Search

Your search keyword '"Quadri M."' showing total 382 results
Start Over Author "Quadri M."
382 results on '"Quadri M."'

51. A simple RNA target capture NGS strategy for fusion genes assessment in the diagnostics of pediatric B-cell acute lymphoblastic leukemia

Author

Grioni, A, Fazio, G, Rigamonti, S, Bystry, V, Daniele, G, Dostalova, Z, Quadri, M, Saitta, C, Silvestri, D, Songia, S, Storlazzi, C, Biondi, A, Darzentas, N, Cazzaniga, G, Grioni, Andrea, Fazio, Grazia, Rigamonti, Silvia, Bystry, Vojtech, Daniele, Giulia, Dostalova, Zuzana, Quadri, Manuel, Saitta, Claudia, Silvestri, Daniela, Songia, Simona, Storlazzi, Clelia T., Biondi, Andrea, Darzentas, Nikos, Cazzaniga, Giovanni, Grioni, A, Fazio, G, Rigamonti, S, Bystry, V, Daniele, G, Dostalova, Z, Quadri, M, Saitta, C, Silvestri, D, Songia, S, Storlazzi, C, Biondi, A, Darzentas, N, Cazzaniga, G, Grioni, Andrea, Fazio, Grazia, Rigamonti, Silvia, Bystry, Vojtech, Daniele, Giulia, Dostalova, Zuzana, Quadri, Manuel, Saitta, Claudia, Silvestri, Daniela, Songia, Simona, Storlazzi, Clelia T., Biondi, Andrea, Darzentas, Nikos, and Cazzaniga, Giovanni

Abstract

Acute lymphoblastic leukemia (ALL) is the most frequent pediatric cancer. Fusion genes are hallmarks of ALL, and they are used as biomarkers for risk stratification as well as targets for precision medicine. Hence, clinical diagnostics pursues broad and comprehensive strategies for accurate discovery of fusion genes. Currently, the gold standard methodologies for fusion gene detection are fluorescence in situ hybridization and polymerase chain reaction; these, however, lack sensitivity for the identification of new fusion genes and breakpoints. In this study, we implemented a simple operating procedure (OP) for detecting fusion genes. The OP employs RNA CaptureSeq, a versatile and effortless next-generation sequencing assay, and an in-house as well as a purpose-built bioinformatics pipeline for the subsequent data analysis. The OP was evaluated on a cohort of 89 B-cell precursor ALL (BCP-ALL) pediatric samples annotated as negative for fusion genes by the standard techniques. The OP confirmed 51 samples as negative for fusion genes, and, more importantly, it identified known (KMT2A rearrangements) as well as new fusion events (JAK2 rearrangements) in the remaining 38 investigated samples, of which 16 fusion genes had prognostic significance. Herein, we describe the OP and its deployment into routine ALL diagnostics, which will allow substantial improvements in both patient risk stratification and precision medicine.

Published
2019

59. A novel homozygous disruptive PRF1 variant (K285Sfs*4) causes very early-onset of familial hemophagocytic lymphohystiocytosis type 2.

Author

Saettini, F., Castelli, I., Provenzi, M., Fazio, G., Quadri, M., Cazzaniga, G., Sala, S., Dell'Acqua, F., Sieni, E., Coniglio, M. L., Pezzoli, L., Iascone, M., Vendemini, F., Balduzzi, A. C., Biondi, A., Rizzari, C., and Bonanomi, S.

Abstract

3 The novel I PRF1 i variant (K285Sfs*4) causes very early-onset of Familial Hemophagocytic Lymphohystiocytosis type 2. 4 I PRF1 i disruptive mutations are associated with early-onset of hemophagocytic lymphohistiocytosis. Five FHL (FHL 1-5) subtypes have been identified.[1] Depending on ethnic origin,[2] variants in the I PRF1 i gene (FHL2) account for almost half of the FHL cases. Patients with at least one disruptive variant developed the disease at a significantly younger age than patients bearing non-disruptive variants.[6] Last, despite being considered a polymorphism (allele frequency 4-17%), A91V is not neutral. [Extracted from the article]

Published
2021
Full Text
View/download PDF

60. ACO2 homozygous missense mutation associated with complicated hereditary spastic paraplegia

Author

Bouwkamp, C.G. (Christian), Afawi, Z. (Zaid), Fattal-Valevski, A. (Aviva), Krabbendam, I.E. (Inge E.), Rivetti, S. (Stefano), Masalha, R. (Rafik), Quadri, M. (Marialuisa), Breedveld, G.J. (Guido), Mandel, H., Tailakh, M.A. (Muhammad Abu), Beverloo, H.B. (Berna), Stevanin, G. (Giovanni), Brice, A., IJcken, W.F.J. (Wilfred) van, Vernooij, M.W. (Meike), Dolga, A.M. (Amalia), Vrij, F.M.S. (Femke), Bonifati, V. (Vincenzo), Kushner, S.A. (Steven), Bouwkamp, C.G. (Christian), Afawi, Z. (Zaid), Fattal-Valevski, A. (Aviva), Krabbendam, I.E. (Inge E.), Rivetti, S. (Stefano), Masalha, R. (Rafik), Quadri, M. (Marialuisa), Breedveld, G.J. (Guido), Mandel, H., Tailakh, M.A. (Muhammad Abu), Beverloo, H.B. (Berna), Stevanin, G. (Giovanni), Brice, A., IJcken, W.F.J. (Wilfred) van, Vernooij, M.W. (Meike), Dolga, A.M. (Amalia), Vrij, F.M.S. (Femke), Bonifati, V. (Vincenzo), and Kushner, S.A. (Steven)

Abstract

Objective: To identify the clinical characteristics and genetic etiology of a family affected with hereditary

Published
2018
Full Text
View/download PDF

61. Candidate CSPG4 mutations and induced pluripotent stem cell modeling implicate oligodendrocyte progenitor cell dysfunction in familial schizophrenia

Author

Vrij, F.M.S. (Femke), Bouwkamp, C.G. (Christian), Gunhanlar, N. (Nilhan), Shpak, G. (Guy), Lendemeijer, B. (Bas), Baghdadi, M. (Maarouf), Gopalakrishna, S. (Shreekara), Ghazvini, M. (Mehrnaz), Li, T. (Tracy), Quadri, M. (Marialuisa), Olgiati, S. (Simone), Breedveld, G.J. (Guido), Coesmans, M.P.H. (Michiel), Mientjes, E.J. (Edwin), de Wit, T. (Ton), Verheijen, F.W. (Frans), Beverloo, H.B. (Berna), Cohen, D. (Dan), Kok, R.M. (Rob M.), Bakker, P.R. (Roberto), Nijburg, A. (Aviva), Spijker, A.T. (Anne), Haffmans, P.M.J. (P.M. Judith), Hoencamp, E. (Erik), Bergink, V. (Veerle), Vorstman, J.A.S., Wu, T. (Timothy), Olde Loohuis, L.M. (Loes M.), Amin, N. (Najaf), Langen, C.D. (Carolyn), Hofman, A. (Albert), Hoogendijk, W.J.G. (Witte), van Duijn, C.M. (Cornelia M.), Ikram, M.A. (M. A.), Vernooij, M.W. (Meike), Tiemeier, H.W. (Henning), Uitterlinden, A.G. (André G.), Elgersma, Y. (Ype), Distel, B. (Ben), Gribnau, J.H. (Joost), White, T.J.H. (Tonya), Bonifati, V. (Vincenzo), Kushner, S.A. (Steven A.), Vrij, F.M.S. (Femke), Bouwkamp, C.G. (Christian), Gunhanlar, N. (Nilhan), Shpak, G. (Guy), Lendemeijer, B. (Bas), Baghdadi, M. (Maarouf), Gopalakrishna, S. (Shreekara), Ghazvini, M. (Mehrnaz), Li, T. (Tracy), Quadri, M. (Marialuisa), Olgiati, S. (Simone), Breedveld, G.J. (Guido), Coesmans, M.P.H. (Michiel), Mientjes, E.J. (Edwin), de Wit, T. (Ton), Verheijen, F.W. (Frans), Beverloo, H.B. (Berna), Cohen, D. (Dan), Kok, R.M. (Rob M.), Bakker, P.R. (Roberto), Nijburg, A. (Aviva), Spijker, A.T. (Anne), Haffmans, P.M.J. (P.M. Judith), Hoencamp, E. (Erik), Bergink, V. (Veerle), Vorstman, J.A.S., Wu, T. (Timothy), Olde Loohuis, L.M. (Loes M.), Amin, N. (Najaf), Langen, C.D. (Carolyn), Hofman, A. (Albert), Hoogendijk, W.J.G. (Witte), van Duijn, C.M. (Cornelia M.), Ikram, M.A. (M. A.), Vernooij, M.W. (Meike), Tiemeier, H.W. (Henning), Uitterlinden, A.G. (André G.), Elgersma, Y. (Ype), Distel, B. (Ben), Gribnau, J.H. (Joost), White, T.J.H. (Tonya), Bonifati, V. (Vincenzo), and Kushner, S.A. (Steven A.)

Abstract

Schizophrenia is highly heritable, yet its underlying pathophysiology remains largely unknown. Among the most well-replicated findings in neurobiological studies of schizophrenia are deficits in myelination and white matter integrity; however, direct etiological genetic and cellular evidence has thus far been lacking. Here, we implement a family-based approach for genetic discovery in schizophrenia combined with functional analysis using induced pluripotent stem cells (iPSCs). We observed familial segregation of two rare missense mutations in Chondroitin Sulfate Proteoglycan 4 (CSPG4) (c.391G > A [p.A131T], MAF 7.79 × 10−5 and c.2702T > G [p.V901G], MAF 2.51 × 10−3). The CSPG4A131T mutation was absent from the Swedish Schizophrenia Exome Sequencing Study (2536 cases, 2543 controls), while the CSPG4V901G mutation was nominally enriched in cases (11 cases vs. 3 controls, P = 0.026, OR 3.77, 95% CI 1.05–13.52). CSPG4/NG2 is a hallmark protein of oligodendrocyte progenitor cells (OPCs). iPSC-derived OPCs from CSPG4A131T mutation carriers exhibited abnormal post-translational processing (P = 0.029), subcellular localization of mutant NG2 (P = 0.007), as well as aberrant cellular morphology (P = 3.0 × 10−8), viability (P = 8.9 × 10−7), and myelination potential (P = 0.038). Moreover, transfection of healthy non-carrier sibling OPCs confirmed a pathogenic effect on cell survival of both the CSPG4A131T (P = 0.006) and CSPG4V901G (P = 3.4 × 10−4) mutations. Finally, in vivo diffusion tensor imaging of CSPG4A131T mutation carriers demonstrated a reduction of brain white matter integrity compared to unaffected sibling and matched general population controls (P = 2.2 × 10−5). Together, our findings provide a convergence of genetic and functional evidence to implicate OPC dysfunction as a candidate pathophysiological mechanism of familial schizophrenia.

Published
2018
Full Text
View/download PDF

62. TMEM230: How does it fit in the etiology and pathogenesis of Parkinson's disease?

Author

Mandemakers, W. Quadri, M. Stamelou, M. Bonifati, V.

Abstract

Mutations in the transmembrane protein 230 (TMEM230) gene were recently identified in a large Canadian pedigree and 7 smaller Chinese families, nominating TMEM230 as the third gene causing a Mendelian form of late onset Parkinson's disease (PD) with typical Lewy-body pathology (after synuclein alpha (SNCA) and leucine rich repeat kinase 2 (LRRK2)). The protein encoded by TMEM230 remains largely uncharacterized, but initial evidence points to roles in the trafficking of recycling vesicles, retromers, and endosomes, suggesting intriguing links to the pathways targeted by other PD-causing genes. The focus on family-based studies is gaining new momentum in the next-generation sequencing era, for the discovery of further, high-penetrance (medically relevant) genetic variants in PD. However, at this junction, important aspects of the TMEM230 story remain unclear, such as the prevalence of these mutations in the Chinese and other populations of the world, the penetrance of the mutations, and even their mode of inheritance. The first replication studies among Chinese and White PD patients have been largely negative. Furthermore, much more work remains ahead to elucidate the mechanisms by which these mutations might lead to neuronal cell death, alpha-synuclein pathology, and parkinsonism. © 2017 International Parkinson and Movement Disorder Society. © 2017 International Parkinson and Movement Disorder Society

Published
2017

72. Psychometric Properties and Validation of the Arabic Academic Performance Rating Scale

Author

Quadri, M. F. A. Q., El-Kordy, M. S., Moukhyer, M. E., Mukhayer, A., Ahmad, B., Quadri, M. F. A. Q., El-Kordy, M. S., Moukhyer, M. E., Mukhayer, A., and Ahmad, B.

Abstract

To validate the Arabic version of Academic Performance Rating Scale. Method. Translation and test-retest reliability were computed. Exploratory factor analysis and Rasch analysis were conducted to report on the validity. EFA factor structures were evaluated using a Scree plot and the standard multiple criteria included eigenvalue greater than 1. Average measures and step measures were ordered and themean-square outfit statistic for each category was also evaluated. Results. Cronbach’s Alpha value of 0.90 was obtained. No differences across category of educational levels were seen (

Published
2017

78. GENERALIZED DERIVATIONS AND COMMUTATIVITY OF PRIME RINGS

Author

M. A. QUADRI,M. SHADAB KHAN,N. REHMAN

Subjects
Mathematics::Commutative Algebra, Mathematics::Number Theory, Mathematics::General Topology, lcsh:Q, lcsh:Science
Abstract

GENERALIZED DERIVATIONS AND COMMUTATIVITY OF PRIME RINGS

Published
2015

79. A LRSAM1 mutation links Charcot-Marie-Tooth type 2 to Parkinson's disease

Author

Aerts, M.B., Weterman, M.A., Quadri, M., Schelhaas, H.J., Bloem, B.R., Esselink, R.A., Baas, F., Bonifati, V., Warrenburg, B.P.C. van de, Aerts, M.B., Weterman, M.A., Quadri, M., Schelhaas, H.J., Bloem, B.R., Esselink, R.A., Baas, F., Bonifati, V., and Warrenburg, B.P.C. van de

Abstract

Contains fulltext : 168294.pdf (publisher's version ) (Open Access), LRSAM1 mutations have been found in recessive and dominant forms of Charcot-Marie-Tooth disease. Within one generation of the original Dutch family in which the dominant LRSAM1 mutation was identified, three of the five affected family members have developed Parkinson's disease between ages 50 and 65 years, many years after neuropathy onset. We speculate that this late-onset parkinsonism is part of the LRSAM1 phenotype, thus associating a hitherto peripheral nerve disease with a central nervous system phenotype. How the mutated Lrsam1 protein, which normally has E3 ubiquitin ligase activity and is expressed in the nervous system, impacts on substantia nigra neurons is unclear.

Published
2016

80. A LRSAM1 mutation links Charcot-Marie-Tooth type 2 to Parkinson's disease

Author

Aerts, M.B. (Marjolein B.), Weterman, M.A.J., Quadri, M. (Marialuisa), Schelhaas, H.J. (Helenius), Bloem, B.R. (Bastiaan), Esselink, R.A. (Rianne A.), Baas, F. (Frank), Bonifati, V. (Vincenzo), Warrenburg, B. (Bart) van de, Aerts, M.B. (Marjolein B.), Weterman, M.A.J., Quadri, M. (Marialuisa), Schelhaas, H.J. (Helenius), Bloem, B.R. (Bastiaan), Esselink, R.A. (Rianne A.), Baas, F. (Frank), Bonifati, V. (Vincenzo), and Warrenburg, B. (Bart) van de

Abstract

LRSAM1 mutations have been found in recessive and dominant forms of Charcot-Marie-Tooth disease. Within one generation of the original Dutch family in which the dominant LRSAM1 mutation was identified, three of the five affected family members have developed Parkinson's disease between ages 50 and 65 years, many years after neuropathy onset. We speculate that this late-onset parkinsonism is part of the LRSAM1 phenotype, thus associating a hitherto peripheral nerve disease with a central nervous system phenotype. How the mutated Lrsam1 protein, which normally has E3 ubiquitin ligase activity and is expressed in the nervous system, impacts on substantia nigra neurons is unclear.

Published
2016
Full Text
View/download PDF

81. DNAJC6 Mutations Associated with Early-Onset Parkinson's Disease

Author

Olgiati, S. (Simone), Quadri, M. (Marialuisa), Fang, M. (Mingyan), Rood, J.P.M.A. (Janneke P.M.A.), Saute, J.A. (Jonas A.), Chien, H.F. (Hsin Fen), Bouwkamp, C.G. (Christian), Graafland, J. (Josja), Minneboo, M. (Michelle), Breedveld, G.J. (Guido J.), Zhang, J. (Jianguo), Verheijen, F.W. (Frans W.), Boon, A.J.W. (Agnita), Kievit, A.J.A. (Anneke J.A.), Jardim, L.B. (L.), Mandemakers, W.J. (Wim), Barbosa, E.R. (Egberto Reis), Rieder, C.R.M. (Carlos), Leenders, K.L. (Klaus L.), Wang, J. (Jinxia), Bonifati, V. (Vincenzo), Olgiati, S. (Simone), Quadri, M. (Marialuisa), Fang, M. (Mingyan), Rood, J.P.M.A. (Janneke P.M.A.), Saute, J.A. (Jonas A.), Chien, H.F. (Hsin Fen), Bouwkamp, C.G. (Christian), Graafland, J. (Josja), Minneboo, M. (Michelle), Breedveld, G.J. (Guido J.), Zhang, J. (Jianguo), Verheijen, F.W. (Frans W.), Boon, A.J.W. (Agnita), Kievit, A.J.A. (Anneke J.A.), Jardim, L.B. (L.), Mandemakers, W.J. (Wim), Barbosa, E.R. (Egberto Reis), Rieder, C.R.M. (Carlos), Leenders, K.L. (Klaus L.), Wang, J. (Jinxia), and Bonifati, V. (Vincenzo)

Abstract

_Objective_ DNAJC6 mutations were recently described in two families with autosomal recessive juvenile parkinsonism (onset age < 11), prominent atypical signs, poor or absent response to levodopa, and rapid progression (wheelchair-bound within ∼10 years from onset). Here, for the first time, we report DNAJC6 mutations in early-onset Parkinson's disease (PD). _Methods_ The DNAJC6 open reading frame was analyzed in 274 patients with early-onset sporadic or familial PD. Selected variants were followed up by cosegregation, homozygosity mapping, linkage analysis, whole-exome sequencing, and protein studies. _Results_ We identified two families with different novel homozygous DNAJC6 mutations segregating with PD. In each family, the DNAJC6 mutation was flanked by long runs of homozygosity within highest linkage peaks. Exome sequencing did not detect additional pathogenic variants within the linkage regions. In both families, patients showed severely decreased steady-state levels of the auxilin protein in fibroblasts. We also identified a sporadic patient carrying two rare noncoding DNAJC6 variants possibly effecting RNA splicing. All these cases fulfilled the criteria for a clinical diagnosis of early-onset PD, had symptoms onset in the third-to-fifth decade, and slow disease progression. Response to dopaminergic therapies was prominent, but, in some patients, limited by psychiatric side effects. The phenotype overlaps that of other monogenic forms of early-onset PD. _Interpretation_ Our findings delineate a novel form of hereditary early-onset PD. Screening of DNAJC6 is warranted in all patients with early-onset PD compatible with autosomal recessive inheritance. Our data provide further evidence for the involvement of synaptic vesicles endocytosis and trafficking in PD pathogenesis.

Published
2016
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results