Your search keyword '"DE PRISCO, N."' showing total 15 results

1. L'epidemiologia del gozzo endemico in tre comuni della USL 4 - Avellino

Author

Pagliara, S., D'Avanzo, A., Masi, V., Perfetto, E., De Prisco, N., Macchia, P. E., Illario, M., Vitale, M., Bassi, V., Salvatore, D., Diodato, A. M., DI CARLO, Angelina, Mariano, A., Macchia, V., and Fenzi, G. F.

Published

1993

2. Intermodal vs. conventional logistic of refrigerated products: a case study from Southern to Northern Europe.

Author

Menesatti, P., Pallottino, F., De Prisco, N., and Laderchi, D. Ruggeri

Subjects

*PERISHABLE goods, *TRANSPORTATION, *FRUIT industry, *AGRICULTURAL economics, *GREENHOUSE gas mitigation

Abstract

Most of perishable goods, such as fruit and vegetables, are transported in Europe by truck and clogging up the main road networks. The increasing demand for freight transport and the environmental concerns all indicate the necessity to embrace new means of transport such as the intermodal one using swap bodies and reefer containers that allow for the use of interchangeable truck, train, and ship to reduce direct and external costs. This research aims to analyze some essential readjustments that must be made in order to increase efficiency in the logistics of refrigerated fruit and vegetables. To do so, some hypotheses were analyzed and formulated in which the strategic use of the truck was recognized and inserted as part of an intermodal transport system. The transport options of a combined use of ships and trains in association with trucks were evaluated with respect to the current prevalent conventional solution of exclusive use of trucks. The results of the comparison between the intermodal and conventional transport were shown to be economically more convenient with respect to both legal and illegal transport by exclusive truck transport, presenting lower per unit costs (swap body or semi-trailer, containing the same amount of goods). Moreover, the intermodal solution scores equal or higher transit times in the comparison with the "transit by regulation compliance" and much higher transit times if compared with the "illegal" option. Therefore, the regulation compliance aspect would partially promote the use of intermodal options in a future fair competition. In addition, besides reducing the direct costs, it produces several other positive effects in terms of external costs to the society such as to reduce road crashes, noises, atmospheric emissions and greenhouse effect. [ABSTRACT FROM AUTHOR]

Published

2014

3. A New Class of Poly(ester hydrazide) Copolymers with Liquid Crystalline Properties. Synthesis and Characterization

Author

Noemi Proietti, Paola Laurienzo, Donatella Capitani, Nicola De Prisco, Antonio Roviello, Mario Malinconico, Capitani, D., DE PRISCO, N., Laurienzo, P., Malinconico, M., Proietti, N., and Roviello, Antonio

Subjects

polyhydrazide, fiber, chemistry.chemical_classification, Thermogravimetric analysis, Condensation polymer, Materials science, Polymers and Plastics, Inherent viscosity, Mesophase, Polymer, Thermotropic crystal, Polyester, chemistry, Polymer chemistry, copolymers, Materials Chemistry, polyester, Thermal stability, liquid crystallinity

Abstract

A series of copolyesters (PE) of low molecular weight containing propyloxy-substituted aromatic ring and/or ethylenic sequences between aromatic units were prepared by melt polycondensation between corresponding diacids and diacetates, and used as precursor of poly(ester-co-polyhydrazide) (PEH) new copolymers. The PEs showed to have thermotropic properties, with transition temperatures which depend on the chemical composition and with a good interval of stability of the mesophase. The corresponding PEHs were obtained by high-temperature polycondensation of carboxyl-terminated PEs with terephthalic dihydrazide. The PEHs showed as well a stable mesophase in the melt, and improved thermal stability respect to polyesters. All the polymers were characterized by elemental analysis, inherent viscosity, infrared and 13 C solid state NMR spectroscopy, thermal and thermogravimetric analysis and optical microscopy. Fibers of PEHs were obtained by melt-spinning and characterized by WAXS analysis.

Published

2001

4. Dosage sensitivity to Pumilio1 variants in the mouse brain reflects distinct molecular mechanisms.

Author

Botta S, de Prisco N, Chemiakine A, Brandt V, Cabaj M, Patel P, Doron-Mandel E, Treadway CJ, Jovanovic M, Brown NG, Soni RK, and Gennarino VA

Subjects

Animals, Mice, Mutation, Seizures, RNA-Binding Proteins genetics, RNA-Binding Proteins metabolism, Brain metabolism

Abstract

Different mutations in the RNA-binding protein Pumilio1 (PUM1) cause divergent phenotypes whose severity tracks with dosage: a mutation that reduces PUM1 levels by 25% causes late-onset ataxia, whereas haploinsufficiency causes developmental delay and seizures. Yet PUM1 targets are derepressed to equal degrees in both cases, and the more severe mutation does not hinder PUM1's RNA-binding ability. We therefore considered the possibility that the severe mutation might disrupt PUM1 interactions, and identified PUM1 interactors in the murine brain. We find that mild PUM1 loss derepresses PUM1-specific targets, but the severe mutation disrupts interactions with several RNA-binding proteins and the regulation of their targets. In patient-derived cell lines, restoring PUM1 levels restores these interactors and their targets to normal levels. Our results demonstrate that dosage sensitivity does not always signify a linear relationship with protein abundance but can involve distinct mechanisms. We propose that to understand the functions of RNA-binding proteins in a physiological context will require studying their interactions as well as their targets., (© 2023 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2023

5. Alternative polyadenylation alters protein dosage by switching between intronic and 3'UTR sites.

Author

de Prisco N, Ford C, Elrod ND, Lee W, Tang LC, Huang KL, Lin A, Ji P, Jonnakuti VS, Boyle L, Cabaj M, Botta S, Õunap K, Reinson K, Wojcik MH, Rosenfeld JA, Bi W, Tveten K, Prescott T, Gerstner T, Schroeder A, Fong CT, George-Abraham JK, Buchanan CA, Hanson-Khan A, Bernstein JA, Nella AA, Chung WK, Brandt V, Jovanovic M, Targoff KL, Yalamanchili HK, Wagner EJ, and Gennarino VA

Subjects

Animals, Humans, Infant, Newborn, 3' Untranslated Regions, Exons, Introns genetics, Embryo, Nonmammalian, Polyadenylation, Zebrafish genetics

Abstract

Alternative polyadenylation (APA) creates distinct transcripts from the same gene by cleaving the pre-mRNA at poly(A) sites that can lie within the 3' untranslated region (3'UTR), introns, or exons. Most studies focus on APA within the 3'UTR; however, here, we show that CPSF6 insufficiency alters protein levels and causes a developmental syndrome by deregulating APA throughout the transcript. In neonatal humans and zebrafish larvae, CPSF6 insufficiency shifts poly(A) site usage between the 3'UTR and internal sites in a pathway-specific manner. Genes associated with neuronal function undergo mostly intronic APA, reducing their expression, while genes associated with heart and skeletal function mostly undergo 3'UTR APA and are up-regulated. This suggests that, under healthy conditions, cells toggle between internal and 3'UTR APA to modulate protein expression.

Published

2023

6. How to expand the method details in your Cell Press paper with step-by-step STAR Protocols.

Author

Lee W, de Prisco N, Gennarino VA, and Buttery S

Subjects

Animals, Humans, Mice, Research Design, Research Personnel

Abstract

Publishing a primary research article is typically the result of a collaborative effort between a variety of researchers across differing career stages. STAR Protocols can complement a research article and empower authors to share the expertise they contributed to the larger study. In this Backstory, we interview members of the Gennarino lab, who published a Cell paper and four protocols, covering bioinformatics, culturing of patient-derived cell lines, neuroimaging from mouse brain sections and primary neurons, and mouse seizure recordings. For more information on the protocols related to this backstory, please refer to (Gennarino et al., 2018)., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

7. Protocol to assess the effect of disease-driving variants on mouse brain morphology and primary hippocampal neurons.

Author

de Prisco N, Chemiakine A, Lee W, Botta S, and Gennarino VA

Subjects

Animals, Brain, Mice, Hippocampus, Neurons

Abstract

Genetic variants that affect neurological function will often produce changes visible at the level of gross morphology, either of the whole brain or of specific neuronal types. Here we describe how to perfuse and dissect the brain in preparation for Nissl staining. Then we outline steps for culturing mouse primary hippocampal neurons to evaluate dendritic arborization (Sholl analysis). For complete details on the use and execution of this protocol, please refer to Gennarino et al. (2018)., Competing Interests: The authors declare no competing interests.

Published

2022

8. Determining the effects of loss of function mutations in human cell lines.

Author

de Prisco N, Botta S, Lee W, Rezazadeh S, Chemiakine A, and Gennarino VA

Subjects

HEK293 Cells, Humans, Mutation, RNA, Messenger genetics, RNA-Binding Proteins, Loss of Function Mutation, Proteins

Abstract

Quantifying differences in the amount of protein and mRNA caused by missense mutations in a gene of interest can be challenging, especially when using patient-derived primary cells, which are intrinsically variable. In this protocol, we describe how to culture patient-derived lymphoblast and fibroblast cell lines for later mRNA and protein quantification. We also describe the steps to examine variants of PUM1 in HEK293T cells, but the protocol can be applied to other proteins of interest. For complete details on the use and execution of this protocol, please refer to Gennarino et al. (2018)., Competing Interests: The authors declare no competing interests., (© 2022 The Author(s).)

Published

2022

9. Protocol for recording epileptiform discharges of EEG and behavioral seizures in freely moving mice.

Author

Wang Q, de Prisco N, Tang J, and Gennarino VA

Subjects

Animals, Mice, Electroencephalography methods, Seizures diagnosis

Abstract

Recurrent seizures are a common feature in many neurologic disorders. Seizure examination may help with diagnosis, preclinical study, and development of treatment strategies. Here we detail protocols to prepare and implant electrodes, as well as to record and analyze seizure events in freely moving mice. SCA47 mice exhibit both preclinical seizures (i.e., epileptiform discharges of EEG) starting from ∼14 weeks of age and behavioral seizures (i.e., spontaneous behavioral seizures) starting from ∼22 weeks of age. For complete details on the use and execution of this protocol, please refer to Gennarino et al. (2018)., Competing Interests: The authors declare no competing interests., (© 2022 The Authors.)

Published

2022

10. Identifying patients and assessing variant pathogenicity for an autosomal dominant disease-driving gene.

Author

Lee W, de Prisco N, and Gennarino VA

Subjects

Humans, Mutation, Missense genetics, Genes, Dominant, Genetic Diseases, Inborn

Abstract

Identifying a disease gene and determining its causality in patients can be challenging. Here, we present an approach to predicting the pathogenicity of deletions and missense variants for an autosomal dominant gene. We provide online resources for identifying patients and determining constraint metrics to isolate the causal gene among several candidates encompassed in a shared region of deletion. We also provide instructions for optimizing functional annotation programs that may be otherwise inaccessible to a nonexpert or novice in computational approaches. For complete details on the use and execution of this protocol, please refer to Gennarino et al. (2018)., Competing Interests: The authors declare no competing interests.

Published

2022

11. Pumilio proteins utilize distinct regulatory mechanisms to achieve complementary functions required for pluripotency and embryogenesis.

Author

Uyhazi KE, Yang Y, Liu N, Qi H, Huang XA, Mak W, Weatherbee SD, de Prisco N, Gennarino VA, Song X, and Lin H

Subjects

Animals, Cell Differentiation genetics, Cell Self Renewal genetics, Gene Expression Regulation, Mammals, Mice, Pluripotent Stem Cells cytology, Pluripotent Stem Cells metabolism, RNA Stability genetics, RNA, Messenger genetics, Embryonic Development genetics, RNA-Binding Proteins genetics

Abstract

Gene regulation in embryonic stem cells (ESCs) has been extensively studied at the epigenetic-transcriptional level, but not at the posttranscriptional level. Pumilio (Pum) proteins are among the few known translational regulators required for stem-cell maintenance in invertebrates and plants. Here we report the essential function of two murine Pum proteins, Pum1 and Pum2, in ESCs and early embryogenesis. Pum1/2 double-mutant ESCs display severely reduced self-renewal and differentiation, and Pum1/2 double-mutant mice are developmentally delayed at the morula stage and lethal by embryonic day 8.5. Remarkably, Pum1-deficient ESCs show increased expression of pluripotency genes but not differentiation genes, whereas Pum2-deficient ESCs show decreased pluripotency markers and accelerated differentiation. Thus, despite their high homology and overlapping target messenger RNAs (mRNAs), Pum1 promotes differentiation while Pum2 promotes self-renewal in ESCs. Pum1 and Pum2 achieve these two complementary aspects of pluripotency by forming a negative interregulatory feedback loop that directly regulates at least 1,486 mRNAs. Pum1 and Pum2 regulate target mRNAs not only by repressing translation, but also by promoting translation and enhancing or reducing mRNA stability of different target mRNAs. Together, these findings reveal distinct roles of individual mammalian Pum proteins in ESCs and their essential functions in ESC pluripotency and embryogenesis., Competing Interests: The authors declare no competing interest.

Published

2020

12. MHC-I genotype drives early immune selection of oncogenic mutations.

Author

Marty R, de Prisco N, Carter H, and Font-Burgada J

Abstract

MHC-I exposes the intracellular contents to immune cells for surveillance of cellular health. Due to high genomic variation, individuals' immune systems differ in their ability to expose and eliminate cancer-causing mutations. These personalized immune blind spots create specific oncogenic mutation predispositions within patients and influence their prevalence across populations.

Published

2018

13. Targeting and silencing of rhodopsin by ectopic expression of the transcription factor KLF15.

Author

Botta S, de Prisco N, Marrocco E, Renda M, Sofia M, Curion F, Bacci ML, Ventrella D, Wilson C, Gesualdo C, Rossi S, Simonelli F, and Surace EM

Subjects

Animals, Dependovirus genetics, Ectopic Gene Expression, Female, Genetic Therapy methods, Genetic Vectors, Kruppel-Like Transcription Factors physiology, Mice, Transgenic, Mutation, Nuclear Proteins physiology, Retinal Rod Photoreceptor Cells metabolism, Retinitis Pigmentosa genetics, Retinitis Pigmentosa therapy, Rhodopsin metabolism, Swine, Gene Silencing, Gene Targeting methods, Kruppel-Like Transcription Factors genetics, Nuclear Proteins genetics, Rhodopsin genetics

Abstract

The genome-wide activity of transcription factors (TFs) on multiple regulatory elements precludes their use as gene-specific regulators. Here we show that ectopic expression of a TF in a cell-specific context can be used to silence the expression of a specific gene as a therapeutic approach to regulate gene expression in human disease. We selected the TF Krüppel-like factor 15 (KLF15) based on its putative ability to recognize a specific DNA sequence motif present in the rhodopsin (RHO) promoter and its lack of expression in terminally differentiated rod photoreceptors (the RHO-expressing cells). Adeno-associated virus (AAV) vector-mediated ectopic expression of KLF15 in rod photoreceptors of pigs enables Rho silencing with limited genome-wide transcriptional perturbations. Suppression of a RHO mutant allele by KLF15 corrects the phenotype of a mouse model of retinitis pigmentosa with no observed toxicity. Cell-specific-context conditioning of TF activity may prove a novel mode for somatic gene-targeted manipulation.

Published

2017

14. MHC-I Genotype Restricts the Oncogenic Mutational Landscape.

Author

Marty R, Kaabinejadian S, Rossell D, Slifker MJ, van de Haar J, Engin HB, de Prisco N, Ideker T, Hildebrand WH, Font-Burgada J, and Carter H

Subjects

Cell Line, Tumor, Computer Simulation, Female, HeLa Cells, Humans, Male, Monitoring, Immunologic, Proteome, Antigen Presentation, Histocompatibility Antigens Class I genetics, Histocompatibility Antigens Class I immunology, Mutation, Neoplasms immunology

Abstract

MHC-I molecules expose the intracellular protein content on the cell surface, allowing T cells to detect foreign or mutated peptides. The combination of six MHC-I alleles each individual carries defines the sub-peptidome that can be effectively presented. We applied this concept to human cancer, hypothesizing that oncogenic mutations could arise in gaps in personal MHC-I presentation. To validate this hypothesis, we developed and applied a residue-centric patient presentation score to 9,176 cancer patients across 1,018 recurrent oncogenic mutations. We found that patient MHC-I genotype-based scores could predict which mutations were more likely to emerge in their tumor. Accordingly, poor presentation of a mutation across patients was correlated with higher frequency among tumors. These results support that MHC-I genotype-restricted immunoediting during tumor formation shapes the landscape of oncogenic mutations observed in clinically diagnosed tumors and paves the way for predicting personal cancer susceptibilities from knowledge of MHC-I genotype., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

15. Rhodopsin targeted transcriptional silencing by DNA-binding.

Author

Botta S, Marrocco E, de Prisco N, Curion F, Renda M, Sofia M, Lupo M, Carissimo A, Bacci ML, Gesualdo C, Rossi S, Simonelli F, and Surace EM

Subjects

Adenoviridae genetics, DNA-Binding Proteins genetics, Gene Expression, Genetic Vectors, Protein Binding, Recombinant Proteins genetics, Transduction, Genetic, DNA metabolism, DNA-Binding Proteins metabolism, Gene Silencing, Recombinant Proteins metabolism, Rhodopsin biosynthesis, Transcription, Genetic

Abstract

Transcription factors (TFs) operate by the combined activity of their DNA-binding domains (DBDs) and effector domains (EDs) enabling the coordination of gene expression on a genomic scale. Here we show that in vivo delivery of an engineered DNA-binding protein uncoupled from the repressor domain can produce efficient and gene-specific transcriptional silencing. To interfere with RHODOPSIN (RHO) gain-of-function mutations we engineered the ZF6-DNA-binding protein (ZF6-DB) that targets 20 base pairs (bp) of a RHOcis-regulatory element (CRE) and demonstrate Rho specific transcriptional silencing upon adeno-associated viral (AAV) vector-mediated expression in photoreceptors. The data show that the 20 bp-long genomic DNA sequence is necessary for RHO expression and that photoreceptor delivery of the corresponding cognate synthetic trans-acting factor ZF6-DB without the intrinsic transcriptional repression properties of the canonical ED blocks Rho expression with negligible genome-wide transcript perturbations. The data support DNA-binding-mediated silencing as a novel mode to treat gain-of-function mutations.

Published

2016