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9. NUMERICAL CROWDSOURCING OF NFL FOOTBALL HELMETS

Author

Panzer, Matthew B., Giudice, J. Sebastian, Caudillo, Adrian, Mukherjee, Sayak, Kong, Kevin, Cronin, Duane S., Barker, Jeffrey, Gierczycka, Donata, Bustamante, Michael, Bruneau, David, Corrales, Miguel, Halldin, Peter, Fahlstedt, Madelen, Arnesen, Marcus, Jungstedt, Erik, Gayzik, F. Scott, Stitzel, Joel D., Decker, William, Baker, Alex M., Ye, Xin, Brown, Philip, Panzer, Matthew B., Giudice, J. Sebastian, Caudillo, Adrian, Mukherjee, Sayak, Kong, Kevin, Cronin, Duane S., Barker, Jeffrey, Gierczycka, Donata, Bustamante, Michael, Bruneau, David, Corrales, Miguel, Halldin, Peter, Fahlstedt, Madelen, Arnesen, Marcus, Jungstedt, Erik, Gayzik, F. Scott, Stitzel, Joel D., Decker, William, Baker, Alex M., Ye, Xin, and Brown, Philip

Abstract

QC 20180913

Published
2018

12. Differential endocytosis and signaling dynamics of insulin receptor variants IR-A and IR-B

Author

Giudice, J., Leskow, F.C., Arndt-Jovin, D.J., Jovin, T.M., and Jares-Erijman, E.

Subjects
retracted article, priority journal, article
Abstract

Fil:Giudice, J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Jares-Erijman, E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2012

13. Analogías creadas por los alumnos para enseñar la naturaleza discontinua de la materia

Author

Giudice, J. and Alonso, Manuel

Abstract

Motivar, preguntarse, imaginar, explicar, argumentar, convencer ¿Cómo llevar estas emociones y actitudes a la Química escolar? En este trabajo se analiza el uso de experiencias macroscópicas y de analogías creadas por los estudiantes para favorecer el aprendizaje del modelo cinético molecular (MCM). Sus analogías confirmaron la construcción de modelos mentales apropiados. Surgieron muchas analogías: polvo de tiza, futbolistas, arena, migas de pan, collar de perlas y otras. Los resultados nos permiten sostener que la innovación didáctica fue exitosa por tres motivos. Demandó que los estudiantes “modelicen”. La generación de analogías por los estudiantes evidenció sus modelos mentales. Finalmente, se estuvo siempre frente a una diferenciación e integración del nivel macro y microscópico, siendo esto la esencia del MCM.

Published
2009

14. Genetic and biochemical studies in Argentinean patients with variegate porphyria

Author

Rossetti, M.V., Granata, B.X., Giudice, J., Parera, V.E., and Batlle, A.

Subjects
Male, frameshift mutation, gene amplification, polymerase chain reaction, mitochondrial protein, complementary DNA, porphyria variegata, genetic analysis, valine, middle aged, molecular biology, guanine, genetics, exon, cytosine, heme, RNA transcription, PPOX protein, human, child, adult, article, Exons, protoporphyrinogen oxidase, genetic code, female, heterozygote detection, nucleic acid base substitution, alanine, glutamic acid, amino acid, gene insertion, signal transduction, amino acid substitution, mutational analysis, intron, Adolescent, Argentina, DNA sequence, Mutation, Missense, DNA flanking region, RNA sequence, reverse transcription polymerase chain reaction, Mitochondrial Proteins, promoter region, flavoprotein, thymine, heterozygosity, Humans, tryptophan, controlled study, family study, human, adenine, Flavoproteins, binding site, gene deletion, missense mutation, nucleotide sequence, Sequence Analysis, DNA, major clinical study, threonine, nucleic acid, chemical analysis, RNA, Porphyria, Variegate, codon, biosynthesis, metabolism, glycine
Abstract

Background: A partial deficiency in Protoporphyrinogen oxidase (PPOX) produces the mixed disorder Variegate Porphyria (VP), the second acute porphyria more frequent in Argentina. Identification of patients with an overt VP is absolutely important because treatment depends on an accurate diagnosis but more critical is the identification of asymptomatic relatives to avoid acute attacks which may progress to death. Methods: We have studied at molecular level 18 new Argentinean patients biochemically diagnosed as VP. PPOX gene was amplified in one or in twelve PCR reactions. All coding exons, flanking intronic and promoter regions were manual or automatically sequenced. For RT-PCR studies RNA was retrotranscripted, amplified and sequenced. PPOX activity in those families carrying a new and uncharacterized mutation was performed. Results: All affected individuals harboured mutations in heterozygous state. Nine novel mutations and 3 already reported mutations were identified. Six of the novel mutations were single nucleotide substitutions, 2 were small deletions and one a small insertion. Three single nucleotide substitutions and the insertion were at exon-intron boundaries. Two of the single nucleotide substitutions, c.471G>A and c.807G>A and the insertion (c.388+3insT) were close to the splice donor sites in exons 5, 7 and intron 4 respectively. The other single nucleotide substitution was a transversion in the last base of intron 7, g.3912G>C (c.808-1G>C) so altering the consensus acceptor splice site. However, only in the first case the abnormal band showing the skipping of exon 5 was detected. The other single nucleotide substitutions were transversions: c.101A>T, c.995G>C and c.670 T>G that result in p.E34V, p.G332A and W224G aminoacid substitutions in exons 3, 10 and 7 respectively. Activity measurements indicate that these mutations reduced about 50% PPOX activity and also that they co-segregate with this reduced activity value. Two frameshift mutations, c.133delT and c.925delA, were detected in exons 3 and 9 respectively. The first leads to an early termination signal 22 codons downstream (p.S45fsX67) and the second leads to a stop codon 5 codons downstream (p.I309fsX314). One reported mutation was a missense mutation (p.G232R) and 2 were frameshift mutations: c.1082insC and 1043insT. The last mutation was detected in six new apparently unrelated Argentinean families. Conclusion: Molecular analysis in available family members revealed 14 individuals who were silent carriers of VP. Molecular techniques represent the most accurate approach to identify unaffected carriers and to provide accurate genetic counselling for asymptomatic individuals. The initial screening includes the insertion search. © 2008 Rossetti et al; licensee BioMed Central Ltd. Fil:Rossetti, M.V. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Granata, B.X. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Giudice, J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Parera, V.E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Batlle, A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2008

17. Genetic and biochemical studies in Argentinean patients with variegate porphyria

Author

Giudice Jimena, Granata Bárbara X, Rossetti María V, Parera Victoria E, and Batlle Alcira

Subjects
Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background A partial deficiency in Protoporphyrinogen oxidase (PPOX) produces the mixed disorder Variegate Porphyria (VP), the second acute porphyria more frequent in Argentina. Identification of patients with an overt VP is absolutely important because treatment depends on an accurate diagnosis but more critical is the identification of asymptomatic relatives to avoid acute attacks which may progress to death. Methods We have studied at molecular level 18 new Argentinean patients biochemically diagnosed as VP. PPOX gene was amplified in one or in twelve PCR reactions. All coding exons, flanking intronic and promoter regions were manual or automatically sequenced. For RT-PCR studies RNA was retrotranscripted, amplified and sequenced. PPOX activity in those families carrying a new and uncharacterized mutation was performed. Results All affected individuals harboured mutations in heterozygous state. Nine novel mutations and 3 already reported mutations were identified. Six of the novel mutations were single nucleotide substitutions, 2 were small deletions and one a small insertion. Three single nucleotide substitutions and the insertion were at exon-intron boundaries. Two of the single nucleotide substitutions, c.471G>A and c.807G>A and the insertion (c.388+3insT) were close to the splice donor sites in exons 5, 7 and intron 4 respectively. The other single nucleotide substitution was a transversion in the last base of intron 7, g.3912G>C (c.808-1G>C) so altering the consensus acceptor splice site. However, only in the first case the abnormal band showing the skipping of exon 5 was detected. The other single nucleotide substitutions were transversions: c.101A>T, c.995G>C and c.670 T>G that result in p.E34V, p.G332A and W224G aminoacid substitutions in exons 3, 10 and 7 respectively. Activity measurements indicate that these mutations reduced about 50% PPOX activity and also that they co-segregate with this reduced activity value. Two frameshift mutations, c.133delT and c.925delA, were detected in exons 3 and 9 respectively. The first leads to an early termination signal 22 codons downstream (p.S45fsX67) and the second leads to a stop codon 5 codons downstream (p.I309fsX314). One reported mutation was a missense mutation (p.G232R) and 2 were frameshift mutations: c.1082insC and 1043insT. The last mutation was detected in six new apparently unrelated Argentinean families. Conclusion Molecular analysis in available family members revealed 14 individuals who were silent carriers of VP. Molecular techniques represent the most accurate approach to identify unaffected carriers and to provide accurate genetic counselling for asymptomatic individuals. The initial screening includes the insertion search.

Published
2008
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18. RBFOX2 regulated EYA3 isoforms partner with SIX4 or ZBTB1 to control transcription during myogenesis.

Author

Wiedner HJ, Blue RE, Sadovsky M, Mills CA, Wehrens XHT, Herring LE, and Giudice J

Abstract

Alternative splicing is a prevalent gene-regulatory mechanism, with over 95% of multi-exon human genes estimated to be alternatively spliced. Here, we describe a tissue-specific, developmentally regulated, highly conserved, and disease-associated alternative splicing event in exon 7 of the eyes absent homolog 3 ( Eya3 ) gene. We discovered that EYA3 expression is vital to the proliferation and differentiation of myoblasts. Genome-wide transcriptomic analysis and mass spectrometry-based proteomic studies identified SIX homeobox 4 (SIX4) and zinc finger and BTB-domain containing 1 (ZBTB1), as major transcription factors that interact with EYA3 to dictate gene expression. EYA3 isoforms differentially regulate transcription, indicating that splicing aids in temporal control of gene expression during muscle cell differentiation. Finally, we identified RNA-binding fox-1 homolog 2 (RBFOX2) as the main regulator of EYA3 splicing. Together, our findings illustrate the interplay between alternative splicing and transcription during myogenesis., Competing Interests: X.H.T.W. is a founding partner of Elex Biotech, a start-up company that develops drug molecules that target ryanodine receptors to treat cardiac arrhythmias. X.H.T.W. is also a consultant to Rocket Pharmaceuticals. The remaining authors declare no competing interests., (© 2023 The Authors.)

Published
2023
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20. SET domain containing 2 (SETD2) influences metabolism and alternative splicing during myogenesis.

Author

Wiedner HJ, Torres EV, Blue RE, Tsai YH, Parker J, and Giudice J

Subjects
Alternative Splicing, Chromatin, Muscle Development genetics, PR-SET Domains, Histones genetics, Histones metabolism
Abstract

Epigenetic regulatory mechanisms are increasingly recognized as crucial determinants of cellular specification and differentiation. During muscle cell differentiation (myogenesis), extensive remodelling of histone acetylation and methylation occurs. Several of these histone modifications aid in the expression of muscle-specific genes and the silencing of genes that block lineage commitment. Therefore, the identification of new epigenetic regulatory mechanisms is of high interest. Still, the functional relevance of numerous histone modifications during myogenesis remain completely uncertain. In this study, we focus on the function of H3K36me3 and its epigenetic writer, SET domain containing 2 (SETD2), in the context of muscle cell differentiation. We first observed that SETD2 expression increases during myogenesis. Targeted depletion of SETD2 in undifferentiated (myoblasts) and differentiated (myotubes) muscle cells reduced H3K36me3 levels and induced profound changes in gene expression and slight alterations in alternative splicing, as determined by deep RNA-sequencing analysis. Enzymes that function in metabolic pathways were upregulated in response to SETD2 depletion. Furthermore, we demonstrated that upregulation of several glycolytic enzymes was associated with an increase in intracellular pyruvate levels in SETD2-depleted cells, indicating a novel role for SETD2 in metabolic programming during myogenesis. Together, our results provide new insight into the signalling pathways controlled by chromatin-modifying enzymes and their associated histone modifications during muscle cell differentiation., (© 2022 The Authors. The FEBS Journal published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published
2022
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22. Stretching muscle cells induces transcriptional and splicing transitions and changes in SR proteins.

Author

Hinkle ER, Blue RE, Tsai YH, Combs M, Davi J, Coffey AR, Boriek AM, Taylor JM, Parker JS, and Giudice J

Subjects
Arginine, Muscle Cells, RNA, Serine, Mechanotransduction, Cellular genetics, RNA-Binding Proteins genetics, RNA-Binding Proteins metabolism
Abstract

Alternative splicing is an RNA processing mechanism involved in skeletal muscle development and pathology. Muscular diseases exhibit splicing alterations and changes in mechanobiology leading us to investigate the interconnection between mechanical forces and RNA processing. We performed deep RNA-sequencing after stretching muscle cells. First, we uncovered transcriptional changes in genes encoding proteins involved in muscle function and transcription. Second, we observed that numerous mechanosensitive genes were part of the MAPK pathway which was activated in response to stretching. Third, we revealed that stretching skeletal muscle cells increased the proportion of alternatively spliced cassette exons and their inclusion. Fourth, we demonstrated that the serine and arginine-rich proteins exhibited stronger transcriptional changes than other RNA-binding proteins and that SRSF4 phosphorylation is mechanosensitive. Identifying SRSF4 as a mechanosensitive RNA-binding protein that might contribute to crosstalk between mechanotransduction, transcription, and splicing could potentially reveal novel insights into muscular diseases, particularly those with unknown etiologies., (© 2022. The Author(s).)

Published
2022
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23. Alternative splicing regulation of membrane trafficking genes during myogenesis.

Author

Hinkle ER, Wiedner HJ, Torres EV, Jackson M, Black AJ, Blue RE, Harris SE, Guzman BB, Gentile GM, Lee EY, Tsai YH, Parker J, Dominguez D, and Giudice J

Subjects
Animals, Exons, Heterogeneous-Nuclear Ribonucleoproteins genetics, Heterogeneous-Nuclear Ribonucleoproteins metabolism, Mice, Muscle Development genetics, Alternative Splicing, Polypyrimidine Tract-Binding Protein genetics, Polypyrimidine Tract-Binding Protein metabolism
Abstract

Alternative splicing transitions occur during organ development, and, in numerous diseases, splicing programs revert to fetal isoform expression. We previously found that extensive splicing changes occur during postnatal mouse heart development in genes encoding proteins involved in vesicle-mediated trafficking. However, the regulatory mechanisms of this splicing-trafficking network are unknown. Here, we found that membrane trafficking genes are alternatively spliced in a tissue-specific manner, with striated muscles exhibiting the highest levels of alternative exon inclusion. Treatment of differentiated muscle cells with chromatin-modifying drugs altered exon inclusion in muscle cells. Examination of several RNA-binding proteins revealed that the poly-pyrimidine tract binding protein 1 (PTBP1) and quaking regulate splicing of trafficking genes during myogenesis, and that removal of PTBP1 motifs prevented PTBP1 from binding its RNA target. These findings enhance our understanding of developmental splicing regulation of membrane trafficking proteins which might have implications for muscle disease pathogenesis., (© 2022 Hinkle et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.)

Published
2022
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24. Efficient and Quality-Optimized Metagenomic Pipeline Designed for Taxonomic Classification in Routine Microbiological Clinical Tests.

Author

Buffet-Bataillon S, Rizk G, Cattoir V, Sassi M, Thibault V, Del Giudice J, and Gangneux JP

Abstract

Metagenomics analysis is now routinely used for clinical diagnosis in several diseases, and we need confidence in interpreting metagenomics analysis of microbiota. Particularly from the side of clinical microbiology, we consider that it would be a major milestone to further advance microbiota studies with an innovative and significant approach consisting of processing steps and quality assessment for interpreting metagenomics data used for diagnosis. Here, we propose a methodology for taxon identification and abundance assessment of shotgun sequencing data of microbes that are well fitted for clinical setup. Processing steps of quality controls have been developed in order (i) to avoid low-quality reads and sequences, (ii) to optimize abundance thresholds and profiles, (iii) to combine classifiers and reference databases for best classification of species and abundance profiles for both prokaryotic and eukaryotic sequences, and (iv) to introduce external positive control. We find that the best strategy is to use a pipeline composed of a combination of different but complementary classifiers such as Kraken2/Bracken and Kaiju. Such improved quality assessment will have a major impact on the robustness of biological and clinical conclusions drawn from metagenomic studies.

Published
2022
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25. ViaFuse: Fiji macros to calculate skeletal muscle cell viability and fusion index.

Author

Hinkle ER, Essader TO, Gentile GM, and Giudice J

Subjects
Cell Differentiation, Cell Survival, Fiji, Muscle Fibers, Skeletal, Muscle, Skeletal
Abstract

Background: Measuring biological features of skeletal muscle cells is difficult because of their unique morphology and multinucleate nature upon differentiation. Here, we developed a new Fiji macro package called ViaFuse (that stands for viability and fusion) to measure skeletal muscle cell viability and differentiation. To test ViaFuse, we utilized immunofluorescence images of differentiated myotubes where the capping actin protein of muscle z-line subunit beta (CAPZB) was depleted in comparison with control cells., Results: We compared the values achieved using the ViaFuse macros first with manual quantification performed by researchers and second with those obtained utilizing the MATLAB muscle-centric software MyoCount. We observed a high degree of correlation between all methods of quantification., Conclusions: ViaFuse can detect the borders of myotubes and identify nuclear clumps which have been limitations of previous muscle-centric imaging software. The ViaFuse macros require little computer power or space to run and user inputs to the ViaFuse macros are minimal, thereby automating the analysis process in a quick, easy, and accurate fashion. Additionally, the ViaFuse macros work with Fiji, an existing imaging software widely used by skeletal muscle researchers. Furthermore, ViaFuse is compatible with many computer systems, has a very intuitive interface, and does not require prior complex mathematical knowledge. Therefore, we propose ViaFuse as a robust and meticulous method to quantify skeletal muscle cell viability and differentiation., (© 2021. The Author(s).)

Published
2021
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26. It's not just a phase: function and characteristics of RNA-binding proteins in phase separation.

Author

Wiedner HJ and Giudice J

Subjects
Animals, Cell Nucleus chemistry, Cell Nucleus physiology, Cytoplasm chemistry, Cytoplasm physiology, Humans, Intrinsically Disordered Proteins chemistry, Mammals metabolism, Neoplasm Proteins chemistry, Neoplasms metabolism, Neurodegenerative Diseases metabolism, Osmolar Concentration, Phase Transition, Protein Aggregation, Pathological prevention & control, Protein Conformation, Protein Domains, Protein Isoforms chemistry, Protein Processing, Post-Translational, RNA metabolism, RNA Splicing, RNA, Neoplasm metabolism, Structure-Activity Relationship, RNA chemistry, RNA-Binding Proteins chemistry, Ribonucleoproteins chemistry
Abstract

Biomolecular condensates that form via phase separation are increasingly regarded as coordinators of cellular reactions that regulate a wide variety of biological phenomena. Mounting evidence suggests that multiple steps of the RNA life cycle are organized within RNA-binding protein-rich condensates. In this Review, we discuss recent insights into the influence of phase separation on RNA biology, which has implications for basic cell biology, the pathogenesis of human diseases and the development of novel therapies.

Published
2021
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27. CRTC1/MAML2 directs a PGC-1α-IGF-1 circuit that confers vulnerability to PPARγ inhibition.

Author

Musicant AM, Parag-Sharma K, Gong W, Sengupta M, Chatterjee A, Henry EC, Tsai YH, Hayward MC, Sheth S, Betancourt R, Hackman TG, Padilla RJ, Parker JS, Giudice J, Flaveny CA, Hayes DN, and Amelio AL

Subjects
Animals, Autocrine Communication, Carcinoma, Mucoepidermoid genetics, Carcinoma, Mucoepidermoid metabolism, Carcinoma, Mucoepidermoid pathology, Cell Line, Tumor, Cell Proliferation drug effects, Female, Gene Expression Regulation, Neoplastic, Gene Fusion, Humans, Insulin-Like Growth Factor I genetics, Male, Mice, Nude, Middle Aged, Molecular Targeted Therapy, PPAR gamma genetics, PPAR gamma metabolism, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha genetics, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha metabolism, Protein Isoforms, Receptor, IGF Type 1 antagonists & inhibitors, Receptor, IGF Type 1 metabolism, Salivary Gland Neoplasms genetics, Salivary Gland Neoplasms metabolism, Salivary Gland Neoplasms pathology, Signal Transduction, Trans-Activators genetics, Transcription Factors genetics, Tumor Burden drug effects, Xenograft Model Antitumor Assays, Mice, Antineoplastic Combined Chemotherapy Protocols pharmacology, Carcinoma, Mucoepidermoid drug therapy, Insulin-Like Growth Factor I metabolism, PPAR gamma antagonists & inhibitors, Salivary Gland Neoplasms drug therapy, Trans-Activators metabolism, Transcription Factors metabolism
Abstract

Mucoepidermoid carcinoma (MEC) is a life-threatening salivary gland cancer that is driven primarily by a transcriptional coactivator fusion composed of cyclic AMP-regulated transcriptional coactivator 1 (CRTC1) and mastermind-like 2 (MAML2). The mechanisms by which the chimeric CRTC1/MAML2 (C1/M2) oncoprotein rewires gene expression programs that promote tumorigenesis remain poorly understood. Here, we show that C1/M2 induces transcriptional activation of the non-canonical peroxisome proliferator-activated receptor gamma coactivator-1 alpha (PGC-1α) splice variant PGC-1α4, which regulates peroxisome proliferator-activated receptor gamma (PPARγ)-mediated insulin-like growth factor 1 (IGF-1) expression. This mitogenic transcriptional circuitry is consistent across cell lines and primary tumors. C1/M2-positive tumors exhibit IGF-1 pathway activation, and small-molecule drug screens reveal that tumor cells harboring the fusion gene are selectively sensitive to IGF-1 receptor (IGF-1R) inhibition. Furthermore, this dependence on autocrine regulation of IGF-1 transcription renders MEC cells susceptible to PPARγ inhibition with inverse agonists. These results yield insights into the aberrant coregulatory functions of C1/M2 and identify a specific vulnerability that can be exploited for precision therapy., Competing Interests: Declaration of interests A.L.A. is a GAB member and paid consultant for LG Chem Life Sciences Innovation Center., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2021
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28. The Long Noncoding RNA NEAT1 Promotes Sarcoma Metastasis by Regulating RNA Splicing Pathways.

Author

Huang J, Sachdeva M, Xu E, Robinson TJ, Luo L, Ma Y, Williams NT, Lopez O, Cervia LD, Yuan F, Qin X, Zhang D, Owzar K, Gokgoz N, Seto A, Okada T, Singer S, Andrulis IL, Wunder JS, Lazar AJ, Rubin BP, Pipho K, Mello SS, Giudice J, and Kirsch DG

Subjects
Humans, Neoplasm Metastasis, PC-3 Cells, Transfection, RNA Splicing genetics, RNA, Long Noncoding genetics, Sarcoma genetics
Abstract

Soft-tissue sarcomas (STS) are rare malignancies showing lineage differentiation toward diverse mesenchymal tissues. Half of all high-grade STSs develop lung metastasis with a median survival of 15 months. Here, we used a genetically engineered mouse model that mimics undifferentiated pleomorphic sarcoma (UPS) to study the molecular mechanisms driving metastasis. High-grade sarcomas were generated with Cre recombinase technology using mice with conditional mutations in Kras and Trp53 (KP) genes. After amputation of the limb bearing the primary tumor, mice were followed for the development of lung metastasis. Using RNA-sequencing of matched primary KP tumors and lung metastases, we found that the long noncoding RNA (lncRNA) Nuclear Enriched Abundant Transcript 1 ( Neat1 ) is significantly upregulated in lung metastases. Furthermore, NEAT1 RNA ISH of human UPS showed that NEAT1 is upregulated within a subset of lung metastases compared with paired primary UPS. Remarkably, CRISPR/Cas9-mediated knockout of Neat1 suppressed the ability of KP tumor cells to colonize the lungs. To gain insight into the underlying mechanisms by which the lncRNA Neat1 promotes sarcoma metastasis, we pulled down Neat1 RNA and used mass spectrometry to identify interacting proteins. Interestingly, most Neat1 interacting proteins are involved in RNA splicing regulation. In particular, KH-Type Splicing Regulatory Protein (KHSRP) interacts with Neat1 and is associated with poor prognosis of human STS. Moreover, depletion of KHSRP suppressed the ability of KP tumor cells to colonize the lungs. Collectively, these results suggest that Neat1 and its interacting proteins, which regulate RNA splicing, are involved in mediating sarcoma metastasis. IMPLICATIONS: Understanding that lncRNA NEAT1 promotes sarcoma metastasis, at least in part, through interacting with the RNA splicing regulator KHSRP may translate into new therapeutic approaches for sarcoma., (©2020 American Association for Cancer Research.)

Published
2020
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29. FXR1 splicing is important for muscle development and biomolecular condensates in muscle cells.

Author

Smith JA, Curry EG, Blue RE, Roden C, Dundon SER, Rodríguez-Vargas A, Jordan DC, Chen X, Lyons SM, Crutchley J, Anderson P, Horb ME, Gladfelter AS, and Giudice J

Subjects
Adult, Aged, Animals, Cells, Cultured, Female, Humans, Infant, Male, Mice, Mice, Inbred C57BL, Mice, Inbred Strains, Middle Aged, Muscle Development, Muscles metabolism, RNA-Binding Proteins metabolism, Xenopus, Xenopus Proteins metabolism, Young Adult, Alternative Splicing genetics, Muscle Cells metabolism, RNA-Binding Proteins genetics, Xenopus Proteins genetics
Abstract

Fragile-X mental retardation autosomal homologue-1 (FXR1) is a muscle-enriched RNA-binding protein. FXR1 depletion is perinatally lethal in mice, Xenopus, and zebrafish; however, the mechanisms driving these phenotypes remain unclear. The FXR1 gene undergoes alternative splicing, producing multiple protein isoforms and mis-splicing has been implicated in disease. Furthermore, mutations that cause frameshifts in muscle-specific isoforms result in congenital multi-minicore myopathy. We observed that FXR1 alternative splicing is pronounced in the serine- and arginine-rich intrinsically disordered domain; these domains are known to promote biomolecular condensation. Here, we show that tissue-specific splicing of fxr1 is required for Xenopus development and alters the disordered domain of FXR1. FXR1 isoforms vary in the formation of RNA-dependent biomolecular condensates in cells and in vitro. This work shows that regulation of tissue-specific splicing can influence FXR1 condensates in muscle development and how mis-splicing promotes disease., (© 2020 Smith et al.)

Published
2020
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30. Heme Oxygenase 1 Impairs Glucocorticoid Receptor Activity in Prostate Cancer.

Author

Leonardi DB, Anselmino N, Brandani JN, Jaworski FM, Páez AV, Mazaira G, Meiss RP, Nuñez M, Nemirovsky SI, Giudice J, Galigniana M, Pecci A, Gueron G, Vazquez E, and Cotignola J

Subjects
Animals, Cell Line, Tumor, Dexamethasone pharmacology, Disease-Free Survival, Heme Oxygenase-1 genetics, Hemin pharmacology, Humans, Male, Mice, Promoter Regions, Genetic genetics, Response Elements genetics, Signal Transduction, Tacrolimus Binding Proteins metabolism, Xenograft Model Antitumor Assays, Heme Oxygenase-1 metabolism, Prostatic Neoplasms metabolism, Receptors, Glucocorticoid metabolism
Abstract

Glucocorticoids are used during prostate cancer (PCa) treatment. However, they may also have the potential to drive castration resistant prostate cancer (CRPC) growth via the glucocorticoid receptor (GR). Given the association between inflammation and PCa, and the anti-inflammatory role of heme oxygenase 1 (HO-1), we aimed at identifying the molecular processes governed by the interaction between HO-1 and GR. PCa-derived cell lines were treated with Hemin, Dexamethasone (Dex), or both. We studied GR gene expression by RTqPCR, protein expression by Western Blot, transcriptional activity using reporter assays, and nuclear translocation by confocal microscopy. We also evaluated the expression of HO-1, FKBP51, and FKBP52 by Western Blot. Hemin pre-treatment reduced Dex-induced GR activity in PC3 cells. Protein levels of FKBP51, a cytoplasmic GR-binding immunophilin, were significantly increased in Hemin+Dex treated cells, possibly accounting for lower GR activity. We also evaluated these treatments in vivo using PC3 tumors growing as xenografts. We found non-significant differences in tumor growth among treatments. Immunohistochemistry analyses revealed strong nuclear GR staining in almost all groups. We did not observe HO-1 staining in tumor cells, but high HO-1 reactivity was detected in tumor infiltrating macrophages. Our results suggest an association and crossed modulation between HO-1 and GR pathways.

Published
2019
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31. RNA processing in skeletal muscle biology and disease.

Author

Hinkle ER, Wiedner HJ, Black AJ, and Giudice J

Subjects
Epigenesis, Genetic, Humans, Muscle, Skeletal growth & development, Muscular Diseases genetics, Models, Genetic, Muscle, Skeletal metabolism, RNA Processing, Post-Transcriptional
Abstract

RNA processing encompasses the capping, cleavage, polyadenylation and alternative splicing of pre-mRNA. Proper muscle development relies on precise RNA processing, driven by the coordination between RNA-binding proteins. Recently, skeletal muscle biology has been intensely investigated in terms of RNA processing. High throughput studies paired with deletion of RNA-binding proteins have provided a high-level understanding of the molecular mechanisms controlling the regulation of RNA-processing in skeletal muscle. Furthermore, misregulation of RNA processing is implicated in muscle diseases. In this review, we comprehensively summarize recent studies in skeletal muscle that demonstrated: (i) the importance of RNA processing, (ii) the RNA-binding proteins that are involved, and (iii) diseases associated with defects in RNA processing.

Published
2019
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32. How alternative splicing affects membrane-trafficking dynamics.

Author

Blue RE, Curry EG, Engels NM, Lee EY, and Giudice J

Subjects
Animals, Cell Membrane genetics, Endocytosis, Gene Expression Regulation, Humans, Protein Transport, Proteins genetics, Alternative Splicing, Cell Membrane metabolism, Proteins metabolism
Abstract

The cell biology field has outstanding working knowledge of the fundamentals of membrane-trafficking pathways, which are of critical importance in health and disease. Current challenges include understanding how trafficking pathways are fine-tuned for specialized tissue functions in vivo and during development. In parallel, the ENCODE project and numerous genetic studies have revealed that alternative splicing regulates gene expression in tissues and throughout development at a post-transcriptional level. This Review summarizes recent discoveries demonstrating that alternative splicing affects tissue specialization and membrane-trafficking proteins during development, and examines how this regulation is altered in human disease. We first discuss how alternative splicing of clathrin, SNAREs and BAR-domain proteins influences endocytosis, secretion and membrane dynamics, respectively. We then focus on the role of RNA-binding proteins in the regulation of splicing of membrane-trafficking proteins in health and disease. Overall, our aim is to comprehensively summarize how trafficking is molecularly influenced by alternative splicing and identify future directions centered on its physiological relevance., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published
2018
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33. Game-changing restraint of Ros-damaged phenylalanine, upon tumor metastasis.

Author

Gueron G, Anselmino N, Chiarella P, Ortiz EG, Lage Vickers S, Paez AV, Giudice J, Contin MD, Leonardi D, Jaworski F, Manzano V, Strazza A, Montagna DR, Labanca E, Cotignola J, D Accorso N, Woloszynska-Read A, Navone N, Meiss RP, Ruggiero R, and Vazquez E

Subjects
Animals, Cell Line, Tumor, Cell Proliferation, Down-Regulation, Drug Resistance, Neoplasm, Humans, Male, Mice, Nude, Prostatic Neoplasms pathology, Serum, Signal Transduction, Subcutaneous Tissue pathology, Tyrosine metabolism, Xenograft Model Antitumor Assays, Neoplasm Metastasis pathology, Phenylalanine metabolism, Reactive Oxygen Species metabolism
Abstract

An abrupt increase in metastatic growth as a consequence of the removal of primary tumors suggests that the concomitant resistance (CR) phenomenon might occur in human cancer. CR occurs in murine tumors and ROS-damaged phenylalanine, meta-tyrosine (m-Tyr), was proposed as the serum anti-tumor factor primarily responsible for CR. Herein, we demonstrate for the first time that CR happens in different experimental human solid tumors (prostate, lung anaplastic, and nasopharyngeal carcinoma). Moreover, m-Tyr was detected in the serum of mice bearing prostate cancer (PCa) xenografts. Primary tumor growth was inhibited in animals injected with m-Tyr. Further, the CR phenomenon was reversed when secondary implants were injected into mice with phenylalanine (Phe), a protective amino acid highly present in primary tumors. PCa cells exposed to m-Tyr in vitro showed reduced cell viability, downregulated NFκB/STAT3/Notch axis, and induced autophagy; effects reversed by Phe. Strikingly, m-Tyr administration also impaired both, spontaneous metastasis derived from murine mammary carcinomas (4T1, C7HI, and LMM3) and PCa experimental metastases. Altogether, our findings propose m-Tyr delivery as a novel approach to boost the therapeutic efficacy of the current treatment for metastasis preventing the escape from tumor dormancy.

Published
2018
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34. Heme oxygenase-1 in the forefront of a multi-molecular network that governs cell-cell contacts and filopodia-induced zippering in prostate cancer.

Author

Paez AV, Pallavicini C, Schuster F, Valacco MP, Giudice J, Ortiz EG, Anselmino N, Labanca E, Binaghi M, Salierno M, Martí MA, Cotignola JH, Woloszynska-Read A, Bruno L, Levi V, Navone N, Vazquez ES, and Gueron G

Subjects
Animals, Cell Communication drug effects, Cell Line, Tumor, Cell Movement drug effects, Coculture Techniques, Crystallography, X-Ray, Culture Media, Conditioned pharmacology, Cytoskeleton drug effects, Cytoskeleton metabolism, Gene Expression Regulation, Neoplastic drug effects, Humans, Male, Mice, Oligonucleotide Array Sequence Analysis, Prostatic Neoplasms genetics, Protein Binding drug effects, Proteomics, Pseudopodia drug effects, Sequence Analysis, RNA, Tandem Mass Spectrometry, Transcriptome drug effects, Transcriptome genetics, Cell Communication genetics, Gene Regulatory Networks drug effects, Heme Oxygenase-1 metabolism, Prostatic Neoplasms enzymology, Prostatic Neoplasms pathology, Pseudopodia metabolism
Abstract

Prostate cancer (PCa) cells display abnormal expression of cytoskeletal proteins resulting in an augmented capacity to resist chemotherapy and colonize distant organs. We have previously shown that heme oxygenase 1 (HO-1) is implicated in cell morphology regulation in PCa. Here, through a multi 'omics' approach we define the HO-1 interactome in PCa, identifying HO-1 molecular partners associated with the integrity of the cellular cytoskeleton. The bioinformatics screening for these cytoskeletal-related partners reveal that they are highly misregulated in prostate adenocarcinoma compared with normal prostate tissue. Under HO-1 induction, PCa cells present reduced frequency in migration events, trajectory and cell velocity and, a significant higher proportion of filopodia-like protrusions favoring zippering among neighboring cells. Moreover forced expression of HO-1 was also capable of altering cell protrusions in transwell co-culture systems of PCa cells with MC3T3 cells (pre-osteoblastic cell line). Accordingly, these effects were reversed under siHO. Transcriptomics profiling evidenced significant modulation of key markers related to cell adhesion and cell-cell communication under HO-1 induction. The integration from our omics-based research provides a four molecular pathway foundation (ANXA2/HMGA1/POU3F1; NFRSF13/GSN; TMOD3/RAI14/VWF; and PLAT/PLAU) behind HO-1 regulation of tumor cytoskeletal cell compartments. The complementary proteomics and transcriptomics approaches presented here promise to move us closer to unravel the molecular framework underpinning HO-1 involvement in the modulation of cytoskeleton pathways, pushing toward a less aggressive phenotype in PCa.

Published
2016
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35. Alternative Splicing of Four Trafficking Genes Regulates Myofiber Structure and Skeletal Muscle Physiology.

Author

Giudice J, Loehr JA, Rodney GG, and Cooper TA

Subjects
Aging metabolism, Alternative Splicing drug effects, Animals, Biomechanical Phenomena, Calcium metabolism, Calcium Channels, L-Type metabolism, Cell Nucleus drug effects, Cell Nucleus metabolism, Male, Mice, Models, Biological, Morpholinos pharmacology, Muscle Fibers, Skeletal ultrastructure, Muscle Proteins genetics, Muscle Proteins metabolism, Protein Isoforms genetics, Protein Isoforms metabolism, Protein Transport drug effects, Ryanodine Receptor Calcium Release Channel metabolism, Alternative Splicing genetics, Muscle Fibers, Skeletal physiology
Abstract

During development, transcriptional and post-transcriptional networks are coordinately regulated to drive organ maturation. Alternative splicing contributes by producing temporal-specific protein isoforms. We previously found that genes undergoing splicing transitions during mouse postnatal heart development are enriched for vesicular trafficking and membrane dynamics functions. Here, we show that adult trafficking isoforms are also expressed in adult skeletal muscle and hypothesize that striated muscle utilizes alternative splicing to generate specific isoforms required for function of adult tissue. We deliver morpholinos into flexor digitorum brevis muscles in adult mice to redirect splicing of four trafficking genes to the fetal isoforms. The splicing switch results in multiple structural and functional defects, including transverse tubule (T-tubule) disruption and dihydropyridine receptor alpha (DHPR) and Ryr1 mislocalization, impairing excitation-contraction coupling, calcium handling, and force generation. The results demonstrate a previously unrecognized role for trafficking functions in adult muscle tissue homeostasis and a specific requirement for the adult splice variants., (Copyright © 2016 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2016
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36. Neonatal cardiac dysfunction and transcriptome changes caused by the absence of Celf1.

Author

Giudice J, Xia Z, Li W, and Cooper TA

Subjects
Alternative Splicing, Animals, Animals, Newborn, CELF1 Protein metabolism, Cell Cycle genetics, Circadian Clocks genetics, Female, Gene Expression Regulation, Heart physiology, Heart Diseases metabolism, Humans, Ion Transport genetics, Male, Mice, Mice, 129 Strain, Mice, Knockout, RNA Stability, Transcriptome, CELF1 Protein genetics, Heart growth & development, Heart Diseases genetics, Heart Failure metabolism, RNA, Messenger genetics
Abstract

The RNA binding protein Celf1 regulates alternative splicing in the nucleus and mRNA stability and translation in the cytoplasm. Celf1 is strongly down-regulated during mouse postnatal heart development. Its re-induction in adults induced severe heart failure and reversion to fetal splicing and gene expression patterns. However, the impact of Celf1 depletion on cardiac transcriptional and posttranscriptional dynamics in neonates has not been addressed. We found that homozygous Celf1 knock-out neonates exhibited cardiac dysfunction not observed in older homozygous animals, although homozygous mice are smaller than wild type littermates throughout development. RNA-sequencing of mRNA from homozygous neonatal hearts identified a network of cell cycle genes significantly up-regulated and down-regulation of ion transport and circadian genes. Cell cycle genes are enriched for Celf1 binding sites supporting a regulatory role in mRNA stability of these transcripts. We also identified a cardiac splicing network coordinated by Celf1 depletion. Target events contain multiple Celf1 binding sites and enrichment in GU-rich motifs. Identification of direct Celf1 targets will advance our knowledge in the mechanisms behind developmental networks regulated by Celf1 and diseases where Celf1 is mis-regulated.

Published
2016
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37. Association of HO-1 and BRCA1 Is Critical for the Maintenance of Cellular Homeostasis in Prostate Cancer.

Author

Labanca E, De Luca P, Gueron G, Paez A, Moiola CP, Massillo C, Porretti J, Giudice J, Zalazar F, Navone N, Vazquez E, and De Siervi A

Subjects
Animals, Cell Line, Tumor, DNA Damage genetics, Heme Oxygenase-1 metabolism, Heterografts, Humans, Male, Mice, NF-E2-Related Factor 2 metabolism, Oxidative Stress genetics, Prostatic Neoplasms pathology, Protein Binding, Transcriptional Activation, BRCA1 Protein metabolism, Heme Oxygenase-1 genetics, Prostatic Neoplasms metabolism
Abstract

Unlabelled: Prostate cancer is the second leading cause of cancer-related death in men worldwide. Many factors that participate in the development of prostate cancer promote imbalance in the redox state of the cell. Accumulation of reactive oxygen species causes injury to cell structures, ultimately leading to cancer development. The antioxidant enzyme heme oxygenase 1 (HMOX1/HO-1) is responsible for the maintenance of the cellular homeostasis, playing a critical role in the oxidative stress and the regulation of prostate cancer development and progression. In the present study, the transcriptional regulation of HO-1 was investigated in prostate cancer. Interestingly, the tumor suppressor BRCA1 binds to the HO-1 promoter and modulates HO-1, inducing its protein levels through both the increment of its promoter activity and the induction of its transcriptional activation. In addition, in vitro and in vivo analyses show that BRCA1 also controls HO-1-negative targets: MMP9, uPA, and Cyclin D1. HO-1 transcriptional regulation is also modulated by oxidative and genotoxic agents. Induction of DNA damage by mitoxantrone and etoposide repressed HO-1 transcription, whereas hydrogen peroxide and doxorubicin induced its expression. Xenograft studies showed that HO-1 regulation by doxorubicin also occurs in vivo. Immunofluorescence analysis revealed that BRCA1 overexpression and/or doxorubicin exposure induced the cytoplasmic retention of HO-1. Finally, the transcription factor NRF2 cooperates with BRCA1 protein to activate HO-1 promoter activity. In summary, these results show that the activation of BRCA1-NRF2/HO-1 axis defines a new mechanism for the maintenance of the cellular homeostasis in prostate cancer., Implications: Oxidative and genotoxic stress converge on HO-1 transcriptional activity through the combined actions of BRCA1 and NRF2., (©2015 American Association for Cancer Research.)

Published
2015
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38. Antagonistic regulation of mRNA expression and splicing by CELF and MBNL proteins.

Author

Wang ET, Ward AJ, Cherone JM, Giudice J, Wang TT, Treacy DJ, Lambert NJ, Freese P, Saxena T, Cooper TA, and Burge CB

Subjects
Animals, CELF Proteins metabolism, CELF1 Protein genetics, CELF1 Protein metabolism, Down-Regulation, Exons, Gene Expression Regulation, Developmental, Heart physiology, Humans, Mice, Mice, Transgenic, Muscle, Skeletal metabolism, Myotonic Dystrophy genetics, Myotonic Dystrophy therapy, Nerve Tissue Proteins metabolism, Protein Isoforms metabolism, RNA-Binding Proteins metabolism, Sequence Analysis, RNA, Transcriptome, CELF Proteins genetics, Gene Expression Regulation, Nerve Tissue Proteins genetics, RNA Splicing, RNA, Messenger genetics, RNA-Binding Proteins genetics
Abstract

RNA binding proteins of the conserved CUGBP1, Elav-like factor (CELF) family contribute to heart and skeletal muscle development and are implicated in myotonic dystrophy (DM). To understand their genome-wide functions, we analyzed the transcriptome dynamics following induction of CELF1 or CELF2 in adult mouse heart and of CELF1 in muscle by RNA-seq, complemented by crosslinking/immunoprecipitation-sequencing (CLIP-seq) analysis of mouse cells and tissues to distinguish direct from indirect regulatory targets. We identified hundreds of mRNAs bound in their 3' UTRs by both CELF1 and the developmentally induced MBNL1 protein, a threefold greater overlap in target messages than expected, including messages involved in development and cell differentiation. The extent of 3' UTR binding by CELF1 and MBNL1 predicted the degree of mRNA repression or stabilization, respectively, following CELF1 induction. However, CELF1's RNA binding specificity in vitro was not detectably altered by coincubation with recombinant MBNL1. These findings support a model in which CELF and MBNL proteins bind independently to mRNAs but functionally compete to specify down-regulation or localization/stabilization, respectively, of hundreds of mRNA targets. Expression of many alternative 3' UTR isoforms was altered following CELF1 induction, with 3' UTR binding associated with down-regulation of isoforms and genes. The splicing of hundreds of alternative exons was oppositely regulated by these proteins, confirming an additional layer of regulatory antagonism previously observed in a handful of cases. The regulatory relationships between CELFs and MBNLs in control of both mRNA abundance and splicing appear to have evolved to enhance developmental transitions in major classes of heart and muscle genes., (© 2015 Wang et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2015
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39. The RNA-binding protein Rbfox1 regulates splicing required for skeletal muscle structure and function.

Author

Pedrotti S, Giudice J, Dagnino-Acosta A, Knoblauch M, Singh RK, Hanna A, Mo Q, Hicks J, Hamilton S, and Cooper TA

Subjects
Animals, Calcium metabolism, Female, Humans, Male, Mice, Mice, Knockout, Muscular Diseases genetics, Myoblasts metabolism, RNA Splicing Factors, RNA-Binding Proteins genetics, Satellite Cells, Skeletal Muscle metabolism, Alternative Splicing, Muscle, Skeletal metabolism, Muscular Diseases metabolism, RNA-Binding Proteins metabolism
Abstract

The Rbfox family of RNA-binding proteins is highly conserved with established roles in alternative splicing (AS) regulation. High-throughput studies aimed at understanding transcriptome remodeling have revealed skeletal muscle as displaying one of the largest number of AS events. This finding is consistent with requirements for tissue-specific protein isoforms needed to sustain muscle-specific functions. Rbfox1 is abundant in vertebrate brain, heart and skeletal muscle. Genome-wide genetic approaches have linked the Rbfox1 gene to autism, and a brain-specific knockout mouse revealed a critical role for this splicing regulator in neuronal function. Moreover, a Caenorhabditis elegans Rbfox1 homolog regulates muscle-specific splicing. To determine the role of Rbfox1 in muscle function, we developed a conditional knockout mouse model to specifically delete Rbfox1 in adult tissue. We show that Rbfox1 is required for muscle function but a >70% loss of Rbfox1 in satellite cells does not disrupt muscle regeneration. Deep sequencing identified aberrant splicing of multiple genes including those encoding myofibrillar and cytoskeletal proteins, and proteins that regulate calcium handling. Ultrastructure analysis of Rbfox1(-/-) muscle by electron microscopy revealed abundant tubular aggregates. Immunostaining showed mislocalization of the sarcoplasmic reticulum proteins Serca1 and Ryr1 in a pattern indicative of colocalization with the tubular aggregates. Consistent with mislocalization of Serca1 and Ryr1, calcium handling was drastically altered in Rbfox1(-/-) muscle. Moreover, muscle function was significantly impaired in Rbfox1(-/-) muscle as indicated by decreased force generation. These results demonstrate that Rbfox1 regulates a network of AS events required to maintain multiple aspects of muscle physiology., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2015
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40. Heme-oxygenase-1 implications in cell morphology and the adhesive behavior of prostate cancer cells.

Author

Gueron G, Giudice J, Valacco P, Paez A, Elguero B, Toscani M, Jaworski F, Leskow FC, Cotignola J, Marti M, Binaghi M, Navone N, and Vazquez E

Subjects
Animals, Cell Adhesion, Down-Regulation, Humans, Male, Mice, Mice, Nude, Prostatic Neoplasms metabolism, Reactive Oxygen Species, Signal Transduction, Xenograft Model Antitumor Assays, Cadherins metabolism, Heme Oxygenase-1 genetics, Prostatic Neoplasms genetics, beta Catenin metabolism
Abstract

Prostate cancer (PCa) is the second leading cause of cancer death in men. Although previous studies in PCa have focused on cell adherens junctions (AJs), key players in metastasis, they have left the molecular mechanisms unexplored. Inflammation and the involvement of reactive oxygen species (ROS) are critical in the regulation of cell adhesion and the integrity of the epithelium. Heme oxygenase-1 (HO-1) counteracts oxidative and inflammatory damage. Here, we investigated whether HO-1 is implicated in the adhesive and morphological properties of tumor cells. Genes differentially regulated by HO-1 were enriched for cell motility and adhesion biological processes. HO-1 induction, increased E-cadherin and β-catenin levels. Immunofluorescence analyses showed a striking remodeling of E-cadherin/ β-catenin based AJs under HO-1 modulation. Interestingly, the enhanced levels of E-cadherin and β-catenin coincided with a markedly change in cell morphology. To further our analysis we sought to identify HO-1 binding proteins that might participate in the regulation of cell morphology. A proteomics approach identified Muskelin, as a novel HO-1 partner, strongly implicated in cell morphology regulation. These results define a novel role for HO-1 in modulating the architecture of cell-cell interactions, favoring a less aggressive phenotype and further supporting its anti-tumoral function in PCa.

Published
2014
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41. Alternative splicing regulates vesicular trafficking genes in cardiomyocytes during postnatal heart development.

Author

Giudice J, Xia Z, Wang ET, Scavuzzo MA, Ward AJ, Kalsotra A, Wang W, Wehrens XH, Burge CB, Li W, and Cooper TA

Subjects
Animals, CELF1 Protein, DNA-Binding Proteins genetics, Mice, RNA-Binding Proteins genetics, Sequence Analysis, RNA, Alternative Splicing genetics, Fibroblasts metabolism, Gene Expression Regulation, Developmental, Heart growth & development, Myocytes, Cardiac metabolism, RNA, Messenger metabolism, Vesicular Transport Proteins genetics
Abstract

During postnatal development the heart undergoes a rapid and dramatic transition to adult function through transcriptional and post-transcriptional mechanisms, including alternative splicing (AS). Here we perform deep RNA-sequencing on RNA from cardiomyocytes and cardiac fibroblasts to conduct a high-resolution analysis of transcriptome changes during postnatal mouse heart development. We reveal extensive changes in gene expression and AS that occur primarily between postnatal days 1 and 28. Cardiomyocytes and cardiac fibroblasts show reciprocal regulation of gene expression reflecting differences in proliferative capacity, cell adhesion functions and mitochondrial metabolism. We further demonstrate that AS plays a role in vesicular trafficking and membrane organization. These AS transitions are enriched among targets of two RNA-binding proteins, Celf1 and Mbnl1, which undergo developmentally regulated changes in expression. Vesicular trafficking genes affected by AS during normal development (when Celf1 is downregulated) show a reversion to neonatal splicing patterns after Celf1 re-expression in adults. Short-term Celf1 induction in adult animals results in disrupted transverse tubule organization and calcium handling. These results identify potential roles for AS in multiple aspects of postnatal heart maturation, including vesicular trafficking and intracellular membrane dynamics.

Published
2014
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42. Insulin receptor membrane retention by a traceable chimeric mutant.

Author

Giudice J, Jares-Erijman EA, and Leskow FC

Abstract

Background: The insulin receptor (IR) regulates glucose homeostasis, cell growth and differentiation. It has been hypothesized that the specific signaling characteristics of IR are in part determined by ligand-receptor complexes localization. Downstream signaling could be triggered from the plasma membrane or from endosomes. Regulation of activated receptor's internalization has been proposed as the mechanism responsible for the differential isoform and ligand-specific signaling., Results: We generated a traceable IR chimera that allows the labeling of the receptor at the cell surface. This mutant binds insulin but fails to get activated and internalized. However, the mutant heterodimerizes with wild type IR inhibiting its auto-phosphorylation and blocking its internalization. IR membrane retention attenuates AP-1 transcriptional activation favoring Akt activation., Conclusions: These results suggest that the mutant acts as a selective dominant negative blocking IR internalization-mediated signaling.

Published
2013
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43. Insulin and insulin like growth factor II endocytosis and signaling via insulin receptor B.

Author

Giudice J, Barcos LS, Guaimas FF, Penas-Steinhardt A, Giordano L, Jares-Erijman EA, and Coluccio Leskow F

Abstract

Background: Insulin and insulin-like growth factors (IGFs) act on tetrameric tyrosine kinase receptors controlling essential functions including growth, metabolism, reproduction and longevity. The insulin receptor (IR) binds insulin and IGFs with different affinities triggering different cell responses., Results: We showed that IGF-II induces cell proliferation and gene transcription when IR-B is over-expressed. We combined biotinylated ligands with streptavidin conjugated quantum dots and visible fluorescent proteins to visualize the binding of IGF-II and insulin to IR-B and their ensuing internalization. By confocal microscopy and flow cytometry in living cells, we studied the internalization kinetic through the IR-B of both IGF-II, known to elicit proliferative responses, and insulin, a regulator of metabolism., Conclusions: IGF-II promotes a faster internalization of IR-B than insulin. We propose that IGF-II differentially activates mitogenic responses through endosomes, while insulin-activated IR-B remains at the plasma membrane. This fact could facilitate the interaction with key effector molecules involved in metabolism regulation.

Published
2013
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44. Expression dynamics of the Medicago truncatula transcriptome during the symbiotic interaction with Sinorhizobium meliloti: which role for nitric oxide?

Author

Boscari A, Del Giudice J, Ferrarini A, Venturini L, Zaffini AL, Delledonne M, and Puppo A

Subjects
3' Untranslated Regions, 5' Untranslated Regions, Alternative Splicing, Exons, Gene Expression Regulation, Plant, Genes, Plant, High-Throughput Nucleotide Sequencing, Introns, Medicago truncatula genetics, Medicago truncatula metabolism, Molecular Sequence Annotation, Plant Root Nodulation, Plant Roots metabolism, Plant Roots microbiology, RNA, Plant genetics, Transcription Factors genetics, Transcription Factors metabolism, Transcription, Genetic, Medicago truncatula microbiology, Nitric Oxide metabolism, Sinorhizobium meliloti growth & development, Symbiosis, Transcriptome
Abstract

Medicago truncatula is one of the most studied model plants. Nevertheless, the genome of this legume remains incompletely determined. We used RNA-Seq to characterize the transcriptome during the early organogenesis of the nodule and during its functioning. We detected 37,333 expressed transcription units; to our knowledge, 1,670 had never been described before and were functionally annotated. We identified 7,595 new transcribed regions, mostly corresponding to 5' and 3' untranslated region extensions and new exons associated with 5,264 previously annotated genes. We also inferred 23,165 putative transcript isoforms from 6,587 genes and measured the abundance of transcripts for each isoform, which suggests an important role for alternative splicing in the generation of proteome diversity in M. truncatula. Finally, we carried out a differential expression analysis, which provided a comprehensive view of transcriptional reprogramming during nodulation. In particular, depletion of nitric oxide in roots inoculated with Sinorhizobium meliloti greatly increased our understanding of the role of this reactive species in the optimal establishment of the symbiotic interaction, revealing differential patterns of expression for 2,030 genes and pointing to the inhibition of the expression of defense genes.

Published
2013
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45. Unveiling the association of STAT3 and HO-1 in prostate cancer: role beyond heme degradation.

Author

Elguero B, Gueron G, Giudice J, Toscani MA, De Luca P, Zalazar F, Coluccio-Leskow F, Meiss R, Navone N, De Siervi A, and Vazquez E

Subjects
Animals, Cell Line, Tumor, Cytoplasm metabolism, Disease Models, Animal, Gene Expression, Heme Oxygenase-1 genetics, Humans, Male, Matrix Metalloproteinase 9 metabolism, Mice, Promoter Regions, Genetic, Prostate-Specific Antigen genetics, Prostatic Neoplasms genetics, Protein Binding, Protein Transport, Receptors, Androgen metabolism, Signal Transduction, Transplantation, Heterologous, Heme metabolism, Heme Oxygenase-1 metabolism, Prostatic Neoplasms metabolism, STAT3 Transcription Factor metabolism
Abstract

Activation of the androgen receptor (AR) is a key step in the development of prostate cancer (PCa). Several mechanisms have been identified in AR activation, among them signal transducer and activator of transcription 3 (STAT3) signaling. Disruption of STAT3 activity has been associated to cancer progression. Recent studies suggest that heme oxygenase 1 (HO-1) may play a key role in PCa that may be independent of its catalytic function. We sought to explore whether HO-1 operates on AR transcriptional activity through the STAT3 axis. Our results display that HO-1 induction in PCa cells represses AR activation by decreasing the prostate-specific antigen (PSA) promoter activity and mRNA levels. Strikingly, this is the first report to show by chromatin immunoprecipitation analysis that HO-1 associates to gene promoters, revealing a novel function for HO-1 in the nucleus. Furthermore, HO-1 and STAT3 directly interact as determined by co-immunoprecipitation studies. Forced expression of HO-1 increases STAT3 cytoplasmic retention. When PCa cells were transfected with a constitutively active STAT3 mutant, PSA and STAT3 downstream target genes were abrogated under hemin treatment. Additionally, a significant decrease in pSTAT3 protein levels was detected in the nuclear fraction of these cells. Confocal microscopy images exhibit a decreased rate of AR/STAT3 nuclear co-localization under hemin treatment. In vivo studies confirmed that STAT3 nuclear delimitation was significantly decreased in PC3 tumors overexpressing HO-1 grown as xenografts in nude mice. These results provide a novel function for HO-1 down-modulating AR transcriptional activity in PCa, interfering with STAT3 signaling, evidencing its role beyond heme degradation.

Published
2012
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46. Nitric oxide is required for an optimal establishment of the Medicago truncatula-Sinorhizobium meliloti symbiosis.

Author

Del Giudice J, Cam Y, Damiani I, Fung-Chat F, Meilhoc E, Bruand C, Brouquisse R, Puppo A, and Boscari A

Subjects
Bacterial Proteins genetics, Bacterial Proteins metabolism, Benzoates pharmacology, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Down-Regulation, Free Radical Scavengers, Gene Expression Regulation, Plant, Genes, Reporter, Hemeproteins genetics, Hemeproteins metabolism, Host-Pathogen Interactions, Imidazoles pharmacology, Medicago truncatula genetics, Medicago truncatula microbiology, Mutation, Nitric Oxide antagonists & inhibitors, Nitrogen Fixation, Phenotype, Plant Proteins genetics, Plant Proteins metabolism, Plant Roots genetics, Plant Roots metabolism, Plant Roots microbiology, Plants, Genetically Modified, Promoter Regions, Genetic genetics, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Signal Transduction, Sinorhizobium meliloti genetics, Medicago truncatula physiology, Nitric Oxide metabolism, Root Nodules, Plant growth & development, Sinorhizobium meliloti physiology, Symbiosis physiology
Abstract

Nitric oxide (NO) is a gaseous molecule that participates in numerous plant signalling pathways. It is involved in plant responses to pathogens and development processes such as seed germination, flowering and stomatal closure. Using a permeable NO-specific fluorescent probe and a bacterial reporter strain expressing the lacZ gene under the control of a NO-responsive promoter, we detected NO production in the first steps, during infection threads growth, of the Medicago truncatula-Sinorhizobium meliloti symbiotic interaction. Nitric oxide was also detected, by confocal microscopy, in nodule primordia. Depletion of NO caused by cPTIO (2-(4-carboxyphenyl)-4,4,5,5-tetramethyl imidazoline-1-oxyl-3-oxide), an NO scavenger, resulted in a significant delay in nodule appearance. The overexpression of a bacterial hmp gene, encoding a flavohaemoglobin able to scavenge NO, under the control of a nodule-specific promoter (pENOD20) in transgenic roots, led to the same phenotype. The NO scavenging resulting from these approaches provoked the downregulation of plant genes involved in nodule development, such as MtCRE1 and MtCCS52A. Furthermore, an Hmp-overexpressing S. meliloti mutant strain was found to be less competitive than the wild type in the nodulation process. Taken together, these results indicate that NO is required for an optimal establishment of the M. truncatula-S. meliloti symbiotic interaction., (© 2011 The Authors. New Phytologist © 2011 New Phytologist Trust.)

Published
2011
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47. Differential endocytosis and signaling dynamics of insulin receptor variants IR-A and IR-B.

Author

Giudice J, Leskow FC, Arndt-Jovin DJ, Jovin TM, and Jares-Erijman EA

Subjects
Alternative Splicing, Cell Membrane metabolism, Cell Membrane ultrastructure, Enzyme Activation, Extracellular Signal-Regulated MAP Kinases metabolism, HeLa Cells, Humans, Insulin chemistry, Insulin metabolism, Protein Isoforms genetics, Proto-Oncogene Proteins c-akt genetics, Proto-Oncogene Proteins c-akt metabolism, Pseudopodia metabolism, Pseudopodia ultrastructure, Quantum Dots, Receptor, Insulin genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Transcription Factor AP-1 genetics, Transcription Factor AP-1 metabolism, Transgenes, Endocytosis physiology, Protein Isoforms metabolism, Receptor, Insulin metabolism, Signal Transduction physiology
Abstract

Insulin signaling comprises a complex cascade of events, playing a key role in the regulation of glucose metabolism and cellular growth. Impaired response to insulin is the hallmark of diabetes, whereas upregulated insulin activity occurs in many cancers. Two splice variants of the insulin receptor (IR) exist in mammals: IR-A, lacking exon 11, and full-length IR-B. Although considerable biochemical data exist on insulin binding and downstream signaling, little is known about the dynamics of the IR itself. We created functional IR transgenes fused with visible fluorescent proteins for use in combination with biotinamido-caproyl insulin and streptavidin quantum dots. Using confocal and structured illumination microscopy, we visualized the endocytosis of both isoforms in living and fixed cells and demonstrated a higher rate of endocytosis of IR-A than IR-B. These differences correlated with higher and sustained activation of IR-A in response to insulin and with distinctive ERK1/2 activation profiles and gene transcription regulation. In addition, cells expressing IR-B showed higher AKT phosphorylation after insulin stimulation than cells expressing IR-A. Taken together, these results suggest that IR signaling is dependent on localization; internalized IRs regulate mitogenic activity, whereas metabolic balance signaling occurs at the cell membrane.

Published
2011
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48. Ocrelizumab, a humanized anti-CD20 monoclonal antibody, in the treatment of patients with rheumatoid arthritis: a phase I/II randomized, blinded, placebo-controlled, dose-ranging study.

Author

Genovese MC, Kaine JL, Lowenstein MB, Del Giudice J, Baldassare A, Schechtman J, Fudman E, Kohen M, Gujrathi S, Trapp RG, Sweiss NJ, Spaniolo G, and Dummer W

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Antibodies, Monoclonal adverse effects, Antibodies, Monoclonal, Humanized, Antirheumatic Agents administration & dosage, Arthritis, Rheumatoid immunology, B-Lymphocytes immunology, C-Reactive Protein immunology, Dose-Response Relationship, Drug, Double-Blind Method, Drug Administration Schedule, Drug Therapy, Combination, Female, Humans, Immunoglobulin M immunology, Immunologic Factors administration & dosage, Intention to Treat Analysis, Male, Methotrexate administration & dosage, Middle Aged, Patient Selection, Remission Induction, Severity of Illness Index, Treatment Outcome, Antibodies, Monoclonal administration & dosage, Arthritis, Rheumatoid therapy
Abstract

Objective: Ocrelizumab, a humanized anti-CD20 monoclonal antibody, was studied in a first-in-human trial in rheumatoid arthritis (RA) patients receiving concomitant methotrexate (MTX)., Methods: The ACTION trial was a combined phase I/II study of placebo plus MTX versus ocrelizumab plus MTX in 237 RA patients (intent-to-treat population). During phase I, 45 patients were treated with 1 of 5 escalating doses of study drug (infusions on days 1 and 15, 10-1,000 mg per each infusion). An additional 192 patients were randomized during phase II. Eligible patients had active disease, an inadequate response to treatment with at least MTX, rheumatoid factor positivity, and elevated levels of acute-phase reactants. The total study duration was 72 weeks. B cell pharmacodynamics over time was investigated., Results: Baseline demographics were similar among the treatment groups. Based on the entire 72-week data set, the incidence of serious adverse events in the ocrelizumab-treated patients was 17.9%, as compared with 14.6% in placebo-treated patients. The incidence of serious infections was 2.0% in all ocrelizumab-treated patients and 4.9% in placebo-treated patients. Infusion-associated adverse events were mostly grade 1 or grade 2 and were more frequent around the time of the first infusion. No serious infusion-associated adverse events were reported in the ocrelizumab group. Evidence of clinical activity was observed at all doses evaluated. Peripheral B cell depletion after infusion was rapid at all doses, with earlier repletion of B cells at doses of 10 mg and 50 mg. Human anti-human antibodies were detected in 19% and 10%, respectively, of those receiving 10 mg and 50 mg of ocrelizumab, compared with 0-5% of those receiving 200, 500, and 1,000 mg., Conclusion: Ocrelizumab therapy in combination with MTX was well tolerated. Doses of 200 mg (2 infusions) and higher showed better clinical responses, better reduction of C-reactive protein levels, and very low immunogenicity.

Published
2008
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49. Genetic and biochemical studies in Argentinean patients with variegate porphyria.

Author

Rossetti MV, Granata BX, Giudice J, Parera VE, and Batlle A

Subjects
Adolescent, Adult, Exons, Female, Frameshift Mutation, Genetic Carrier Screening, Heme biosynthesis, Humans, Male, Middle Aged, Mutation, Missense, Polymerase Chain Reaction, Porphyria, Variegate metabolism, Sequence Analysis, DNA, Flavoproteins genetics, Mitochondrial Proteins genetics, Porphyria, Variegate genetics, Protoporphyrinogen Oxidase genetics
Abstract

Background: A partial deficiency in Protoporphyrinogen oxidase (PPOX) produces the mixed disorder Variegate Porphyria (VP), the second acute porphyria more frequent in Argentina. Identification of patients with an overt VP is absolutely important because treatment depends on an accurate diagnosis but more critical is the identification of asymptomatic relatives to avoid acute attacks which may progress to death., Methods: We have studied at molecular level 18 new Argentinean patients biochemically diagnosed as VP. PPOX gene was amplified in one or in twelve PCR reactions. All coding exons, flanking intronic and promoter regions were manual or automatically sequenced. For RT-PCR studies RNA was retrotranscripted, amplified and sequenced. PPOX activity in those families carrying a new and uncharacterized mutation was performed., Results: All affected individuals harboured mutations in heterozygous state. Nine novel mutations and 3 already reported mutations were identified. Six of the novel mutations were single nucleotide substitutions, 2 were small deletions and one a small insertion. Three single nucleotide substitutions and the insertion were at exon-intron boundaries. Two of the single nucleotide substitutions, c.471G>A and c.807G>A and the insertion (c.388+3insT) were close to the splice donor sites in exons 5, 7 and intron 4 respectively. The other single nucleotide substitution was a transversion in the last base of intron 7, g.3912G>C (c.808-1G>C) so altering the consensus acceptor splice site. However, only in the first case the abnormal band showing the skipping of exon 5 was detected. The other single nucleotide substitutions were transversions: c.101A>T, c.995G>C and c.670 T>G that result in p.E34V, p.G332A and W224G aminoacid substitutions in exons 3, 10 and 7 respectively. Activity measurements indicate that these mutations reduced about 50% PPOX activity and also that they co-segregate with this reduced activity value. Two frameshift mutations, c.133delT and c.925delA, were detected in exons 3 and 9 respectively. The first leads to an early termination signal 22 codons downstream (p.S45fsX67) and the second leads to a stop codon 5 codons downstream (p.I309fsX314). One reported mutation was a missense mutation (p.G232R) and 2 were frameshift mutations: c.1082insC and 1043insT. The last mutation was detected in six new apparently unrelated Argentinean families., Conclusion: Molecular analysis in available family members revealed 14 individuals who were silent carriers of VP. Molecular techniques represent the most accurate approach to identify unaffected carriers and to provide accurate genetic counselling for asymptomatic individuals. The initial screening includes the insertion search.

Published
2008
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