype of NDUFB11 defects. [ABSTRACT FROM AUTHOR]

Published

2017

8. G.P.123 - Distal spinal muscular atrophy and ataxia with cerebellar atrophy in two unrelated patients; a new phenotypic variant of HRD and recessive KCS syndrome related to TBCE.

Author

Bertini, E., Sferra, A., Rizza, T., Tasca, G., D'Amico, A., Zanni, G., Barresi, S., Diodato, D., Piermarini, E., Martinelli, D., Dionisi-Vici, C., Niceta, M., Dallapiccola, B., Tartaglia, M., and Compagnucci, C.

Subjects

*SPINAL muscular atrophy, *ATAXIA, *HYPOPARATHYROIDISM, *MUSCLE dysmorphia, *MOTOR neuron diseases, *PATIENTS

Published

2015