Your search keyword '"Lorena Pantano"' showing total 85 results

1. Molecular characterization and cell type composition deconvolution of fibrosis in NAFLD

Author

Lorena Pantano, George Agyapong, Yang Shen, Zhu Zhuo, Francesc Fernandez-Albert, Werner Rust, Dagmar Knebel, Jon Hill, Carine M. Boustany-Kari, Julia F. Doerner, Jörg F. Rippmann, Raymond T. Chung, Shannan J. Ho Sui, Eric Simon, and Kathleen E. Corey

Subjects

Medicine, Science

Abstract

Abstract Non-alcoholic fatty liver disease (NAFLD) is the most common cause of liver disease worldwide. In adults with NAFLD, fibrosis can develop and progress to liver cirrhosis and liver failure. However, the underlying molecular mechanisms of fibrosis progression are not fully understood. Using total RNA-Seq, we investigated the molecular mechanisms of NAFLD and fibrosis. We sequenced liver tissue from 143 adults across the full spectrum of fibrosis stage including those with stage 4 fibrosis (cirrhosis). We identified gene expression clusters that strongly correlate with fibrosis stage including four genes that have been found consistently across previously published transcriptomic studies on NASH i.e. COL1A2, EFEMP2, FBLN5 and THBS2. Using cell type deconvolution, we estimated the loss of hepatocytes versus gain of hepatic stellate cells, macrophages and cholangiocytes with advancing fibrosis stage. Hepatocyte-specific functional analysis indicated increase of pro-apoptotic pathways and markers of bipotent hepatocyte/cholangiocyte precursors. Regression modelling was used to derive predictors of fibrosis stage. This study elucidated molecular and cell composition changes associated with increasing fibrosis stage in NAFLD and defined informative gene signatures for the disease.

Published

2021

2. Plasma MicroRNA Profiling of Plasmodium falciparum Biomass and Association with Severity of Malaria Disease

Author

Himanshu Gupta, Mercedes Rubio, Antonio Sitoe, Rosauro Varo, Pau Cisteró, Lola Madrid, Inocencia Cuamba, Alfons Jimenez, Xavier Martiáñez-Vendrell, Diana Barrios, Lorena Pantano, Allison Brimacombe, Mariona Bustamante, Quique Bassat, and Alfredo Mayor

Subjects

Plasmodium falciparum, miRNA, malaria, severe malaria, biomarkers, next-generation sequencing, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Severe malaria (SM) is a major public health problem in malaria-endemic countries. Sequestration of Plasmodium falciparum–infected erythrocytes in vital organs and the associated inflammation leads to organ dysfunction. MicroRNAs (miRNAs), which are rapidly released from damaged tissues into the host fluids, constitute a promising biomarker for the prognosis of SM. We applied next-generation sequencing to evaluate the differential expression of miRNAs in SM and in uncomplicated malaria (UM) in children in Mozambique. Six miRNAs were associated with in vitro P. falciparum cytoadhesion, severity in children, and P. falciparum biomass. Relative expression of hsa-miR-4497 quantified by TaqMan-quantitative reverse transcription PCR was higher in plasma of children with SM than those with UM (p

Published

2021

3. Nanchangmycin regulates FYN, PTK2, and MAPK1/3 to control the fibrotic activity of human hepatic stellate cells

Author

Wenyang Li, Jennifer Y Chen, Cheng Sun, Robert P Sparks, Lorena Pantano, Raza-Ur Rahman, Sean P Moran, Joshua V Pondick, Rory Kirchner, David Wrobel, Michael Bieler, Achim Sauer, Shannan J Ho Sui, Julia F Doerner, Jörg F Rippmann, and Alan C Mullen

Subjects

nanchangmycin, liver fibrosis, hepatic stellate cells, compound screening, FYN, collagen, Medicine, Science, Biology (General), QH301-705.5

Abstract

Chronic liver injury causes fibrosis, characterized by the formation of scar tissue resulting from excessive accumulation of extracellular matrix (ECM) proteins. Hepatic stellate cell (HSC) myofibroblasts are the primary cell type responsible for liver fibrosis, yet there are currently no therapies directed at inhibiting the activity of HSC myofibroblasts. To search for potential anti-fibrotic compounds, we performed a high-throughput compound screen in primary human HSC myofibroblasts and identified 19 small molecules that induce HSC inactivation, including the polyether ionophore nanchangmycin (NCMC). NCMC induces lipid re-accumulation while reducing collagen expression, deposition of collagen in the extracellular matrix, cell proliferation, and migration. We find that NCMC increases cytosolic Ca2+ and reduces the phosphorylated protein levels of FYN, PTK2 (FAK), MAPK1/3 (ERK2/1), HSPB1 (HSP27), and STAT5B. Further, depletion of each of these kinases suppress COL1A1 expression. These studies reveal a signaling network triggered by NCMC to inactivate HSC myofibroblasts and reduce expression of proteins that compose the fibrotic scar. Identification of the antifibrotic effects of NCMC and the elucidation of pathways by which NCMC inhibits fibrosis provide new tools and therapeutic targets that could potentially be utilized to combat the development and progression of liver fibrosis.

Published

2022

4. HDAC1 modulates OGG1-initiated oxidative DNA damage repair in the aging brain and Alzheimer’s disease

Author

Ping-Chieh Pao, Debasis Patnaik, L. Ashley Watson, Fan Gao, Ling Pan, Jun Wang, Chinnakkaruppan Adaikkan, Jay Penney, Hugh P. Cam, Wen-Chin Huang, Lorena Pantano, Audrey Lee, Alexi Nott, Trongha X. Phan, Elizabeta Gjoneska, Sara Elmsaouri, Stephen J. Haggarty, and Li-Huei Tsai

Subjects

Science

Abstract

Defects in DNA repair have been linked to brain aging and neurodegenerative disorders. Here the authors reveal a role for HDAC1 in stimulating OGG1 activity to alleviate 8-oxoG lesions with implications in the aging brain and neurodegenerative diseases.

Published

2020

5. Evolutionary and functional impact of common polymorphic inversions in the human genome

Author

Carla Giner-Delgado, Sergi Villatoro, Jon Lerga-Jaso, Magdalena Gayà-Vidal, Meritxell Oliva, David Castellano, Lorena Pantano, Bárbara D. Bitarello, David Izquierdo, Isaac Noguera, Iñigo Olalde, Alejandra Delprat, Antoine Blancher, Carles Lalueza-Fox, Tõnu Esko, Paul F. O’Reilly, Aida M. Andrés, Luca Ferretti, Marta Puig, and Mario Cáceres

Subjects

Science

Abstract

Inversions are a little-studied type of genomic variation that could contribute to phenotypic traits. Here the authors characterize 45 common polymorphic inversions in human populations and investigate their evolutionary and functional impact.

Published

2019

6. A High-Throughput Screening Identifies MicroRNA Inhibitors That Influence Neuronal Maintenance and/or Response to Oxidative Stress

Author

Joan Pallarès-Albanell, M. Teresa Zomeño-Abellán, Georgia Escaramís, Lorena Pantano, Aroa Soriano, Miguel F. Segura, and Eulàlia Martí

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

Small non-coding RNAs (sncRNAs), including microRNAs (miRNAs) are important post-transcriptional gene expression regulators relevant in physiological and pathological processes. Here, we combined a high-throughput functional screening (HTFS) platform with a library of antisense oligonucleotides (ASOs) to systematically identify sncRNAs that affect neuronal cell survival in basal conditions and in response to oxidative stress (OS), a major hallmark in neurodegenerative diseases. We considered hits commonly detected by two statistical methods in three biological replicates. Forty-seven ASOs targeting miRNAs (miRNA-ASOs) consistently decreased cell viability under basal conditions. A total of 60 miRNA-ASOs worsened cell viability impairment mediated by OS, with 36.6% commonly affecting cell viability under basal conditions. In addition, 40 miRNA-ASOs significantly protected neuronal cells from OS. In agreement with cell viability impairment, damaging miRNA-ASOs specifically induced increased free radical biogenesis. miRNAs targeted by the detrimental ASOs are enriched in the fraction of miRNAs downregulated by OS, suggesting that the miRNA expression pattern after OS contributes to neuronal damage. The present HTFS highlighted potentially druggable sncRNAs. However, future studies are needed to define the pathways by which the identified ASOs regulate cell survival and OS response and to explore the potential of translating the current findings into clinical applications. Keywords: miRNAs, non-coding RNAs, neurodegeneration, high-throughput screening, oxidative stress, mitochondrial function, expression profiles, small RNA sequencing

Published

2019

7. Empirical comparison of reduced representation bisulfite sequencing and Infinium BeadChip reproducibility and coverage of DNA methylation in humans

Author

Juan J. Carmona, William P. Accomando, Alexandra M. Binder, John N. Hutchinson, Lorena Pantano, Benedetta Izzi, Allan C. Just, Xihong Lin, Joel Schwartz, Pantel S. Vokonas, Sami S. Amr, Andrea A. Baccarelli, and Karin B. Michels

Subjects

Medicine, Genetics, QH426-470

Abstract

Epigenetics: choose your DNA methylation probing tool wisely! Researchers who study human epigenetics need to carefully consider the platform used to measure genome-wide patterns of DNA methylation. A team led by Karin Michels and Andrea Baccarelli from Harvard University in Boston, Massachusetts, USA, empirically examined the strengths and weaknesses of two methylation profiling tools: Illumina’s Infinium BeadChip, which uses a microarray system to interrogate hundreds of thousands of methylation sites across the genome at single-nucleotide resolution; and a high-throughput sequencing-based approach known as rapid multiplexed reduced representation bisulfite sequencing, or rmRRBS. The former did a better job at reading methylation in protein-coding and mitochondrial-related genes, while the latter required less input DNA and covered more methylation sites across the genome. The authors conclude that a scientist’s platform preference should depend on the nature of his or her investigation.

Published

2017

8. Sex-Dependent Changes in miRNA Expression in the Bed Nucleus of the Stria Terminalis Following Stress

Author

Maria Mavrikaki, Lorena Pantano, David Potter, Maximilian A. Rogers-Grazado, Eleni Anastasiadou, Frank J. Slack, Sami S. Amr, Kerry J. Ressler, Nikolaos P. Daskalakis, and Elena Chartoff

Subjects

miRNAs, stress, social isolation, small RNA sequencing, BNST, sex differences, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Anxiety disorders disproportionately affect women compared to men, which may arise from sex differences in stress responses. MiRNAs are small non-coding RNAs known to regulate gene expression through actions on mRNAs. MiRNAs are regulated, in part, by factors such as stress and gonadal sex, and they have been implicated in the pathophysiology of multiple psychiatric disorders. Here, we assessed putative sex differences in miRNA expression in the bed nucleus of the stria terminalis (BNST) – a sexually dimorphic brain region implicated in anxiety – of adult male and female rats that had been exposed to social isolation (SI) stress throughout adolescence. To assess the translational utility of our results, we assessed if childhood trauma in humans resulted in changes in blood miRNA expression that are similar to those observed in rats. Male and female Sprague-Dawley rats underwent SI during adolescence or remained group housed (GH) and were tested for anxiety-like behavior in the elevated plus maze as adults. Small RNA sequencing was performed on tissue extracted from the BNST. Furthermore, we re-analyzed an already available small RNA sequencing data set from the Grady Trauma Project (GTP) from men and women to identify circulating miRNAs that are associated with childhood trauma exposure. Our results indicated that there were greater anxiogenic-like effects and changes in BNST miRNA expression in SI versus GH females compared to SI versus GH males. In addition, we found nine miRNAs that were regulated in both the BNST from SI compared to GH rats and in blood samples from humans exposed to childhood trauma. These studies emphasize the utility of rodent models in studying neurobiological mechanisms underlying psychiatric disorders and suggest that rodent models could be used to identify novel sex-specific pharmacotherapies for anxiety disorders.

Published

2019

9. Visualization of the small RNA transcriptome using seqclusterViz [version 2; peer review: 2 approved]

Author

Lorena Pantano, Francisco Pantano, Eulalia Marti, and Shannan Ho Sui

Subjects

Medicine, Science

Abstract

The study of small RNAs provides us with a deeper understanding of the complexity of gene regulation within cells. Of the different types of small RNAs, the most important in mammals are miRNA, tRNA fragments and piRNAs. Using small RNA-seq analysis, we can study all small RNA types simultaneously, with the potential to detect novel small RNA types. We describe SeqclusterViz, an interactive HTML-javascript webpage for visualizing small noncoding RNAs (small RNAs) detected by Seqcluster. The SeqclusterViz tool allows users to visualize known and novel small RNA types in model or non-model organisms, and to select small RNA candidates for further validation. SeqclusterViz is divided into three panels: i) query-ready tables showing detected small RNA clusters and their genomic locations, ii) the expression profile over the precursor for all the samples together with RNA secondary structures, and iii) the mostly highly expressed sequences. Here, we show the capabilities of the visualization tool and its validation using human brain samples from patients with Parkinson’s disease.

Published

2019

10. Visualization of the small RNA transcriptome using seqclusterViz [version 1; peer review: 2 approved]

Author

Lorena Pantano, Francisco Pantano, Eulalia Marti, and Shannan Ho Sui

Subjects

Medicine, Science

Abstract

The study of small RNAs provides us with a deeper understanding of the complexity of gene regulation within cells. Of the different types of small RNAs, the most important in mammals are miRNA, tRNA fragments and piRNAs. Using small RNA-seq analysis, we can study all small RNA types simultaneously, with the potential to detect novel small RNA types. We describe SeqclusterViz, an interactive HTML-javascript webpage for visualizing small noncoding RNAs (small RNAs) detected by Seqcluster. The SeqclusterViz tool allows users to visualize known and novel small RNA types in model or non-model organisms, and to select small RNA candidates for further validation. SeqclusterViz is divided into three panels: i) query-ready tables showing detected small RNA clusters and their genomic locations, ii) the expression profile over the precursor for all the samples together with RNA secondary structures, and iii) the mostly highly expressed sequences. Here, we show the capabilities of the visualization tool and its validation using human brain samples from patients with Parkinson’s disease .

Published

2019

11. Circulating miRNAs, isomiRs and small RNA clusters in human plasma and breast milk.

Author

Mercedes Rubio, Mariona Bustamante, Carles Hernandez-Ferrer, Dietmar Fernandez-Orth, Lorena Pantano, Yaris Sarria, Maria Piqué-Borras, Kilian Vellve, Silvia Agramunt, Ramon Carreras, Xavier Estivill, Juan R Gonzalez, and Alfredo Mayor

Subjects

Medicine, Science

Abstract

Circulating small RNAs, including miRNAs but also isomiRs and other RNA species, have the potential to be used as non-invasive biomarkers for communicable and non-communicable diseases. This study aims to characterize and compare small RNA profiles in human biofluids. For this purpose, RNA was extracted from plasma and breast milk samples from 15 healthy postpartum mothers. Small RNA libraries were prepared with the NEBNext® small RNA library preparation kit and sequenced in an Illumina HiSeq2000 platform. miRNAs, isomiRs and clusters of small RNAs were annotated using seqBuster/seqCluster framework in 5 plasma and 10 milk samples that passed the initial quality control. The RNA yield was 81 ng/mL [standard deviation (SD): 41] and 3985 ng/mL (SD: 3767) for plasma and breast milk, respectively. Mean number of good quality reads was 4.04 million (M) (40.01% of the reads) in plasma and 12.5M (89.6%) in breast milk. One thousand one hundred eighty two miRNAs, 12,084 isomiRs and 1,053 small RNA clusters that included piwi-interfering RNAs (piRNAs), tRNAs, small nucleolar RNAs (snoRNA) and small nuclear RNAs (snRNAs) were detected. Samples grouped by biofluid, with 308 miRNAs, 1,790 isomiRs and 778 small RNA clusters differentially detected. In summary, plasma and milk showed a different small RNA profile. In both, miRNAs, piRNAs, tRNAs, snRNAs, and snoRNAs were identified, confirming the presence of non-miRNA species in plasma, and describing them for the first time in milk.

Published

2018

12. Viewing RNA-seq data on the entire human genome [version 1; referees: 3 approved]

Author

Eric M. Weitz, Lorena Pantano, Jingzhi Zhu, Bennett Upton, and Ben Busby

Subjects

Bioinformatics, Genomics, Medicine, Science

Abstract

RNA-Seq Viewer is a web application that enables users to visualize genome-wide expression data from NCBI’s Sequence Read Archive (SRA) and Gene Expression Omnibus (GEO) databases. The application prototype was created by a small team during a three-day hackathon facilitated by NCBI at Brandeis University. The backend data pipeline was developed and deployed on a shared AWS EC2 instance. Source code is available at https://github.com/NCBI-Hackathons/rnaseqview.

Published

2017

13. Functional Impact and Evolution of a Novel Human Polymorphic Inversion That Disrupts a Gene and Creates a Fusion Transcript.

Author

Marta Puig, David Castellano, Lorena Pantano, Carla Giner-Delgado, David Izquierdo, Magdalena Gayà-Vidal, José Ignacio Lucas-Lledó, Tõnu Esko, Chikashi Terao, Fumihiko Matsuda, and Mario Cáceres

Subjects

Genetics, QH426-470

Abstract

Despite many years of study into inversions, very little is known about their functional consequences, especially in humans. A common hypothesis is that the selective value of inversions stems in part from their effects on nearby genes, although evidence of this in natural populations is almost nonexistent. Here we present a global analysis of a new 415-kb polymorphic inversion that is among the longest ones found in humans and is the first with clear position effects. This inversion is located in chromosome 19 and has been generated by non-homologous end joining between blocks of transposable elements with low identity. PCR genotyping in 541 individuals from eight different human populations allowed the detection of tag SNPs and inversion genotyping in multiple populations worldwide, showing that the inverted allele is mainly found in East Asia with an average frequency of 4.7%. Interestingly, one of the breakpoints disrupts the transcription factor gene ZNF257, causing a significant reduction in the total expression level of this gene in lymphoblastoid cell lines. RNA-Seq analysis of the effects of this expression change in standard homozygotes and inversion heterozygotes revealed distinct expression patterns that were validated by quantitative RT-PCR. Moreover, we have found a new fusion transcript that is generated exclusively from inverted chromosomes around one of the breakpoints. Finally, by the analysis of the associated nucleotide variation, we have estimated that the inversion was generated ~40,000-50,000 years ago and, while a neutral evolution cannot be ruled out, its current frequencies are more consistent with those expected for a deleterious variant, although no significant association with phenotypic traits has been found so far.

Published

2015

14. A pathogenic mechanism in Huntington's disease involves small CAG-repeated RNAs with neurotoxic activity.

Author

Mónica Bañez-Coronel, Silvia Porta, Birgit Kagerbauer, Elisabet Mateu-Huertas, Lorena Pantano, Isidre Ferrer, Manuel Guzmán, Xavier Estivill, and Eulàlia Martí

Subjects

Genetics, QH426-470

Abstract

Huntington's disease (HD) is an autosomal dominantly inherited disorder caused by the expansion of CAG repeats in the Huntingtin (HTT) gene. The abnormally extended polyglutamine in the HTT protein encoded by the CAG repeats has toxic effects. Here, we provide evidence to support that the mutant HTT CAG repeats interfere with cell viability at the RNA level. In human neuronal cells, expanded HTT exon-1 mRNA with CAG repeat lengths above the threshold for complete penetrance (40 or greater) induced cell death and increased levels of small CAG-repeated RNAs (sCAGs), of ≈21 nucleotides in a Dicer-dependent manner. The severity of the toxic effect of HTT mRNA and sCAG generation correlated with CAG expansion length. Small RNAs obtained from cells expressing mutant HTT and from HD human brains significantly decreased neuronal viability, in an Ago2-dependent mechanism. In both cases, the use of anti-miRs specific for sCAGs efficiently blocked the toxic effect, supporting a key role of sCAGs in HTT-mediated toxicity. Luciferase-reporter assays showed that expanded HTT silences the expression of CTG-containing genes that are down-regulated in HD. These results suggest a possible link between HD and sCAG expression with an aberrant activation of the siRNA/miRNA gene silencing machinery, which may trigger a detrimental response. The identification of the specific cellular processes affected by sCAGs may provide insights into the pathogenic mechanisms underlying HD, offering opportunities to develop new therapeutic approaches.

Published

2012

15. Identification of copy number variants defining genomic differences among major human groups.

Author

Lluís Armengol, Sergi Villatoro, Juan R González, Lorena Pantano, Manel García-Aragonés, Raquel Rabionet, Mario Cáceres, and Xavier Estivill

Subjects

Medicine, Science

Abstract

BACKGROUND:Understanding the genetic contribution to phenotype variation of human groups is necessary to elucidate differences in disease predisposition and response to pharmaceutical treatments in different human populations. METHODOLOGY/PRINCIPAL FINDINGS:We have investigated the genome-wide profile of structural variation on pooled samples from the three populations studied in the HapMap project by comparative genome hybridization (CGH) in different array platforms. We have identified and experimentally validated 33 genomic loci that show significant copy number differences from one population to the other. Interestingly, we found an enrichment of genes related to environment adaptation (immune response, lipid metabolism and extracellular space) within these regions and the study of expression data revealed that more than half of the copy number variants (CNVs) translate into gene-expression differences among populations, suggesting that they could have functional consequences. In addition, the identification of single nucleotide polymorphisms (SNPs) that are in linkage disequilibrium with the copy number alleles allowed us to detect evidences of population differentiation and recent selection at the nucleotide variation level. CONCLUSIONS:Overall, our results provide a comprehensive view of relevant copy number changes that might play a role in phenotypic differences among major human populations, and generate a list of interesting candidates for future studies.

Published

2009

16. Unification of miRNA and isomiR research: the mirGFF3 format and the mirtop API.

Author

Thomas Desvignes, Phillipe Loher, Karen Eilbeck, Jeffery Ma, Gianvito Urgese, Bastian Fromm, Jason Sydes, Ernesto Aparicio-Puerta, Víctor Barrera, Roderic Espín, Florian Thibord, Xavier Bofill-De Ros, Eric Londin, Aristeidis G. Telonis, Elisa Ficarra, Marc R. Friedländer, John H. Postlethwait, Isidore Rigoutsos, Michael Hackenberg, Ioannis S. Vlachos, Marc K. Halushka, and Lorena Pantano

Published

2020

17. Screening for Inhibitors of YAP Nuclear Localization Identifies Aurora Kinase A as a Modulator of Lung Fibrosis

Author

Yang Yang, Daniela M. Santos, Lorena Pantano, Rachel Knipe, Elizabeth Abe, Amanda Logue, Gina Pronzati, Katharine E. Black, Jillian J. Spinney, Francesca Giacona, Michael Bieler, Cedrickx Godbout, Paul Nicklin, David Wyatt, Andrew M. Tager, Peter Seither, Franziska E. Herrmann, and Benjamin D. Medoff

Subjects

Cell Nucleus, Pulmonary and Respiratory Medicine, Pulmonary Fibrosis, Clinical Biochemistry, Cell Cycle Proteins, YAP-Signaling Proteins, Cell Biology, Fibroblasts, Phosphoproteins, Idiopathic Pulmonary Fibrosis, Mice, Transforming Growth Factor beta, Animals, Humans, Molecular Biology, Original Research, Adaptor Proteins, Signal Transducing, Aurora Kinase A

Abstract

Idiopathic pulmonary fibrosis is a progressive lung disease with limited therapeutic options that is characterized by pathological fibroblast activation and aberrant lung remodeling with scar formation. YAP (Yes-associated protein) is a transcriptional coactivator that mediates mechanical and biochemical signals controlling fibroblast activation. We previously identified HMG-CoA (3-hydroxy-3-methylglutaryl coenzyme A) reductase inhibitors (statins) as YAP inhibitors based on a high-throughput small-molecule screen in primary human lung fibroblasts. Here we report that several Aurora kinase inhibitors were also identified from the top hits of this screen. MK-5108, a highly selective inhibitor for AURKA (Aurora kinase A), induced YAP phosphorylation and cytoplasmic retention and significantly reduced profibrotic gene expression in human lung fibroblasts. The inhibitory effect on YAP nuclear translocation and profibrotic gene expression is specific to inhibition of AURKA, but not Aurora kinase B or C, and is independent of the Hippo pathway kinases LATS1 and LATS2 (Large Tumor Suppressor 1 and 2). Further characterization of the effects of MK-5108 demonstrate that it inhibits YAP nuclear localization indirectly via effects on actin polymerization and TGFβ (Transforming Growth Factor β) signaling. In addition, MK-5108 treatment reduced lung collagen deposition in the bleomycin mouse model of pulmonary fibrosis. Our results reveal a novel role for AURKA in YAP-mediated profibrotic activity in fibroblasts and highlight the potential of small-molecule screens for YAP inhibitors for identification of novel agents with antifibrotic activity.

Published

2022

18. Specific small-RNA signatures in the amygdala at premotor and motor stages of Parkinson's disease revealed by deep sequencing analysis.

Author

Lorena Pantano, Marc R. Friedländer, Geòrgia Escaramís, Esther Lizano, Joan Pallarès-Albanell, Isidre Ferrer, Xavier Estivill, and Eulalia Martí

Published

2016

19. bcbioRNASeq: R package for bcbio RNA-seq analysis [version 2; referees: 1 approved, 1 approved with reservations]

Author

Michael J. Steinbaugh, Lorena Pantano, Rory D. Kirchner, Victor Barrera, Brad A. Chapman, Mary E. Piper, Meeta Mistry, Radhika S. Khetani, Kayleigh D. Rutherford, Oliver Hofmann, John N. Hutchinson, and Shannan Ho Sui

Subjects

Software Tool Article, Articles, Bioinformatics, Genomics, RNA-seq, quality control, differential expression, functional analysis, data import, visualization, report writing, R Markdown

Abstract

RNA-seq analysis involves multiple steps, from processing raw sequencing data to identifying, organizing, annotating, and reporting differentially expressed genes. bcbio is an open source, community-maintained framework providing automated and scalable RNA-seq methods for identifying gene abundance counts. We have developed bcbioRNASeq, a Bioconductor package that provides ready-to-render templates, objects and wrapper functions to post-process bcbio RNA sequencing output data. bcbioRNASeq helps automate the generation of high-level RNA-seq reports, facilitating the quality control analyses, identification of differentially expressed genes and functional enrichment analyses.

Published

2018

20. bcbioRNASeq: R package for bcbio RNA-seq analysis [version 1; referees: 2 approved with reservations]

Author

Michael J. Steinbaugh, Lorena Pantano, Rory D. Kirchner, Victor Barrera, Brad A. Chapman, Mary E. Piper, Meeta Mistry, Radhika S. Khetani, Kayleigh D. Rutherford, Oliver Hofmann, John N. Hutchinson, and Shannan Ho Sui

Subjects

Software Tool Article, Articles, Bioinformatics, Genomics, RNA-seq, pipeline, quality metrics, differential expression, functional analysis, RMarkdown, report

Abstract

RNA-seq analysis involves multiple steps from processing raw sequencing data to identifying, organizing, annotating, and reporting differentially expressed genes. bcbio is an open source, community-maintained framework providing automated and scalable RNA-seq methods for identifying gene abundance counts. We have developed bcbioRNASeq, a Bioconductor package that provides ready-to-render templates and wrapper functions to post-process bcbio output data. bcbioRNASeq automates the generation of high-level RNA-seq reports, including identification of differentially expressed genes, functional enrichment analysis and quality control analysis.

Published

2017

21. InvFEST, a database integrating information of polymorphic inversions in the human genome.

Author

Alexander Martínez-Fundichely, Sònia Casillas, Raquel Egea, Miquel Ràmia, Antonio Barbadilla, Lorena Pantano, Marta Puig, and Mario Cáceres

Published

2014

22. Huntington’s disease brain-derived small RNAs recapitulate associated neuropathology in mice

Author

Anna Guisado-Corcoll, Maria Solaguren-Beascoa, Geòrgia Escaramís, Jordi Creus-Muncunill, Cristina Navarrete, Esther Pérez-Navarro, Veronica Venturi, Eulàlia Martí, Daniela Diaz-Lucena, Franc Llorens, Marta García de Herreros, Mercè Masana, Ana Gámez-Valero, and Lorena Pantano

Subjects

0301 basic medicine, Huntingtin, Putamen, Neurotoxicity, RNA, Neuropathology, Biology, medicine.disease, Medium spiny neuron, Pathology and Forensic Medicine, Cell biology, 03 medical and health sciences, Cellular and Molecular Neuroscience, 030104 developmental biology, 0302 clinical medicine, Huntington's disease, medicine, Neurology (clinical), Trinucleotide repeat expansion, 030217 neurology & neurosurgery

Abstract

Progressive motor alterations and selective death of striatal medium spiny neurons (MSNs) are key pathological hallmarks of Huntington's disease (HD), a neurodegenerative condition caused by a CAG trinucleotide repeat expansion in the coding region of the huntingtin (HTT) gene. Most research has focused on the pathogenic effects of the resultant protein product(s); however, growing evidence indicates that expanded CAG repeats within mutant HTT mRNA and derived small CAG repeat RNAs (sCAG) participate in HD pathophysiology. The individual contribution of protein versus RNA toxicity to HD pathophysiology remains largely uncharacterized and the role of other classes of small RNAs (sRNA) that are strongly perturbed in HD is uncertain. Here, we demonstrate that sRNA produced in the putamen of HD patients (HD-sRNA-PT) are sufficient to induce HD pathology in vivo. Mice injected with HD-sRNA-PT show motor abnormalities, decreased levels of striatal HD-related proteins, disruption of the indirect pathway, and strong transcriptional abnormalities, paralleling human HD pathology. Importantly, we show that the specific blockage of sCAG mitigates HD-sRNA-PT neurotoxicity only to a limited extent. This observation prompted us to identify other sRNA species enriched in HD putamen with neurotoxic potential. We detected high levels of tRNA fragments (tRFs) in HD putamen, and we validated the neurotoxic potential of an Alanine derived tRF in vitro. These results highlight that HD-sRNA-PT are neurotoxic, and suggest that multiple sRNA species contribute to striatal dysfunction and general transcriptomic changes, favoring therapeutic strategies based on the blockage of sRNA-mediated toxicity.

Published

2021

23. Plasma MicroRNA Profiling of Plasmodium falciparum Biomass and Association with Severity of Malaria Disease

Author

Rosauro Varo, Mariona Bustamante, Mercedes Rubio, Himanshu Gupta, Antonio Sitoe, Pau Cisteró, Xavier Martiáñez-Vendrell, Quique Bassat, Allison Brimacombe, Lorena Pantano, Diana Barrios, Alfredo Mayor, Lola Madrid, Alfons Jiménez, and Inocencia Cuamba

Subjects

Microbiology (medical), Epidemiology, 030231 tropical medicine, Plasmodium falciparum, malaria, lcsh:Medicine, Inflammation, Disease, Biology, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Histidine-rich protein 2, 0302 clinical medicine, microRNA, parasitic diseases, medicine, Humans, Parasites, lcsh:RC109-216, Biomass, 030212 general & internal medicine, Malaria, Falciparum, Child, Mozambique, miRNA, Research, Organ dysfunction, lcsh:R, biomarkers, Vector-borne infections, biology.organism_classification, medicine.disease, Reverse transcription polymerase chain reaction, MicroRNAs, Infectious Diseases, Spain, Immunology, severe malaria, Biomarker (medicine), next-generation sequencing, Plasma MicroRNA Profiling of Plasmodium falciparum Biomass and Association with Severity of Malaria Disease, medicine.symptom, Malaria

Abstract

Severe malaria (SM) is a major public health problem in malaria-endemic countries. Sequestration of Plasmodium falciparum–infected erythrocytes in vital organs and the associated inflammation leads to organ dysfunction. MicroRNAs (miRNAs), which are rapidly released from damaged tissues into the host fluids, constitute a promising biomarker for the prognosis of SM. We applied next-generation sequencing to evaluate the differential expression of miRNAs in SM and in uncomplicated malaria (UM) in children in Mozambique. Six miRNAs were associated with in vitro P. falciparum cytoadhesion, severity in children, and P. falciparum biomass. Relative expression of hsa-miR-4497 quantified by TaqMan-quantitative reverse transcription PCR was higher in plasma of children with SM than those with UM (p

Published

2021

24. Author response: Nanchangmycin regulates FYN, PTK2, and MAPK1/3 to control the fibrotic activity of human hepatic stellate cells

Author

Wenyang Li, Jennifer Y Chen, Cheng Sun, Robert P Sparks, Lorena Pantano, Raza-Ur Rahman, Sean P Moran, Joshua V Pondick, Rory Kirchner, David Wrobel, Michael Bieler, Achim Sauer, Shannan J Ho Sui, Julia F Doerner, Jörg F Rippmann, and Alan C Mullen

Published

2022

25. COMPSRA: a COMprehensive Platform for Small RNA-Seq data Analysis

Author

Kelan G. Tantisira, Robert P. Chase, Alvin T. Kho, Jiang Li, Lorena Pantano, Sami S. Amr, and Leanna Farnam

Subjects

Small RNA, Computer science, Piwi-interacting RNA, lcsh:Medicine, Computational biology, Article, 03 medical and health sciences, 0302 clinical medicine, Component (UML), microRNA, Humans, Nucleotide, Small nucleolar RNA, lcsh:Science, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Internet, Multidisciplinary, Sequence Analysis, RNA, lcsh:R, Computational Biology, High-Throughput Nucleotide Sequencing, Serum samples, Healthy Volunteers, Data processing, chemistry, Sequence annotation, 030220 oncology & carcinogenesis, RNA, Small Untranslated, lcsh:Q, Small nuclear RNA, Software

Abstract

Small RNA-Seq is a common means to interrogate the small RNA’ome or the full spectrum of small RNAs (https://github.com/cougarlj/COMPSRA.

Published

2020

26. Abstract 10223: Tissue-Entrapped Extracellular Vesicles Modulate Divergent Mechanisms of Cardiovascular Calcification

Author

Mark C Blaser, Fabrizio Buffolo, Arda Halu, Florian Schlotter, Hideyuki Higashi, Lorena Pantano Rubino, Louis A Saddic, Samantha Atkins, Maximillian Rogers, Tan Pham, Amelie Vromman, Eugenia Shvartz, Galina K Sukhova, Silvia MONTICONE, giovanni. camussi, Simon C Body, Tsuyoshi Kaneko, J Daniel D Muehlschlegel, Sasha A Singh, Masanori Aikawa, and Elena Aikawa

Subjects

Physiology (medical), Cardiology and Cardiovascular Medicine

Abstract

Introduction: Fewer than 50% of patients develop vascular and valvular calcification, implying differential pathogenesis. Tissue-entrapped extracellular vesicles (EVs) are implicated in mineralization but their contents and functions are unstudied. We investigated entrapped EV cargoes in human cardiovascular disease. Methods: Human carotid endarterectomy specimens and stenotic aortic valves were obtained from 53 patients. Disease stage-specific proteomics was performed on whole tissue (non-diseased/fibrotic/calcified areas). Tissue EVs were enriched by gradient fractionation then underwent proteomics and miRNA-seq. miR targets were predicted by TargetScan, pathway analyses utilized BioCarta/KEGG/Reactome, and protein-protein interaction networks employed STRING. Results: Disease progression drove significant convergence (p Conclusions: This first comparative proteomics study of human valves and arteries finds shared EV functionality in both diseases. Using novel means to examine tissue EV molecular cargoes, we also reveal critical divergent tissue-specific roles for EVs in mediating cardiovascular disease.

Published

2021

27. Nanchangmycin regulates FYN, FAK and ERK to control the fibrotic activity of hepatic stellate cells

Author

S. J. Ho Sui, Sean P. Moran, Alan C. Mullen, D. Wrobel, Rory Kirchner, Juxiang Chen, Joshua V. Pondick, M. Bieler, J. F. Doerner, R. P. Sparks, Jörg F. Rippmann, Wei Li, Raza-Ur Rahman, Lorena Pantano, and Chi-Kuang Sun

Subjects

MAPK/ERK pathway, biology, Chemistry, Cell growth, medicine.disease, Cell biology, Extracellular matrix, FYN, Hsp27, Fibrosis, Hepatic stellate cell, biology.protein, medicine, Myofibroblast

Abstract

Chronic liver injury causes fibrosis, characterized by the formation of scar tissue resulting from excessive accumulation of extracellular matrix (ECM) proteins. Hepatic stellate cell (HSC) myofibroblasts are the primary cell type responsible for liver fibrosis, yet there are currently no therapies directed at inhibiting the activity of HSC myofibroblasts. To search for potential anti-fibrotic drugs, we performed a high-throughput compound screen in primary human HSC myofibroblasts and identified 19 small molecules that induce HSC inactivation, including the polyether ionophore nanchangmycin (NCMC). NCMC induces lipid re-accumulation while reducing collagen expression, deposition of collagen in the extracellular matrix, cell proliferation, and migration. We find that NCMC increases cytosolic Ca2+ and reduces the phosphorylated protein levels of FYN, FAK, ERK1/2, HSP27 and STAT5B. Further, depletion of each of these kinases suppress COL1A1 expression. These studies reveal a signaling network triggered by NCMC to inactivate HSC myofibroblasts and reduce expression of proteins that compose the fibrotic scar. The identification of the antifibrotic effects of NCMC and the pathways by which NCMC inhibits fibrosis provides new tools and therapeutic targets to combat the development and progression of liver fibrosis.

Published

2021

28. Nanchangmycin regulates FYN, PTK2, and MAPK1/3 to control the fibrotic activity of human hepatic stellate cells

Author

Wenyang Li, Jennifer Y Chen, Cheng Sun, Robert P Sparks, Lorena Pantano, Raza-Ur Rahman, Sean P Moran, Joshua V Pondick, Rory Kirchner, David Wrobel, Michael Bieler, Achim Sauer, Shannan J Ho Sui, Julia F Doerner, Jörg F Rippmann, and Alan C Mullen

Subjects

Liver Cirrhosis, Mitogen-Activated Protein Kinase 1, Extracellular Matrix Proteins, General Immunology and Microbiology, General Neuroscience, General Medicine, Fibrosis, General Biochemistry, Genetics and Molecular Biology, Cicatrix, Focal Adhesion Kinase 1, Hepatic Stellate Cells, Humans, Spiro Compounds, Collagen, Ethers

Abstract

Chronic liver injury causes fibrosis, characterized by the formation of scar tissue resulting from excessive accumulation of extracellular matrix (ECM) proteins. Hepatic stellate cell (HSC) myofibroblasts are the primary cell type responsible for liver fibrosis, yet there are currently no therapies directed at inhibiting the activity of HSC myofibroblasts. To search for potential anti-fibrotic compounds, we performed a high-throughput compound screen in primary human HSC myofibroblasts and identified 19 small molecules that induce HSC inactivation, including the polyether ionophore nanchangmycin (NCMC). NCMC induces lipid re-accumulation while reducing collagen expression, deposition of collagen in the extracellular matrix, cell proliferation, and migration. We find that NCMC increases cytosolic Ca2+ and reduces the phosphorylated protein levels of FYN, PTK2 (FAK), MAPK1/3 (ERK2/1), HSPB1 (HSP27), and STAT5B. Further, depletion of each of these kinases suppress COL1A1 expression. These studies reveal a signaling network triggered by NCMC to inactivate HSC myofibroblasts and reduce expression of proteins that compose the fibrotic scar. Identification of the antifibrotic effects of NCMC and the elucidation of pathways by which NCMC inhibits fibrosis provide new tools and therapeutic targets that could potentially be utilized to combat the development and progression of liver fibrosis.

Published

2021

29. Molecular characterization and cell type composition deconvolution of fibrosis in NAFLD

Author

Jon Hill, Kathleen E. Corey, Dagmar Knebel, Raymond T. Chung, Lorena Pantano, Eric Simon, Shannan J. Ho Sui, George Agyapong, Zhu Zhuo, Julia F Doerner, Carine M. Boustany-Kari, Francesc Fernandez-Albert, Yang Shen, Jörg F. Rippmann, and Werner Rust

Subjects

Adult, Liver Cirrhosis, Male, Pathology, medicine.medical_specialty, Cirrhosis, Science, Biology, Genome informatics, Article, Cholangiocyte, Transcriptome, Liver disease, Non-alcoholic Fatty Liver Disease, Fibrosis, medicine, Computational models, Data Mining, Humans, Transcriptomics, Multidisciplinary, Hepatology, Gene Expression Profiling, Fatty liver, Computational Biology, High-Throughput Nucleotide Sequencing, Middle Aged, medicine.disease, Immunohistochemistry, Computational biology and bioinformatics, Data processing, medicine.anatomical_structure, Cellular Microenvironment, Gene Expression Regulation, Organ Specificity, Hepatocyte, Hepatic stellate cell, Medicine, Data integration, Female, Disease Susceptibility, Transcription, Biomarkers

Abstract

Non-alcoholic fatty liver disease (NAFLD) is the most common cause of liver disease worldwide. In adults with NAFLD, fibrosis can develop and progress to liver cirrhosis and liver failure. However, the underlying molecular mechanisms of fibrosis progression are not fully understood. Using total RNA-Seq, we investigated the molecular mechanisms of NAFLD and fibrosis. We sequenced liver tissue from 143 adults across the full spectrum of fibrosis stage including those with stage 4 fibrosis (cirrhosis). We identified gene expression clusters that strongly correlate with fibrosis stage including four genes that have been found consistently across previously published transcriptomic studies on NASH i.e. COL1A2, EFEMP2, FBLN5 and THBS2. Using cell type deconvolution, we estimated the loss of hepatocytes versus gain of hepatic stellate cells, macrophages and cholangiocytes with advancing fibrosis stage. Hepatocyte-specific functional analysis indicated increase of pro-apoptotic pathways and markers of bipotent hepatocyte/cholangiocyte precursors. Regression modelling was used to derive predictors of fibrosis stage. This study elucidated molecular and cell composition changes associated with increasing fibrosis stage in NAFLD and defined informative gene signatures for the disease.

Published

2021

30. Multi omics analysis of fibrotic kidneys in two mouse models

Author

Sergine Brutus, Lorena Pantano, Cory V. Gerlach, Sarah A. Boswell, Shannan J. Ho Sui, Vishal S. Vaidya, Mira Pavkovic, Robert A. Everley, and Jagesh V. Shah

Subjects

Statistics and Probability, Proteomics, Small RNA, Data Descriptor, 010504 meteorology & atmospheric sciences, Proteome, Computational biology, Library and Information Sciences, Tandem mass tag, 01 natural sciences, Education, Nephropathy, Transcriptome, 03 medical and health sciences, Mice, Fibrosis, Target identification, microRNA, medicine, Animals, RNA, Messenger, Transcriptomics, lcsh:Science, 030304 developmental biology, 0105 earth and related environmental sciences, 0303 health sciences, business.industry, medicine.disease, 3. Good health, Computer Science Applications, Disease Models, Animal, MicroRNAs, miRNAs, Kidney Diseases, lcsh:Q, Statistics, Probability and Uncertainty, business, Biomarkers, Information Systems, Ureteral Obstruction

Abstract

Kidney fibrosis represents an urgent unmet clinical need due to the lack of effective therapies and an inadequate understanding of the molecular pathogenesis. We have generated a comprehensive and combined multi-omics dataset (proteomics, mRNA and small RNA transcriptomics) of fibrotic kidneys that is searchable through a user-friendly web application: http://hbcreports.med.harvard.edu/fmm/. Two commonly used mouse models were utilized: a reversible chemical-induced injury model (folic acid (FA) induced nephropathy) and an irreversible surgically-induced fibrosis model (unilateral ureteral obstruction (UUO)). mRNA and small RNA sequencing, as well as 10-plex tandem mass tag (TMT) proteomics were performed with kidney samples from different time points over the course of fibrosis development. The bioinformatics workflow used to process, technically validate, and combine the single omics data will be described. In summary, we present temporal multi-omics data from fibrotic mouse kidneys that are accessible through an interrogation tool (Mouse Kidney Fibromics browser) to provide a searchable transcriptome and proteome for kidney fibrosis researchers., Design Type(s)transcription profiling design • proteomic profiling design • stimulus or stress designMeasurement Type(s)transcription profiling assay • protein expression profiling assayTechnology Type(s)RNA sequencing • mass spectrometryFactor Type(s)experimental condition • temporal_instant • biological replicateSample Characteristic(s)Mus musculus • kidney Machine-accessible metadata file describing the reported data (ISA-Tab format)

Published

2019

31. Functional impact and evolution of a novel human polymorphic inversion that disrupts a gene and creates a fusion transcript

Author

Tõnu Esko, Chikashi Terao, David Castellano, Mario Cáceres, David Izquierdo, Carla Giner-Delgado, Fumihiko Matsuda, Magdalena Gayà-Vidal, José Ignacio Lucas-Lledó, Marta Sabariego Puig, and Lorena Pantano

Subjects

Cancer Research, DNA End-Joining Repair, lcsh:QH426-470, Genotype, Chromosome inversion, Population, Chromosome Breakpoints, Biology, Chromosome breakpoints, Genoma humà, Polymorphism, Single Nucleotide, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Polymorphism, Single nucleotide, Chromosome 19, DNA end-joining repair, Genetics, Transcription factors, Humans, Allele, education, Molecular Biology, Gene, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Chromosomal inversion, Gene expression regulation, 0303 health sciences, education.field_of_study, Genètica de poblacions, Haplotype, lcsh:Genetics, DNA transposable elements, Genetics, Population, Gene Expression Regulation, Fusion transcript, Chromosome Inversion, DNA Transposable Elements, Chromosomes, Human, Pair 19, 030217 neurology & neurosurgery, Research Article, Transcription Factors

Abstract

Despite many years of study into inversions, very little is known about their functional consequences, especially in humans. A common hypothesis is that the selective value of inversions stems in part from their effects on nearby genes, although evidence of this in natural populations is almost nonexistent. Here we present a global analysis of a new 415-kb polymorphic inversion that is among the longest ones found in humans and is the first with clear position effects. This inversion is located in chromosome 19 and has been generated by non-homologous end joining between blocks of transposable elements with low identity. PCR genotyping in 541 individuals from eight different human populations allowed the detection of tag SNPs and inversion genotyping in multiple populations worldwide, showing that the inverted allele is mainly found in East Asia with an average frequency of 4.7%. Interestingly, one of the breakpoints disrupts the transcription factor gene ZNF257, causing a significant reduction in the total expression level of this gene in lymphoblastoid cell lines. RNA-Seq analysis of the effects of this expression change in standard homozygotes and inversion heterozygotes revealed distinct expression patterns that were validated by quantitative RT-PCR. Moreover, we have found a new fusion transcript that is generated exclusively from inverted chromosomes around one of the breakpoints. Finally, by the analysis of the associated nucleotide variation, we have estimated that the inversion was generated ~40,000–50,000 years ago and, while a neutral evolution cannot be ruled out, its current frequencies are more consistent with those expected for a deleterious variant, although no significant association with phenotypic traits has been found so far., Author Summary Since the discovery of chromosomal inversions almost 100 years ago, how they are maintained in natural populations has been a highly debated issue. One of the hypotheses is that inversion breakpoints could affect genes and modify gene expression levels, although evidence of this came only from laboratory mutants. In humans, a few inversions have been shown to associate with expression differences, but in all cases the molecular causes have remained elusive. Here, we have carried out a complete characterization of a new human polymorphic inversion and determined that it is specific to East Asian populations. In addition, we demonstrate that it disrupts the ZNF257 gene and, through the translocation of the first exon and regulatory sequences, creates a previously nonexistent fusion transcript, which together are associated to expression changes in several other genes. Finally, we investigate the potential evolutionary and phenotypic consequences of the inversion, and suggest that it is probably deleterious. This is therefore the first example of a natural polymorphic inversion that has position effects and creates a new chimeric gene, contributing to answer an old question in evolutionary biology.

Published

2021

32. Referee report. For: PlotXpress, a webtool for normalization and visualization of reporter expression data [version 1; peer review: 1 approved]

Author

Rubino, Lorena Pantano

Published

2021

33. Targeting acid ceramidase inhibits YAP/TAZ signaling to reduce fibrosis in mice

Author

Aras N. Mattis, Valerie M. Weaver, Lan Wei, Steve S. Ho, Yusuf A. Hannun, Lorena Pantano, Meghan S. Mooring, Bryan C. Fuchs, Jennifer Y. Chen, Alan C. Mullen, Regina Español-Suñer, Diego dos Santos Ferreira, Dean Yimlamai, Andrew M. Tager, Daniel Canals, Raymond T. Chung, Joe M. Segal, Vikram R. Rao, Amy Yu, Johanna R. Schaub, Mai Sedki, Caroline C. Duwaerts, Sarani Ghoshal, Hsiao-Yen Ma, Nadia M. E. Ayad, Scott M. Turner, Jimmy Kuang-Hsien Hu, Benjamin Newcomb, Megan M. Marlow, Stephanie A. Christenson, Izolda Mileva, Dean Sheppard, and Sarah Alsamman

Subjects

0301 basic medicine, Ceramide, Acid Ceramidase, Medical and Health Sciences, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Fibrosis, medicine, Hepatic Stellate Cells, 2.1 Biological and endogenous factors, Animals, Humans, Aetiology, Cancer, Adaptor Proteins, Signal Transducing, biology, Chemistry, Signal Transducing, Signal transducing adaptor protein, Adaptor Proteins, General Medicine, Biological Sciences, medicine.disease, Sphingolipid, Ubiquitin ligase, 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Hepatic stellate cell, Hepatic fibrosis, Signal Transduction

Abstract

Hepatic stellate cells (HSCs) drive hepatic fibrosis. Therapies that inactivate HSCs have clinical potential as antifibrotic agents. We previously identified acid ceramidase (aCDase) as an antifibrotic target. We showed that tricyclic antidepressants (TCAs) reduce hepatic fibrosis by inhibiting aCDase and increasing the bioactive sphingolipid, ceramide. We now demonstrate that targeting aCDase inhibits YAP/TAZ activity by potentiating its phosphorylation-mediated proteasomal degradation via the ubiquitin ligase adaptor protein, β-TrCP. In mouse models of fibrosis, pharmacologic inhibition of aCDase or genetic knockout of aCDase in HSCs reduces fibrosis, stromal stiffness, and YAP/TAZ activity. In patients with advanced fibrosis, aCDase expression in HSCs is increased. Consistently, a signature of the genes most downregulated by ceramide identifies patients with advanced fibrosis who could benefit from aCDase targeting. The findings implicate ceramide as a critical regulator of YAP/TAZ signaling and HSC activation and highlight aCDase as a therapeutic target for the treatment of fibrosis.

Published

2020

34. Plasma microRNA profiling for malaria disease: association with severity and P. falciparum biomass

Author

Xavier Martiáñez-Vendrell, Himanshu Gupta, Lorena Pantano, Rosauro Varo, Allison Brimacombe, Antonio Sitoe, Diana Barrios, Inocencia Cuamba, Pau Cisteró, Mercedes Rubio, Quique Bassat, Mariona Bustamante, Alfredo Mayor, Lola Madrid, and Alfons Jiménez

Subjects

Organ dysfunction, Inflammation, Plasmodium falciparum, Biology, medicine.disease, biology.organism_classification, In vitro, parasitic diseases, Immunology, microRNA, medicine, Biomarker (medicine), medicine.symptom, Microrna profiling, Malaria

Abstract

Severe malaria (SM) is a major public health problem in malaria-endemic countries. Sequestration of Plasmodium falciparum (Pf) infected erythrocytes in vital organs and the associated inflammation leads to organ dysfunction. MicroRNAs (miRNAs), which are rapidly released from damaged tissues into the host fluids, constitute a promising biomarker for the prognosis of SM. This study applied next-generation sequencing to evaluate the differential expression of miRNAs in SM compared to uncomplicated malaria (UM). Six miRNAs were associated with in vitro Pf cytoadhesion, severity in Mozambican children and Pf biomass. Relative expression of hsa-miR-4497 quantified by TaqMan-RT-qPCR, was higher in SM children plasmas compared to that of UM (pPf biomass (p=0.033). These findings suggest that different physiopathological processes in SM and UM lead to differential expression of miRNAs and pave the way to future studies aiming to assess the prognostic value of these miRNAs in malaria.

Published

2020

35. Probing the functions of microglial cyclin-dependent kinase 5 under physiological and pathological conditions

Author

Leyla Anne Akay, Fatema Abdurrob, Li-Huei Tsai, Maggie Chen, Wen-Chin Huang, Jay Penney, Lorena Pantano Rubino, William T. Ralvenius, Zhuyu Peng, Xiao Chen, and Hugh P. Cam

Subjects

0303 health sciences, Microglia, Cyclin-dependent kinase 5, Neurodegeneration, Central nervous system, Biology, medicine.disease, Cell biology, Transcriptome, 03 medical and health sciences, Myelin, 0302 clinical medicine, medicine.anatomical_structure, nervous system, Downregulation and upregulation, Conditional gene knockout, medicine, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Cyclin dependent kinase 5 (Cdk5) regulates various developmental and physiological processes in the central nervous system. Deregulation of Cdk5 activity in neurons induces severe neurodegeneration and has been implicated in Alzheimer’s disease (AD) and other neurodegenerative conditions. A large fraction of AD risk genes are highly expressed in microglia, highlighting an important role for these cells in AD pathogenesis. While Cdk5 function in neurons is well characterized, our understanding of its roles in microglial function under physiological and neurodegenerative conditions remain rudimentary. Here, we investigate the roles of Cdk5 in microglia using myeloid-specific Cdk5 conditional knockout mice. Using microglia-specific transcriptome profiling, histological analyses, and behavioral assessments, we found that knockout of Cdk5 in microglia for 1 month induced transcriptional changes characterized by upregulation of cell cycle processes and type I interferon signaling genes in both physiological conditions and AD-related amyloidogenesis. In contrast to the robust transcriptional changes, conditional loss of microglial Cdk5 produced minimal effects on the density and morphology of microglia and their phagocytic activity toward myelin debris. Moreover, Cdk5cKO mice exhibited little change in synaptic density and tasks associated with locomotor, anxiety-like, and memory-related behaviors. Our findings indicate that the conditional loss of Cdk5 in microglia induces rapid alterations of microglial transcriptome with minimal or delayed effects on histological and behavioral responses.

Published

2020

36. Conserved and Divergent Modulation of Calcification in Atherosclerosis and Aortic Valve Disease by Tissue Extracellular Vesicles

Author

Lorena Pantano, Tan H Pham, Giovanni Camussi, Florian Schlotter, Eugenia Shvartz, Hideyuki Higashi, Silvia Monticone, Fabrizio Buffolo, Louis A. Saddic, Samantha K. Atkins, Masanori Aikawa, Mark C. Blaser, Jochen D. Muehlschlegel, Simon C. Body, Sasha A Singh, Maximillian A. Rogers, Galina K. Sukhova, Elena Aikawa, and Arda Halu

Subjects

MAPK/ERK pathway, 0303 health sciences, Chemistry, Immunogold labelling, 030204 cardiovascular system & hematology, Proteomics, medicine.disease, 3. Good health, Cell biology, Extracellular matrix, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Transcriptional regulation, medicine, Intracellular, 030304 developmental biology, Calcification

Abstract

BackgroundFewer than 50% of patients develop calcification of both atherosclerotic plaques and aortic valves, implying differential pathogenesis. While circulating extracellular vesicles (EVs) act as biomarkers of cardiovascular diseases, tissue-entrapped EVs associate with early mineralization, but their contents, function, and contributions to disease remain unknown.ResultsGlobal proteomics of human carotid artery endarterectomies and calcified aortic valves from a total of 27 donors/patients revealed significant over-representation of proteins with vesicle-associated pathways/ontologies common to both diseases. We exploited enzymatic digestion, serial (ultra)centrifugation and OptiPrep density-gradient separation to isolate EV populations from diseased arteries and valves. Mass spectrometry found 22 EV marker proteins to be highly enriched in the four least-dense OptiPrep fractions while extracellular matrix proteins predominated in denser fractions, as confirmed by CD63 immunogold electron microscopy and nanoparticle tracking analysis. Proteomics and miRNA-sequencing of OptiPrep-enriched tissue EVs quantified 1,104 proteins and 123 miR cargoes linked to 5,182 target genes. Pathway networks of proteins and miR targets common to artery and valve tissue EVs revealed a shared regulation of Rho GTPase and MAPK intracellular signaling cascades. 179 proteins and 5 miRs were significantly altered between artery and valve EVs; multi-omics integration determined that EVs differentially modulated cellular contraction and p53-mediated transcriptional regulation in diseased vascular vs. valvular tissue.ConclusionsOur findings delineate a strategy to isolate, purify, and study protein and RNA cargoes from EVs entrapped in fibrocalcific tissues. Multi-omics and network approaches implicated tissue-resident EVs in human cardiovascular disease.

Published

2020

37. Screening for YAP Inhibitors Identifies Statins as Modulators of Fibrosis

Author

Royale Nichols, Jillian J Spinney, Michael Bieler, Katharine E. Black, Yufei Lin, Lida P. Hariri, Clemens K. Probst, Paul Nicklin, Benjamin D. Medoff, Lorena Pantano, Paula Grasberger, Peter Seither, David Wyatt, Daniela M. Santos, Gina Pronzati, and Andrew M. Tager

Subjects

Pulmonary and Respiratory Medicine, Cytoplasm, Simvastatin, Pulmonary Fibrosis, Clinical Biochemistry, Mevalonic Acid, Cell Cycle Proteins, Bleomycin, Small Molecule Libraries, Idiopathic pulmonary fibrosis, chemistry.chemical_compound, Mice, Fibrosis, Pulmonary fibrosis, medicine, Animals, Humans, Fibroblast, Molecular Biology, Original Research, Adaptor Proteins, Signal Transducing, Cell Nucleus, Hippo signaling pathway, biology, business.industry, YAP-Signaling Proteins, Cell Biology, Fibroblasts, medicine.disease, Phosphoproteins, medicine.anatomical_structure, chemistry, HMG-CoA reductase, biology.protein, Cancer research, Mevalonate pathway, Acyl Coenzyme A, Hydroxymethylglutaryl-CoA Reductase Inhibitors, business, Biomarkers, Signal Transduction

Abstract

Idiopathic pulmonary fibrosis is a lung disease with limited therapeutic options that is characterized by pathological fibroblast activation and aberrant lung remodeling with scar formation. YAP (Yes-associated protein) is a transcriptional coactivator that mediates mechanical and biochemical signals controlling fibroblast activation. In this study, we developed a high-throughput small-molecule screen for YAP inhibitors in primary human lung fibroblasts. Multiple HMG-CoA (hydroxymethylglutaryl-coenzyme A) reductase inhibitors (statins) were found to inhibit YAP nuclear localization via induction of YAP phosphorylation, cytoplasmic retention, and degradation. We further show that the mevalonate pathway regulates YAP activation, and that simvastatin treatment reduces fibrosis markers in activated human lung fibroblasts and in the bleomycin mouse model of pulmonary fibrosis. Finally, we show that simvastatin modulates YAP in vivo in mouse lung fibroblasts. Our results highlight the potential of small-molecule screens for YAP inhibitors and provide a mechanism for the antifibrotic activity of statins in idiopathic pulmonary fibrosis.

Published

2020

38. A non-biased framework for the annotation and classification of the non-miRNA small RNA transcriptome.

Author

Lorena Pantano, Xavier Estivill, and Eulalia Martí

Published

2011

39. Probing the functions of microglial cyclin-dependent kinase 5 under physiological and pathological conditions

Author

Peng, Zhuyu, primary, Huang, Wen-Chin, additional, Chen, Maggie, additional, Penney, Jay, additional, Cam, Hugh, additional, Abdurrob, Fatema, additional, Akay, Leyla, additional, Chen, Xiao, additional, Ralvenius, William T., additional, Rubino, Lorena Pantano, additional, and Tsai, Li-Huei, additional

Published

2020

40. Comparative analysis of LIN28-RNA binding sites identified at single nucleotide resolution

Author

Victor S. Lelyveld, Piotr Sliz, Elizabeth Ransey, Przemyslaw Biecek, Lorena Pantano, Anders Björkbom, and Jack W. Szostak

Subjects

0301 basic medicine, Models, Molecular, Immunoprecipitation, Guanine, Protein Conformation, RNA-binding protein, Computational biology, macromolecular substances, Biology, Tandem mass spectrometry, Deep sequencing, Mass Spectrometry, 03 medical and health sciences, chemistry.chemical_compound, RNA Precursors, Humans, Nucleotide, Binding site, Molecular Biology, chemistry.chemical_classification, Genetics, Binding Sites, CIMS, technology, industry, and agriculture, RNA, CLIP, RNA-Binding Proteins, Cell Biology, Recombinant Proteins, LIN28, MicroRNAs, 030104 developmental biology, chemistry, Mutation, Nucleic Acid Conformation, Research Paper, Protein Binding

Abstract

It remains a formidable challenge to characterize the diverse complexes of RNA binding proteins and their targets. While crosslink and immunoprecipitation (CLIP) methods are powerful techniques that identify RNA targets on a global scale, the resolution and consistency of these methods is a matter of debate. Here we present a comparative analysis of LIN28-pre-let-7 UV-induced crosslinking using a tandem mass spectrometry (MS/MS) and deep sequencing interrogation of in vitro crosslinked complexes. Interestingly, analyses by the two methods diverge in their identification of crosslinked nucleotide identity – whereas bioinformatics and sequencing analyses suggest guanine in mammalian cells, MS/MS identifies uridine. This work suggests the need for comprehensive analysis and validation of crosslinking methodologies.

Published

2017

41. Empirical comparison of reduced representation bisulfite sequencing and Infinium BeadChip reproducibility and coverage of DNA methylation in humans

Author

Xihong Lin, Joel Schwartz, Allan C. Just, Alexandra M. Binder, John N. Hutchinson, Sami S. Amr, Lorena Pantano, William P. Accomando, Karin B. Michels, Benedetta Izzi, Andrea A. Baccarelli, Pantel S. Vokonas, and Juan Carmona

Subjects

0301 basic medicine, Genetics, Methylation, Biology, QH426-470, Human genetics, Article, 03 medical and health sciences, 030104 developmental biology, CpG site, Reduced representation bisulfite sequencing, DNA methylation, Illumina Methylation Assay, Medicine, Epigenetics, Molecular Biology, Genetics (clinical), Illumina dye sequencing

Abstract

We empirically examined the strengths and weaknesses of two human genome-wide DNA methylation platforms: rapid multiplexed reduced representation bisulfite sequencing and Illumina’s Infinium BeadChip. Rapid multiplexed reduced representation bisulfite sequencing required less input DNA, offered more flexibility in coverage, and interrogated more CpG loci at a higher regional density. The Infinium covered slightly more protein coding, cancer-associated and mitochondrial-related genes, both platforms covered all known imprinting clusters, and rapid multiplexed reduced representation bisulfite sequencing covered more microRNA genes than the HumanMethylation450, but fewer than the MethylationEPIC. Rapid multiplexed reduced representation bisulfite sequencing did not always interrogate exactly the same CpG loci, but genomic tiling improved overlap between different libraries. Reproducibility of rapid multiplexed reduced representation bisulfite sequencing and concordance between the platforms increased with CpG density. Only rapid multiplexed reduced representation bisulfite sequencing could genotype samples and measure allele-specific methylation, and we confirmed that Infinium measurements are influenced by nearby single-nucleotide polymorphisms. The respective strengths and weaknesses of these two genome-wide DNA methylation platforms need to be considered when conducting human epigenetic studies., Epigenetics: choose your DNA methylation probing tool wisely! Researchers who study human epigenetics need to carefully consider the platform used to measure genome-wide patterns of DNA methylation. A team led by Karin Michels and Andrea Baccarelli from Harvard University in Boston, Massachusetts, USA, empirically examined the strengths and weaknesses of two methylation profiling tools: Illumina’s Infinium BeadChip, which uses a microarray system to interrogate hundreds of thousands of methylation sites across the genome at single-nucleotide resolution; and a high-throughput sequencing-based approach known as rapid multiplexed reduced representation bisulfite sequencing, or rmRRBS. The former did a better job at reading methylation in protein-coding and mitochondrial-related genes, while the latter required less input DNA and covered more methylation sites across the genome. The authors conclude that a scientist’s platform preference should depend on the nature of his or her investigation.

Published

2017

42. COMPASS: a COMprehensive Platform for smAll RNA-Seq data analySis

Author

Leanna Farnam, Alvin T. Kho, Kelan G. Tantisira, Sami S. Amr, Lorena Pantano, Jiang Li, and Robert P. Chase

Subjects

0303 health sciences, Small RNA, animal structures, Source code, Computer science, business.industry, media_common.quotation_subject, Computational biology, Modular design, Serum samples, DNA sequencing, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Compass, business, 030304 developmental biology, media_common

Abstract

BackgroundCirculating RNAs are potential disease biomarkers and their function is being actively investigated. Next generation sequencing (NGS) is a common means to interrogate the small RNA’ome or the full spectrum of small RNAs (ResultsWe present COMPASS, a comprehensive modular stand-alone platform for identifying and quantifying small RNAs from small RNA sequencing data. COMPASS contains prebuilt customizable standard RNA databases and sequence processing tools to enable turnkey basic small RNA analysis. We evaluated COMPASS against comparable existing tools on small RNA sequencing data set from serum samples of 12 healthy human controls, and COMPASS identified a greater diversity and abundance of small RNA molecules.ConclusionCOMPASS is modular, stand-alone and integrates multiple customizable RNA databases and sequence processing tool and is distributed under the GNU General Public License free to non-commercial registered users at https://regepi.bwh.harvard.edu/circurna/ and the source code is available at https://github.com/cougarlj/COMPASS.

Published

2019

43. Sex Differences in Adrenal Bmal1 Deletion-Induced Augmentation of Glucocorticoid Responses to Stress and ACTH in Mice

Author

David T. Breault, Sining Leng, Paulo Kofuji, Diana L. Carlone, William C. Engeland, Emanuele Pignatti, Logan Massman, Lorena Pantano, and Lauren Miller

Subjects

Aldosterone synthase, Male, medicine.medical_specialty, endocrine system, Genotype, Adrenocorticotropic hormone, chemistry.chemical_compound, Mice, Endocrinology, Sex Factors, Adrenocorticotropic Hormone, Corticosterone, Stress, Physiological, Internal medicine, medicine, Animals, Circadian rhythm, Cholesterol Side-Chain Cleavage Enzyme, Receptor, Glucocorticoids, Research Articles, Mice, Knockout, biology, Suprachiasmatic nucleus, Adrenal cortex, ARNTL Transcription Factors, Period Circadian Proteins, medicine.anatomical_structure, chemistry, biology.protein, Adrenal Cortex, Female, Glucocorticoid, medicine.drug

Abstract

The circadian glucocorticoid (GC) rhythm is dependent on a molecular clock in the suprachiasmatic nucleus (SCN) and an adrenal clock that is synchronized by the SCN. To determine whether the adrenal clock modulates GC responses to stress, experiments used female and male Cyp11A1Cre/+::Bmal1Fl/Fl knockout [side-chain cleavage (SCC)–KO] mice, in which the core clock gene, Bmal1, is deleted in all steroidogenic tissues, including the adrenal cortex. Following restraint stress, female and male SCC-KO mice demonstrate augmented plasma corticosterone but not plasma ACTH. In contrast, following submaximal scruff stress, plasma corticosterone was elevated only in female SCC-KO mice. Adrenal sensitivity to ACTH was measured in vitro using acutely dispersed adrenocortical cells. Maximal corticosterone responses to ACTH were elevated in cells from female KO mice without affecting the EC50 response. Neither the maximum nor the EC50 response to ACTH was affected in male cells, indicating that female SCC-KO mice show a stronger adrenal phenotype. Parallel experiments were conducted using female Cyp11B2 (Aldosterone Synthase)Cre/+::Bmal1Fl/Fl mice and adrenal cortex–specific Bmal1-null (Ad-KO) mice. Plasma corticosterone was increased in Ad-KO mice following restraint or scruff stress, and in vitro responses to ACTH were elevated in adrenal cells from Ad-KO mice, replicating data from female SCC-KO mice. Gene analysis showed increased expression of adrenal genes in female SCC-KO mice involved in cell cycle control, cell adhesion–extracellular matrix interaction, and ligand receptor activity that could promote steroid production. These observations underscore a role for adrenal Bmal1 as an attenuator of steroid secretion that is most prominent in female mice.

Published

2019

44. A High-Throughput Small Molecule Screen for YAP Inhibitors Identifies Statins as Inhibitors of Fibroblast Activation and Pulmonary Fibrosis

Author

Jillian J Spinney, G. Pronzati, Katharine E. Black, Benjamin D. Medoff, Clemens K. Probst, Lorena Pantano, Andrew M. Tager, Daniela M. Santos, David Wyatt, Y. Lin, R. Nichols, and Paula Grasberger

Subjects

medicine.anatomical_structure, Chemistry, Pulmonary fibrosis, medicine, Cancer research, medicine.disease, Fibroblast, Throughput (business), Small molecule

Published

2019

45. Single-cell cloning of human T-cell lines reveals clonal variation in cell death responses to chemotherapeutics

Author

John N. Hutchinson, Alex Thompson, Jennifer D. Helble, Daniel E. Bauer, Meghan Bliss-Moreau, Ben A. Croker, Kimberly Stegmaier, Lorena Pantano, Kathleen Hanlon, Gabriela Alexe, Shu Wang, and Arshed Al-Obeidi

Subjects

Cancer Research, T-Lymphocytes, Population, Locus (genetics), Antineoplastic Agents, Biology, Jurkat cells, Article, Cell Line, 03 medical and health sciences, Genetic Heterogeneity, 0302 clinical medicine, Genetic drift, Genetic variation, Genetics, Humans, education, Molecular Biology, Gene, Cloning, education.field_of_study, Cell Death, Induction Chemotherapy, Phenotype, Clone Cells, 030220 oncology & carcinogenesis

Abstract

Genetic modification of human leukemic cell lines using CRISPR-Cas9 has become a staple of gene-function studies. Single-cell cloning of modified cells is frequently used to facilitate studies of gene function. Inherent in this approach is an assumption that the genetic drift, amplified in some cell lines by mutations in DNA replication and repair machinery, as well as non-genetic factors will not introduce significant levels of experimental cellular heterogeneity in clones derived from parental populations. In this study, we characterize the variation in cell death of fifty clonal cell lines generated from human Jurkat and MOLT-4 T-cells edited by CRISPR-Cas9. We demonstrate a wide distribution of sensitivity to chemotherapeutics between non-edited clonal human leukemia T-cell lines, and also following CRISPR-Cas9 editing at the NLRP1 locus, or following transfection with non-targeting sgRNA controls. The cell death sensitivity profile of clonal cell lines was consistent across experiments and failed to revert to the non-clonal parental phenotype. Whole genome sequencing of two clonal cell lines edited by CRISPR-Cas9 revealed unique and shared genetic variants, which had minimal read support in the non-clonal parental population and were not suspected CRISPR-Cas9 off-target effects. These variants included genes related to cell death and drug metabolism. The variation in cell death phenotype of clonal populations of human T-cell lines may be a consequence of T-cell line genetic instability, and to a lesser extent clonal heterogeneity in the parental population or CRISPR-Cas9 off-target effects not predicted by current models. This work highlights the importance of genetic variation between clonal T-cell lines in the design, conduct, and analysis of experiments to investigate gene function after single-cell cloning.

Published

2019

46. Sex-Dependent Changes in miRNA Expression in the Bed Nucleus of the Stria Terminalis Following Stress

Author

Elena H. Chartoff, Lorena Pantano, D. D. Potter, Maximilian A Rogers-Grazado, Nikolaos P. Daskalakis, Frank J. Slack, Maria Mavrikaki, Kerry J. Ressler, Eleni Anastasiadou, and Sami S. Amr

Subjects

sex differences, 0301 basic medicine, medicine.medical_specialty, Elevated plus maze, Small RNA, social isolation, BNST, Biology, miRNAs, small RNA sequencing, stress, lcsh:RC321-571, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Internal medicine, microRNA, Gene expression, medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Molecular Biology, Original Research, Pathophysiology, Sexual dimorphism, Stria terminalis, 030104 developmental biology, Endocrinology, Anxiety, medicine.symptom, 030217 neurology & neurosurgery, Neuroscience

Abstract

Anxiety disorders disproportionately affect women compared to men, which may arise from sex differences in stress responses. MiRNAs are small non-coding RNAs known to regulate gene expression through actions on mRNAs. MiRNAs are regulated, in part, by factors such as stress and gonadal sex, and they have been implicated in the pathophysiology of multiple psychiatric disorders. Here, we assessed putative sex differences in miRNA expression in the bed nucleus of the stria terminalis (BNST) – a sexually dimorphic brain region implicated in anxiety – of adult male and female rats that had been exposed to social isolation (SI) stress throughout adolescence. To assess the translational utility of our results, we assessed if childhood trauma in humans resulted in changes in blood miRNA expression that are similar to those observed in rats. Male and female Sprague-Dawley rats underwent SI during adolescence or remained group housed (GH) and were tested for anxiety-like behavior in the elevated plus maze as adults. Small RNA sequencing was performed on tissue extracted from the BNST. Furthermore, we re-analyzed an already available small RNA sequencing data set from the Grady Trauma Project (GTP) from men and women to identify circulating miRNAs that are associated with childhood trauma exposure. Our results indicated that there were greater anxiogenic-like effects and changes in BNST miRNA expression in SI versus GH females compared to SI versus GH males. In addition, we found nine miRNAs that were regulated in both the BNST from SI compared to GH rats and in blood samples from humans exposed to childhood trauma. These studies emphasize the utility of rodent models in studying neurobiological mechanisms underlying psychiatric disorders and suggest that rodent models could be used to identify novel sex-specific pharmacotherapies for anxiety disorders.

Published

2019

47. Visualization of the small RNA transcriptome using seqclusterViz

Author

Lorena Pantano, Francisco Pantano, Shannan J. Ho Sui, and Eulàlia Martí

Subjects

0301 basic medicine, Small RNA, Micro RNAs, Parkinson's disease, Computational biology, Biology, snoRNA, General Biochemistry, Genetics and Molecular Biology, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Malaltia de Parkinson, microRNA, small RNA, Small nucleolar RNA, General Pharmacology, Toxicology and Pharmaceutics, Cervell, tRNA, visualization, report, 030304 developmental biology, miRNA, Regulation of gene expression, 0303 health sciences, General Immunology and Microbiology, Software Tool Article, RNA, Brain, General Medicine, Articles, sequencing, Visualization, MicroRNAs, 030104 developmental biology, Genes, 030220 oncology & carcinogenesis, Transfer RNA, Gens

Abstract

The study of small RNAs provides us with a deeper understanding of the complexity of gene regulation within cells. Of the different types of small RNAs, the most important in mammals are miRNA, tRNA fragments and piRNAs. Using small RNA-seq analysis, we can study all small RNA types simultaneously, with the potential to detect novel small RNA types. We describe SeqclusterViz, an interactive HTML-javascript webpage for visualizing small noncoding RNAs (small RNAs) detected by Seqcluster. The SeqclusterViz tool allows users to visualize known and novel small RNA types in model or non-model organisms, and to select small RNA candidates for further validation. SeqclusterViz is divided into three panels: i) query-ready tables showing detected small RNA clusters and their genomic locations, ii) the expression profile over the precursor for all the samples together with RNA secondary structures, and iii) the mostly highly expressed sequences. Here, we show the capabilities of the visualization tool and its validation using human brain samples from patients with Parkinson’s disease .

Published

2019

48. Highlights from the Student Council Symposium 2011 at the International Conference on Intelligent Systems for Molecular Biology and European Conference on Computational Biology.

Author

Priscila Grynberg, Thomas Abeel, Pedro Lopes 0002, Geoff MacIntyre, and Lorena Pantano Rubiño

Published

2011

49. Cross-Site Evaluation of Commercial Sanger Sequencing Chemistries

Author

Jun Fan, Lorena Pantano, Jan Kieleczawa, Zachary T. Herbert, Fred W. Kolling, Yanping Zhang, Molly J. Zeller, Xiaoling Xuei, Yuriy O. Alekseyev, Marie Adams, Jeremy Niece, Heather A Deiderick, Jessica W. Podnar, and Stuart S. Levine

Subjects

Sanger sequencing, Reaction conditions, Computer science, Communication, Dye dilution, DNA, Sequence Analysis, DNA, Templates, Genetic, Site evaluation, Turnaround time, symbols.namesake, symbols, Biochemical engineering, Coloring Agents, Molecular Biology, Sequencing Core

Abstract

Sanger sequencing remains an essential tool utilized by researchers. Despite competition from commercial sequencing providers, many academic sequencing core facilities continue to offer these services based on a model of competitive pricing, knowledgeable technical support, and rapid turnaround time. In-house Sanger sequencing remains a viable core service and, until recently, Applied Biosystems BigDye Terminator chemistry was the only commercially available solution for Sanger DNA sequencing on Applied Biosystems (ABI) instruments; however, several new products employing novel dye chemistries and reaction configurations have entered the market. As a result, there is a need to benchmark the performance of these new chemistries on various DNA templates, including difficult-to-sequence templates, and their amenability to commonly employed cost-saving measures, such as dye dilution and reaction miniaturization. To evaluate these new reagents, a study was designed to compare the quality of Sanger sequencing data produced by ABI BigDye and commercially available kits from 2 other vendors using both control and difficult-to-sequence DNA templates under various reaction conditions. This study will serve as a valuable resource to core facilities conducting Sanger sequencing that wish to evaluate the use of an alternative chemistry in their sequencing core.

Published

2020

50. Unification of miRNA and isomiR research: the mirGFF3 format and the mirtop API

Author

Ernesto Aparicio-Puerta, Isidore Rigoutsos, Roderic Espín, Marc K. Halushka, Marc R. Friedländer, Victor Barrera, Phillipe Loher, Xavier Bofill-De Ros, Bastian Fromm, Aristeidis G. Telonis, Michael Hackenberg, Thomas Desvignes, Lorena Pantano, Gianvito Urgese, Florian Thibord, Jeffery Ma, Jason Sydes, Karen Eilbeck, John H. Postlethwait, Eric Londin, Ioannis S. Vlachos, and Elisa Ficarra

Subjects

Statistics and Probability, Small RNA, miRNA, isomiR, isomiR-SEA, miRNA-seq, small RNA, mirGFF3, Computer science, Computational biology, Biochemistry, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, IsomiR, microRNA, Nucleotide, Molecular Biology, 030304 developmental biology, computer.programming_language, chemistry.chemical_classification, Regulation of gene expression, 0303 health sciences, Sequence Analysis, RNA, High-Throughput Nucleotide Sequencing, Python (programming language), File format, Original Papers, Data science, Pipeline (software), miRNA, isomiR, isomiR-SEA, miRNA-seq, small RNA, mirGFF3, Computer Science Applications, Computational Mathematics, MicroRNAs, Computational Theory and Mathematics, chemistry, Gene Expression Regulation, 030220 oncology & carcinogenesis, computer

Abstract

Motivation MicroRNAs (miRNAs) are small RNA molecules (∼22 nucleotide long) involved in post-transcriptional gene regulation. Advances in high-throughput sequencing technologies led to the discovery of isomiRs, which are miRNA sequence variants. While many miRNA-seq analysis tools exist, the diversity of output formats hinders accurate comparisons between tools and precludes data sharing and the development of common downstream analysis methods. Results To overcome this situation, we present here a community-based project, miRNA Transcriptomic Open Project (miRTOP) working towards the optimization of miRNA analyses. The aim of miRTOP is to promote the development of downstream isomiR analysis tools that are compatible with existing detection and quantification tools. Based on the existing GFF3 format, we first created a new standard format, mirGFF3, for the output of miRNA/isomiR detection and quantification results from small RNA-seq data. Additionally, we developed a command line Python tool, mirtop, to create and manage the mirGFF3 format. Currently, mirtop can convert into mirGFF3 the outputs of commonly used pipelines, such as seqbuster, isomiR-SEA, sRNAbench, Prost! as well as BAM files. Some tools have also incorporated the mirGFF3 format directly into their code, such as, miRge2.0, IsoMIRmap and OptimiR. Its open architecture enables any tool or pipeline to output or convert results into mirGFF3. Collectively, this isomiR categorization system, along with the accompanying mirGFF3 and mirtop API, provide a comprehensive solution for the standardization of miRNA and isomiR annotation, enabling data sharing, reporting, comparative analyses and benchmarking, while promoting the development of common miRNA methods focusing on downstream steps of miRNA detection, annotation and quantification. Availability and implementation https://github.com/miRTop/mirGFF3/ and https://github.com/miRTop/mirtop. Supplementary information Supplementary data are available at Bioinformatics online.

Published

2018