Development, Expansion and Role of Myeloid-Derived Suppressor Cells in Post-Sepsis Immune Suppression

Alkhateeb, Tuqa

01 August 2020

Myeloid-derived suppressor cells (MDSCs) numbers increase significantly in sepsis and are associated with high mortality rates. These myeloid cell precursors promote immunosuppression, especially in the late (post sepsis) stage. However, the mechanisms that underlie MDSC expansion and programming are not completely understood. To investigate these mechanisms, we used a cecal-ligation and puncture (CLP) mouse model of polymicrobial sepsis that progresses from an early/acute proinflammatory phase to a late/chronic immunosuppressive phase. Previous studies in our laboratory showed that microRNA (miR)-21 and miR-181b elevate levels of the transcription factor nuclear factor 1 (NFI-A) that promotes MDSC expansion. We report here that miR-21 and miR-181b regulate NFI-A expression via a post-transcriptional regulatory mechanism by recruiting RNA-binding proteins HuR and Ago1 to stabilize NFI-A mRNA, thus increasing its protein levels. Studies in our laboratory also showed that inflammatory mediator S100A9 accumulates in the nucleus in Gr1+CD11b+ myeloid precursors in the later phases of sepsis and is necessary for their expansion and programming into immunosuppressive MDSCs. We demonstrate here that nuclear S100A9 associates with specific transcription factors that activate miR-21 and miR-181b expressions. In our final manuscript, we uncover another layer of the mechanisms of MDSC expansion and programming. We found that long non-coding RNA (lncRNA) Hotairm1 binds to and recruits S100A9 to the nucleus to program Gr1+CD11b+ myeloid precursors into MDSCs in the later phases of sepsis. Together, our results reveal three regulatory layers involving NFI-A, S100A9 and Hotairm1 in the pathway leading to MDSCs development in sepsis and suggest that therapeutically targeting these molecular switches might improve sepsis survival.

Sepsis

MDSC

miRNA

NFI-A

S100A9

Hotairm1

Allergy and Immunology

Critical Care

Immune System Diseases

Immunity

Immunology of Infectious Disease

Immunopathology

Immunotherapy

Internal Medicine

Medical Immunology

Medical Microbiology

Pathogenic Microbiology

Pathology

Utilization of microRNA signatures as a diagnostic tool for canine urothelial carcinoma

Mara Suzann Varvil (16624251)

20 July 2023

<p><em>Background:</em> UC is the most common urogenital cancer, comprising up to 2% of all naturally occurring neoplasia in dogs and can be challenging to diagnose. With early diagnosis, the disease can be controlled in most dogs with a good quality of life. MiRNAs are small non-coding RNAs that function by post-transcriptional regulation of gene expression. Their abundant presence and stability in the body make them promising tools for disease diagnosis. </p> <p><em>Hypothesis:</em> A microRNA (miRNA) signature can be used to differentiate canine urothelial carcinoma (UC) from other lower urinary tract diseases.</p> <p><em>Literature review:</em> There is an overlap of miRNA expression changes between normal physiologic processes, non-infectious and non-inflammatory conditions, infectious and/or inflammatory conditions, and neoplasia. Additionally, the mechanism of action of these overlapping miRNAs varies depending on the disease process. There is a lack of standardization of miRNA evaluation and consistency within a single evaluation method. Herein we evaluate three papers on miRNA expression in canine UC and compared the reported expression profile to human UC literature and identified experimentally validated targets of the dysregulated miRNA. </p> <p><em>Methods and results:</em> <strong>(Aim 1)</strong> Using reverse transcriptase quantitative PCR (RT-qPCR), we assessed the effects of sample handling on miRNA expression in formalin-fixed Paraffin-embedded (FFPE) tissue and urine sediment. We showed that the time of tissue fixation in formalin does not alter the detection of miRNA expression, but the inclusion of the muscularis layer altered the miRNA expression profile in bladder tissue. Additionally, miRNAs in urine sediment were proven to be stable despite the storage temperature for up to two weeks. <strong>(Aim 2)</strong> Using Next Generation Sequencing (NGS) with validation of findings via RT-qPCR, we evaluated differential miRNA expression in bladder tissue collected from normal canine urothelium and the invasive type of UC (iUC) to elucidate the dysregulated pathways. We found that twenty-eight miRNAs were differentially expressed (DE). The DE miRNAs were most often associated with gene silencing by miRNA, miRNAs in cancer, and miRNAs involved in DNA damage responses. Proteins involved include HRAS, KRAS, ARAF, RAF1, MAPK1, MAP2K1, MAPK3, FGFR3, EGFR, HBEGF, RASSF1, E2F2, E2F3, ERBB2, SRC, MMP1, and UP3KA. <strong>(Aim 3)</strong> Using RT-qPCR, expression of miR-214, miR-181a, miR-361, and miR-145 were evaluated. We failed to reject the null hypothesis that the relative gene expression in all groups was the same for any miRNA, nor did we find any multivariate summary that could effectively differentiate UC from inflammatory and non-neoplastic transitional cells. </p> <p><em>Conclusions:</em>   The findings within this thesis highlight the need for standardized methods for miRNA evaluation, support the use of stored samples for miRNA expression analysis, and show the importance of isolating the tissue of interest in FFPE. We defined the miRNome of iUC and investigated numerous protein pathways affected by dysregulation of differentially expressed miRNA in urothelial carcinoma. While we failed to reject our null hypothesis that the miRNA signature we evaluated could be utilized as a diagnostic tool for canine urothelial carcinoma, we showed the promise of miRNA as diagnostic tools and highlight several novel pathways that miRNA regulation affects in this disease. </p>

Veterinary diagnosis and diagnostics

Veterinary medicine (excl. urology)

Veterinary pathology

Veterinary urology

microRNA

miRNA

Urothelial carcinoma

transitional cell carcinoma

bladder cancer

canine

formalin-fixed praffin-embedded

Urine sediment

urine sediment cells

miRnome

Evolution and Function of Compositional Patterns in Mammalian Genomes

Prakash, Ashwin

January 2011

No description available.

Bioinformatics

Biomedical Research

Genetics

Medicine

Molecular Biology

Genomic Mid range inhomogeneity

GMRI

MRI

introns

ncRNA

DNA conformations

ZDNA

HDNA

RNA secondary structures

miRNA

Long non coding RNA

piRNA

siRNA

snoRNA

Orthologous introns

TRANSCRIPTIOME ANALYSIS AND EPIGENETIC REGULATION OF OCULAR LENS DEVELOPMENT

Hoang, Thanh V.

11 November 2016

No description available.

Biology

Biomedical Research

Genetics

Zoology

Lens

epithelial cells

fiber cells

RNA sequencing

small RNA sequencing

differential expression

DNMT1

DNMT3A

DNMT3B

miRNA

Crispr, Cas9

miR-1

miR-184

miR-26a

miR-26b

knockout

lens development

fiber cell differentiation

cataract

Multi-omic data integration study of immune system alterations in the development of minimal hepatic encephalopathy in patients with liver cirrhosis

Rubio Martínez-Abarca, María Teresa

01 September 2022

[ES] El objetivo principal de este trabajo fue conocer las alteraciones inmunológicas asociadas a la inflamación periférica que desencadenan deterioro cognitivo en los pacientes cirróticos encefalopatía hepática mínima (EHM). Estos cambios pueden ser monitorizados como cascadas de señalización a lo largo de los tipos celulares del sistema inmune. Como estudio preliminar, se analizaron los cambios en la expresión génica (transcriptómica), los metabolitos de plasma (metabolómica) y un panel de citoquinas extracelulares en muestras de sangre de pacientes cirróticos con y sin EHM. Los resultados del análisis transcriptómico apoyaron la hipótesis de alternancias en las poblaciones celulares de linfocitos Th1/Th2 y Th17 como principales impulsores de la EHM. El análisis clúster de las moléculas del suero dio como resultado 6 grupos de compuestos químicamente similares. También se ha realizado un análisis de integración multiómica para detectar las relaciones entre los componentes intra y extracelulares que podrían contribuir a la inducción del deterioro cognitivo. Los resultados de este análisis integrativo sugirieron una relación entre las citocinas CCL20, CX3CL1, CXCL13, IL-15, IL-22 e IL-6 con la alteración de la quimiotaxis, así como un vínculo entre los fosfolípidos insaturados de cadena larga y el aumento del transporte de ácidos grasos y la producción de prostaglandinas. Estudios previos sugieren que un cambio en la inflamación periférica, orquestado principalmente por las células T CD4+, es un factor crítico que desencadena el deterioro cognitivo en EHM. La segunda parte de la tesis se centró en la comprensión de las rutas genéticas y los mecanismos por los que las alteraciones en los linfocitos CD4+ pueden contribuir a la inflamación periférica en EHM. Se analizaron los niveles de expresión de genes, factores de transcripción y miARNs en este subtipo de linfocitos mediante secuenciación de alto rendimiento (RNA-seq y miRNA-seq). El análisis individual de cada grupo de datos mostró diferencias de expresión de ARNm y miARN, así como las vías biológicas alteradas en los linfocitos CD4+ comparando pacientes cirróticos con y sin EHM. Encontramos alteraciones en 167 ARNm y 20 rutas biológicas en los pacientes con EHM, incluyendo los receptores tipo Toll, la señalización de la IL-17 y las vías del metabolismo de histidina y triptófano. Trece miRNAs y 7 factores de transcripción presentaron alteraciones en los pacientes con EHM. Utilizando bases de datos para determinar sus genes diana, encontramos una modulación por el aumento de miR-494-39, miR-656-3p y miR-130b-3p de la expresión de TNFAIP3 (proteína A20) y ZFP36 (proteína TTP) aumentaría los niveles de citoquinas proinflamatorias como IL-17 y TNF¿. Finalmente, estudiamos el repertorio de receptores de células T (TCR) de pacientes control, y de pacientes cirróticos con y sin EHM, a partir del conjunto de datos de RNA-seq procedentes de células T CD4+ aisladas previamente. Dado que los experimentos de RNA-seq contienen genes del TCR en una fracción de los datos, se puede analizar el repertorio sin necesidad de generar datos adicionales. Tras el alineamiento de las lecturas con la base de datos de los genes VDJ realizada por la herramienta MiXCR, recuperamos entre 498-1114 cadenas TCR beta distintas por paciente. Los resultados mostraron un bajo número de clones públicos (convergencia clonal), una alta diversidad (expansión clonal) y una elevada similitud en la arquitectura de la secuencia dentro de los repertorios, independientemente del estado inmunitario de los 3 grupos de pacientes. Además, detectamos una sobrerrepresentación significativa de los TCRs relacionados con la enfermedad celíaca y la enfermedad inflamatoria intestinal en los repertorios de los pacientes con EHM. / [CA] L'objectiu principal d'aquest treball va ser conèixer les alteracions immunològiques associades a la inflamació perifèrica que desencadenen deteriorament cognitiu en els pacients cirròtics amb encefalopatia hepàtica mínima (EHM). Aquests canvis poden ser monitoritzats com cascades de senyalització al llarg dels tipus cel·lulars del sistema immune. Com a estudi preliminar, es van analitzar els canvis en l'expressió gènica (transcriptòmica), els metabòlits de plasma (metabolòmica) i un conjunt de citocines extracel·lulars en mostres de sang de pacients cirròtics amb i sense EHM. Els resultats de l'anàlisi transcriptòmica van recolzar la hipòtesi d'alternances en les poblacions cel·lulars de limfòcits Th1/Th2 i Th17 com a principals impulsors de la EHM. L'anàlisi clúster de les molècules del sèrum va donar com a resultat 6 grups de compostos químicament similars. També s'ha realitzat una anàlisi d'integració multiòmica per detectar les relacions entre els components intra i extracel·lulars que podrien contribuir a la inducció del deteriorament cognitiu. Els resultats d'aquesta anàlisi d'integració van suggerir una relació entre les citocines CCL20, CX3CL1, CXCL13, IL-15, IL-22 i IL-6 amb l'alteració de la quimiotaxis, així com un vincle entre els fosfolípids insaturats de cadena llarga i l'augment del transport d'àcids grassos i la producció de prostaglandines. Estudis previs suggereixen que un canvi en la inflamació perifèrica, orquestrat principalment per les cèl·lules T CD4+, és un factor crític que desencadena el deteriorament cognitiu en EHM. La segona part de la tesi es va centrar en la comprensió de les rutes genètiques i els mecanismes pels quals les alteracions en els limfòcits CD4+ poden contribuir a la inflamació perifèrica en EHM. Es van analitzar els nivells d'expressió de gens, factors de transcripció i miARNs en aquest subtipus de limfòcits mitjançant seqüenciació d'alt rendiment (RNA-seq i miRNA-seq). L'anàlisi individual de cada grup de dades va mostrar les diferències d'expressió d'ARNm i miARN, així com les vies biològiques alterades en els limfòcits CD4+ comparant pacients cirròtics amb i sense EHM. Trobàrem alteracions en 167 ARNm i 20 rutes biològiques en els pacients amb EHM, incloent els receptors tipus Toll, la senyalització de la IL-17 i les vies del metabolisme de la histidina i el triptòfan. Tretze miRNAs i 7 factors de transcripció van presentar alteracions en els pacients amb EHM. Després utilitzàrem bases de dades per determinar els seus gens diana, els quals van resultar ser codificants per proteïnes clau implicades en el canvi immunològic que desencadena la EHM. Per exemple, la modulació per l'augment de miR-494-39, miR-656-3p i miR-130b-3p de l'expressió de TNFAIP3 (proteïna A20) i ZFP36 (proteïna TTP) augmentaria els nivells de citocines proinflamatòries com IL-17 i TNF¿. L'última part de la tesi comprèn un cas pràctic en el qual s'estudia el repertori de receptors de cèl·lules T (TCR) de pacients control, i de pacients cirròtics amb i sense EHM, a partir del conjunt de dades de RNA-seq procedents de cèl·lules T CD4+ aïllades prèviament. Atès que els experiments de RNA-seq contenen gens del TCR en una fracció de les dades, es crea una oportunitat per a l'anàlisi del repertori sense necessitat de generar dades addicionals, el qual redueix la quantitat i els costos de les mostres. Després de l'alineament de les lectures amb la base de dades dels gens VDJ realitzada per l'eina MiXCR, recuperàrem entre 498-1114 cadenes TCR beta diferents per pacient. Els resultats van mostrar un baix nombre de clons públics (convergència clonal), una alta diversitat (expansió clonal) i una elevada similitud en l'arquitectura de la seqüència dins dels repertoris, independentment de l'estat immunitari dels 3 grups de pacients. A més, detectàrem una sobrerepresentació significativa dels TCRs relacionats amb la malaltia celíaca i la malaltia inflamatòria intestinal en els repertoris dels pacients amb EHM. / [EN] The main objective of this work was to understand the immunological alterations associated with the peripheral inflammation that trigger minimal hepatic encephalopathy (MHE) in patients with cirrhosis. These changes can be monitored through the signaling cascades of different immune system cell types. In this work, in a preliminary study, changes in gene expression (transcriptomics), plasma metabolites (metabolomics), and a panel of extracellular cytokines were analyzed in blood samples from patients with cirrhosis with and without MHE. Transcriptomics analysis supported the hypothesis that alternations in the Th1/Th2 and Th17 lymphocyte cell populations are the major drivers of MHE. Cluster analysis of serum molecules highlighted 6 groups of chemically similar compounds. We also developed a multi-omic integration analysis pipeline to detect covariation between intra- and extracellular components that could contribute to the induction of cognitive impairment. Results of this integrative analysis suggested a relationship between cytokines CCL20, CX3CL1, CXCL13, IL-15, IL-22, and IL-6 and altered chemotaxis, as well as a link between long-chain unsaturated phospholipids and increased fatty acid transport and prostaglandin production. A shift in peripheral inflammation in patients with MHE, mainly orchestrated by CD4+ T cells, had been proposed in previous studies as a critical factor that triggers cognitive impairment. The second part of this thesis focused on understanding the pathways and mechanisms by which alterations in CD4+ lymphocytes may contribute to peripheral inflammation in MHE. Thus, the expression levels of genes, transcription factors, and miRNAs were analyzed in this lymphocyte subtype by high throughput sequencing (RNA-seq and miRNA-seq). Separate analysis of each dataset showed mRNA and miRNA expression differences and altered biological pathways in CD4+ lymphocytes when compared to patients with cirrhosis with and without MHE. We found alterations in 167 mRNAs and 20 pathways in patients with MHE, including toll-like receptors, IL-17 signaling, histidine, and tryptophan metabolism pathways. In addition, 13 miRNAs and 7 transcription factors presented alterations in patients with MHE. We used public databases to determine the target genes of these regulatory molecules and found that increased miR-494-39, miR-656-3p, and miR-130b-3p expression may modulate TNFAIP3 (A20) and ZFP36 (TTP) to increase levels of pro-inflammatory cytokines such as IL-17 and TNF¿. Finally, we present a case study of the T-cell receptor (TCR) repertoire profiles of control patients and patients with cirrhosis with and without MHE obtained from the bulk RNA-seq dataset previously generated from isolated CD4+ T cells. Given that RNA-seq experiments contain the TCR genes in a fraction of the data, the receptor repertoire analysis without the need to generate additional data is possible. After read alignment to the VDJ genes was performed with the MiXCR tool, we successfully recovered 498-1,114 distinct TCR beta chains per patient. Results showed fewer public clones (clonal convergence), higher diversity (clonal expansion), and elevated sequence architecture similarity within repertoires, independently of the immune status of the 3 groups of patients. Additionally, we detected significant overrepresentation of celiac disease and inflammatory bowel disease related TCRs in MHE patient repertoires. To the best of our knowledge, this is one of the few studies to have shown a step-by-step pipeline for the analysis of immune repertoires using whole transcriptome RNA-seq reads as source data. In conclusion, our work identified potentially relevant molecular mechanisms of the changes in the immune system associated with the onset of MHE in patients with cirrhosis. Future work with a large sample cohort will be required to validate these results in terms of biomarker determination and the development of new, more effective treatments for MHE. / Rubio Martínez-Abarca, MT. (2022). Multi-omic data integration study of immune system alterations in the development of minimal hepatic encephalopathy in patients with liver cirrhosis [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/185116

Encefalopatía hepática mínima

Células T CD4

Análisis multiómico

Transcriptómica

Metabolómica

Mínimos cuadrados

Receptor de células T

Minimal Hepatic Encephalopathy

CD4 T-cells

Multi-omic analysis

Transcriptomics

Metabolomics

RNA-seq

MiRNA-seq

Partial Least Squares

T-cell receptor

Nextflow

ESTADISTICA E INVESTIGACION OPERATIVA

Identification and characterization of miRNA-133b as a novel regulator of death receptor mediated apoptosis

Arcila, Juan Pablo Patrón

25 November 2010

MicroRNAs (miRNAs) sind endogenene kurze RNA-Moleküle, die zentrale Aufgaben bei der Regulation der eukaryotischen Zellhomöostase erfüllen. MiRNAs wurden bereits als potente Immunregulatoren beschrieben. Trotz dieser Erkenntnisse blieb die Rolle dieser kurzen RNA Moleküle in Infektionen mit Mycobacterium tuberculosis weitgehend unerforscht. Im Rahmen dieser Arbeit wurde ein miRNA-Expressionsprofil von Makrophagen generiert, die mit Mycobacterium tuberculosis infiziert waren. Dies ermöglichte die Identifizierung von miRNAs, welche bei der Infektion differenziell reguliert waren. Anhand eines ex-vivo-Modells von Todesrezeptor-induzierter Apoptose konnte gezeigt werden, dass miRNA-133b apoptoseresitente Zellen empfindlich gegen Tumornekrosefaktor-alpha (TNFalpha), TNF-related apoptosis-inducing ligand (TRAIL) oder CD95 ligand (Fas/APO1 ligand) induzierte Zytotoxizität machte. Eine umfassende Studie führte zur Identifizierung der anti-apoptotischen Proteine Fas apoptosis inhibitory molecule (FAIM) und glutathione-S-transferase pi (GSTP1) als direkte Zielgene für miRNA-133b. Desweiteren zeigte sich die Expression von Osteoprotegerin (OPG) und Fettsäuresynthase (FASN), als miRNA-133b abhängig. Dies unterstrich die pleiotrope Art der pro-apoptotischen Aktivität dieser miRNA. Die Expression von miRNA-133b wurde durch Mitglieder der Toll-like Rezeptor (TLR)-Familie aktiviert. MiRNA-133b Transfektion führte zu einer verstärkten Aktivierung des Transkriptionsfaktors nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB). Diese resultierte in erhöhten Mengen an Interleukinen 6 und 8 (IL6/8). Diese Ergebnisse stellen die erste detaillierte Charakterisierung von miRNA-133b im Zusammenhang der Todesrezeptor-vermittelten Apoptose und der angeborenen Immunität dar. Die erforschten molekularen Wechselwirkungen ergänzen und bereichern das Verständnis über die regulatorischen molekularen Mechanismen, die mit der Tumorentstehung und Entzündung verbunden sind. / MicroRNAs (miRNAs) are endogenous short RNA molecules which perform essential tasks in the regulation of eukaryotic cell homeostasis. During the past few years miRNAs have emerged as very potent immune regulators. Despite the consequences of this discovery for our understanding of immune response regulation hitherto virtually nothing is known about miRNA function during innate immunity to Mycobacterium tuberculosis. Herein, a miRNA expression profile of human macrophages infected with Mycobacterium tuberculosis was generated. This led to the identification of miRNAs being differentially regulated during infection. By using an experimental ex-vivo model of death receptor (DR)-induced apoptosis it could be demonstrated that miRNA-133b rendered apoptosis-resistant cells sensitive to tumor necrosis factor-alpha (TNFalpha)-, TNF-related apoptosis-inducing ligand (TRAIL)- or CD95 ligand (Fas/APO1 ligand)-activated cytotoxicity. Comprehensive analysis led to the discovery of the anti-apoptotic proteins Fas apoptosis inhibitory molecule (FAIM) and glutathione-S-transferase pi (GSTP1) as direct miRNA-133b targets. Moreover, underlining the pleiotropic and synergistic nature of miRNA activity, the expression of osteoprotegerin (OPG) and fatty acid synthase (FASN) could be further proven as miRNA-133b dependent. Expression of miRNA-133b increased following innate immune activation by members of the Toll-like receptor (TLR) family. MiRNA-133b enhanced the activity of the transcription factor nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB). This translated into increased levels of the pro-inflammatory interleukins 6 and 8 (IL6/8). The results presented in this work represent the first detailed characterization of miRNA-133b in the context of DR-mediated apoptosis and innate immunity. The molecular interactions dissected herein improve the understanding of the regulatory processes associated with tumorigenesis and the immune response.

Mycobacterium tuberculosis

Toll-like Rezeptor

Immunantwort

microRNA

Todesrezeptor-induzierte Apoptose

miRNA-133b

Tumornekrosefaktor-alpha

TNF-related apoptosis-inducing ligand

CD95 ligand

Tumorgenese.

Mycobacterium tuberculosis

Toll-like receptor

immune response

microRNA

death receptor-induced apoptosis

miRNA-133b

tumor necrosis factor-alpha

TNF-related apoptosis-inducing ligand

CD95 ligand

tumorigenesis.

570 Biowissenschaften, Biologie

32 Biologie

WD 5355

ddc:570

Développement d’outils pour l’étude in vivo de la régulation post-transcriptionnelle chez Caenorhabditis elegans / Tools developpement for in vivo post-transcriptional regulation study in Caenorhabditis elegans

Zniber, Ilyass

17 December 2012

La régulation de l’expression des gènes est fondamentale pour coordonner la synthèse, l’assemblage et la localisation des complexes macromoléculaires dans les cellules. Cette expression est régulée à divers niveaux. Elle commence dans le noyau où les facteurs de transcription se lient à des séquences spécifiques d’ADN et recrutent les ARN polymérases pour la synthèse des ARN. La régulation à ce niveau est dite transcriptionnelle. Les protéines de liaison à l’ARN s’associent avec l’ARN en cours de synthèse et opèrent divers modifications comme l’addition d’une coiffe en 5’, l’épissage, l’édition et la poly-adénylation en 3’. Les transcrits sont alors exportés vers le cytoplasme où ils vont être adressés et stockés dans des régions subcellulaires. Les ARNm s’assemblent avec des facteurs de traduction et les ribosomes pour initier la synthèse protéique de manière contrôlée. Enfin, les ARNm sont dégradés. Les régulations qui touchent chacune de ces étapes sont dites post-transcriptionnelles. Le développement récent d’outils d’analyse à l’échelle génomique ont permis une meilleure compréhension globale des programmes de régulation des gènes au niveau transcriptionnel. Cependant, l’architecture globale des systèmes qui régulent les étapes post-transcriptionnelles d’expression des gènes est encore peu connue. Un tel système de régulation post-transcriptionnelle doit être contrôlé par des centaines de protéines de liaison à l’ARN et de microARN (miARN) encodés dans les génomes eucaryotes. C’est pourquoi il est important de disposer d’outils et de plateformes adaptés à l’étude de cette régulation à l’échelle génomique. Dans cette thèse, nous nous sommes intéressés à deux programmes de la régulation post-transcriptionnelle chez Caenorhabditis elegans : l’épissage alternatif et la régulation par les miARN. Nous avons utilisés des vers rapporteurs de l’épissage alternatif exprimant la double fluorescence GFP et RFP afin d’étudier l’architecture de cette régulation et l’identification ou la validation des facteurs en trans et des éléments en cis par génétique classique en utilisant la mutagenèse aléatoire, l’automatisation du crible grâce au COPAS biosorter et le séquençage des génomes entiers. Nous avons également modifiés en profondeur le module ReFlx du cytomètre en flux adapté aux organismes de grande taille (COPAS Biosorter) afin d’éliminer les problèmes de contamination et diviser par sept le temps nécessaire au traitement dans le but de mener une étude de génétique inverse à haut débit par ARN interférence. Nous avons enfin générer des lignées fluorescentes bi-colores pour étudier la régulation dépendante de la région 3’ UTR grâce aux microARN. / The regulation of gene expression is fundamental to coordinate the synthesis, assembly and localization of macromolecular complexes in cells. This expression is regulated at various levels. It begins in the nucleus where transcription factors bind to specific DNA sequences and recruit RNA polymerases to synthesize RNA. Regulation at this level is called transcriptional. RNA binding proteins associate with RNA during synthesis and operate various modifications such as the addition of a 5' cap, splicing, editing and polyadenylation at the 3'. The transcripts are then exported to the cytoplasm where they will be sent to subcellular regions and stored. mRNA are then associated with translation factors and ribosomes to initiate protein synthesis in a controlled manner. Finally, mRNAs are degraded. Regulations that affect each of these steps are called post-transcriptional regulations. The recent tools developments for genomic scale analysis have allowed a better overall understanding of gene regulation programs at the transcriptional level. However, the overall architecture of systems that regulate post-transcriptional steps of gene expression is still misunderstood. Such a system of post-transcriptional regulation must be controlled by hundreds of RNA binding proteins and microRNA (miRNA) encoded in eukaryotic genomes. This is why it is important to have tools and platforms suited to the study of the post-transcriptional regulation on a genomic scale. During this thesis, we have focused our work on two post-transcriptional regulation programs in Caenorhabditis elegans : alternative splicing and miRNAs regulation. We used GFP and RFP double fluorescent alternative splicing reporter lines to study the architecture of this regulation and to identify trans factors and cis-elements by using forward genetics, random mutagenesis, automated screen through COPAS biosorter and whole genome sequencing. We also extensively modified the ReFlx module of the COPAS to fix carry over problems and divide by seven the time required for processing in order to conduct a High throughput reverse genetic study using RNA interference. We finally generate bi-color fluorescent lines to study 3 'UTR regulation mediated by microRNAs.

Caenorhabditis elegans

Régulation post-transcriptionnelle

Épissage alternatif

MicroARN

COPAS biosorter

Module ReFlx

Séquençage génome entier

Lignées double fluorescentes

Haut débit

ARNi

Caenorhabditis elegans

Post-transcriptional regulation

Alternative splicing

MiRNA

COPAS biosorter

ReFlx module

Whole genome sequencing

Bi-fluorescent lines

High throughput

RNAi

Host-Pathogen Interactions in Hepatitis C Virus Infection : Deciphering the Role of Host Proteins and MicroRNAs

Shwetha, S

January 2015

Host-pathogen interactions in Hepatitis C Virus infection: Deciphering the role of host proteins and microRNAs Hepatitis C virus (HCV) is a positive sense single stranded RNA virus belonging to the Hepacivirus genus of the Flaviviridae family. HCV genome consists of a single open reading frame flanked by highly structured 5‟ and 3‟ untranslated regions (UTRs) at both ends. Unlike cellular mRNAs, HCV RNA translation is independent of the cap structure and is mediated by an internal ribosomal entry site (IRES) present in the 5‟UTR. HCV replication begins with the synthesis of a complementary negative-strand RNA using the positive strand RNA genome as a template catalyzed by the NS5B RNA dependent RNA polymerase (RdRp). The de novo priming of HCV RNA synthesis by NS5B occurs at the very end of the 3‟UTR. The 3‟UTR is organized into highly structured regions namely the variable region, poly U/UC region and the 3‟X region. These regions contain cis-acting elements that determine the efficiency of viral replication. In addition, the interaction of trans-acting factors with the 3‟ UTR is also important for regulation of HCV replication. HCV 3‟UTR interacts with several cellular proteins such as the human La protein, polypyrimdine tract binding protein (PTB), poly (rC)-binding protein 2 (PCBP2) and Human antigen R (HuR). However, the molecular basis of regulation of viral replication by these proteins is not well understood. Many proteins that are hijacked by HCV as well as other cytoplasmic RNA viruses, such as La, PCBP2, HuR and PTB are RNA binding proteins (RBPs). They are involved in post transcriptional regulation of cellular gene expression. Thus the subversion of these proteins by the virus can affect their normal physiological functions. In addition to proteins, recent reports also describe the involvement of non-coding RNAs including microRNAs (miRNA) and long non coding RNAs (lncRNA) in HCV infection. miRNAs can either directly bind to the HCV genome and regulate its life cycle or indirectly modulate the expression of host proteins required by the virus. miRNAs that are differentially regulated in virus infected tissues or body fluids of infected patients can also serve as biomarkers for diagnosis of various stages of the disease. Hence, it was planned to study the role of host proteins and miRNAs in the HCV life cycle and pathogenesis to have novel insights into the biology of HCV infection. Riboproteomic studies have identified several host proteins that directly interact with the 5‟ and/or 3‟UTRs of the HCV RNA. One of the RNA binding proteins that predominantly interact with the 3‟UTR of HCV RNA was found to be HuR. In the present study, we have extensively characterized the interaction between HuR and HCV 3‟UTR and studied its functional implications in HCV life cycle along with other host factors. Characterizing the HCV 3’UTR–HuR interaction and its role in HCV replication HuR is a ubiquitously expressed member of the Hu family which shuttles between the nucleus and cytoplasm in response to stress. Whole genome siRNA knockdown and other studies have suggested that HuR is essential for HCV replication. However, the molecular mechanism of its involvement in this process was not clear. We observed that siRNA mediated knockdown of HuR reduces the HCV RNA and protein levels. Immunofluorescence studies indicated that HuR relocalizes from the nucleus to the cytoplasm in HCV infected cells. Through confocal microscopy and GST pulldown assays, we have demonstrated that HuR co localizes with the viral polymerase, NS5B and directly interacts with the NS5B protein. Membrane flotation assays showed that HuR is present in the detergent resistant membrane fractions which are the active sites of HCV replication. In addition to the interaction of HuR with the viral protein NS5B, we also characterized its interaction with the viral RNA. Direct UV cross linking assays and UV cross linking immunoprecipitation assays were performed to demonstrate the interaction of HuR with the HCV 3‟UTR. The RRM3, hinge region and RRM1 of HuR were found to be important for binding. Further, we observed that HuR competes with PTB for binding to the 3‟UTR when cytoplasmic S10 extracts or recombinant proteins were used in UV cross linking assays. In contrast, the addition of HuR facilitated the binding of La protein to the HCV 3‟UTR in the above assays. Competition UV cross linking assays indicated that both HuR and PTB bind to the poly U/UC region of the 3‟UTR while La binds to the variable region. HuR and La showed higher affinities for binding to the 3‟UTR as compared to PTB in filter binding assays. Since HuR and PTB interact with the same region on the 3‟UTR and HuR showed ~4 fold higher affinity for binding, it could displace PTB from the 3‟UTR. Next, we investigated the roles of HuR, PTB and La in HCV translation and replication in cell culture using three different assay systems, HCV sub genomic replicon, HCV bicistronic SGR-JFH1/Luc replicon as well as the infectious HCV full length RNA (JFH1). Results clearly indicated that HuR and La are positive modulators of HCV replication. Interestingly, PTB facilitated HCV IRES mediated translation but appeared to have a negative effect on HCV replication. The positive effectors, HuR and La showed significant co localization with one another in the cytoplasm in immunofluorescence studies. GST pulldown and coimmunoprecipitation experiments indicated protein-protein interactions between HuR and La but not between HuR and PTB. Through quantitative IP-RT assays, we demonstrated that the overexpression of HuR in HCV RNA transfected cells increases the association of La with the HCV RNA while HuR knockdown reduces the association of La with the HCV RNA. Previous studies in our laboratory have shown that La helps in HCV genome circularization. The addition of HuR significantly increased La mediated interactions between the 5‟UTR and the 3‟UTR of HCV RNA as monitored by 5‟-3‟ co precipitation assays, suggesting a possible mechanism by which cooperative binding of HuR and La could positively regulate HCV replication. Taken together, our results suggest a possible interplay between HuR, PTB and La in the regulation of HCV replication. Studying the role of HuR- associated cellular RNAs in HCV infection HuR belongs to the category of mRNA turnover and translation regulatory proteins (TTR-RBPs), which are capable of triggering rapid and robust changes in cellular gene expression. HuR plays a role in several post transcriptional events such as mRNA splicing, export, stability and translation. In the present study, we have investigated the possible consequences of relocalization of HuR on cellular processes in the context of HCV infection. We observed that 72h post transfection of infectious HCV-JFH1 RNA, there is an increase in the mRNA levels of some of the validated targets of HuR including the vascular endothelial growth factor A (VEGFA), dual specificity phosphatise 1 (MKP1) and metastasis - associated lung adenocarcinoma transcript (MALAT1). IP-RT assays demonstrated that the association of HuR with VEGFA and MKP1 was higher in HCV-JFH1 RNA transfected cells as compared to the mock transfected cells indicating that increase in HuR association could probably help in stabilization of these mRNAs. Interestingly, we observed that the association of HuR with the lncRNA MALAT1 decreases in the presence of HCV RNA, while its RNA levels increased. Earlier it has been reported that MALAT1 interacts with HuR and was predicted to interact with La. We confirmed the interaction of both HuR and La proteins with MALAT1 RNA in vitro and in the cell culture system. Results from our time course experiments suggest that relocalization of HuR and La upon HCV infection might decrease their association with the nuclear retained MALAT1 RNA leading to significant reduction in MALAT1 RNA levels at the initial time points. However at later time points, MALAT1 was found to be unregulated through activation of the Wnt/beta-catenin pathway as demonstrated using a chemical inhibitor against β-catenin. Since MALAT1 is a known regulator of epithelial mesenchymal transition (EMT) and metastasis, we further studied the physiological consequence of the observed increase in MALAT1 levels upon HCV infection. Cell migration and cell invasion studies suggested that the knockdown of MALAT1 led to the inhibition of HCV- triggered wound healing and matrigel invasion and also rescued the down regulation of E-Cadherin protein levels, an EMT marker. Our study highlights the importance of the lncRNA, MALAT1 in HCV infection and suggests its possible involvement in HCV induced HCC. Investigating the role of miRNAs in HCV pathogenesis and replication miRNAs can also regulate HCV infection and pathogenesis in multiple ways. It is known that under disease conditions, there is aberrant expression of intracellular as well as circulating miRNAs. We have investigated the expression profile of 940 human miRNAs in HCV infected patient serum samples to identify the differentially regulated miRNAs. miR-320c, miR-483-5p and the previously reported miR-125b were found to be upregulated in the serum of cirrhotic and non-cirrhotic HCV infected patient serum samples. All three miRNAs were also unregulated in the cell culture supernatant of HCV infected cells as well as within the HCV infected cells. miR-483-5p was specifically enriched in the exosomes isolated from patient serum samples. Knockdown of miR-320c and miR-483-5p did not have significant effect on HCV replication while knockdown of miR-125b affected HCV replication through regulation of one of its target genes, HuR. We observed that with time, miR-125b levels in HCV-JFH1 RNA transfected cells increase while the HuR protein levels decrease. Using luciferase reporter constructs, we demonstrated that the decrease in HuR protein levels is indeed mediated by miR-125b. Mutations in the target site of miR-125b in the HuR 3‟UTR prevented the down regulation of luciferase activity. Next we tested the effect of silencing miR-125b on HCV replication. Knockdown of miR-125b prevented the reduction in HuR protein levels but with no significant effect on HCV replication. It appeared that the HuR protein already present in the cytoplasm could be sufficient to support HCV replication. Hence similar experiments were carried out in cells depleted of HuR using either siRNA against HuR or a chemical inhibitor of nucleocytoplasmic transport of HuR, Leptomycin B. We observed that when the intracellular levels of HuR are reduced using either of the two approaches, there is a decrease in HCV replication. This is in accordance with the results obtained in the first part of the thesis. However when miR-125b was silenced in HuR depleted cells, we noticed an upregulation in the HuR protein levels by western blot analysis and a consequent increase in HCV RNA levels as quantified by qRT-PCR. From our findings, we can conclude that miR-125b mediated regulation of HuR plays an important role in HCV replication. We hypothesize that this could be a cellular response to HCV infection to which the virus responds by inducing protein relocalization. Altogether, these studies outline the importance of host factors including cellular proteins and non-coding RNAs in the regulation of HCV life cycle and pathogenesis. Results reveal the mechanistic insights into how HCV infection triggers host defense pathways, which are evaded by the virus by counter strategies.

Hepatitis C Virus Infection

Micro RNAs - HCV Infection

RNA Viruses

Hepatitis C Virus Replication

Hepatitis C Virus (HCV) RNA Binding

Viral Proteins

Host Proteins-HCV Infection

Hepatitis C Virus Pathogenesis

Hepatitis C Virus Diagnosis and Therapy

HCV-RNA Translation

HCV - miRNA

HCV Replication

HCV IRES

HCV Pathogenesis

Microbiology and Cell Biology

Nanostructured Supports for Detection of Pathogens and Biomolecules of Interest Based on Molecular Gates with Oligonucleotides

Aranda Sobrino, María de las Nieves

03 November 2024

[ES] La tesis doctoral "Nanostructured supports for the detection of pathogens and biomolecules of interest based on molecular gates with oligonucleotides" se centra en el diseño de nanomateriales híbridos orgánico-inorgánicos como biosensores innovadores para la detección rápida y específica de patógenos como el virus del papiloma humano (VPH) y la bacteria Vibrio vulnificus, así como biomoléculas relevantes como miR-4732-3p, relacionado con la cardiotoxicidad en pacientes con cáncer. Los sensores desarrollados, basados en puertas moleculares en alúmina mesoporosa y validados con muestras clínicas, destacan por su alta sensibilidad, especificidad, rapidez y facilidad de uso, lo que los hace prometedores para aplicaciones en diagnóstico y monitoreo ambiental. / [CA] The doctoral thesis "Nanostructured supports for the detection of pathogens and biomolecules of interest based on molecular gates with oligonucleotides" focuses on the design of organic-hybrid nanomaterialsInorganic as innovative biosensors for rapid and specific detection of pathogens such as human papillomavirus (HPV) and the bacterium Vibrio vulnificus, as well as relevant biomolecules such as miR-4732-3p, related to cardiotoxicity in cancer patients. The developed sensors, based on mesoporous alumina molecular gates and validated with clinical samples, stand out for their high sensitivity, specificity, speed and ease of use, which makes them promising for applications in diagnosis and environmental monitoring. / [EN] La tesi doctoral "Nanostructured supports for the detection of pathogens and biomolecules of interest based on molecular gates with oligonucleotides" se centra en el disseny de nanomaterials híbrids orgànic-inorgànics com biosensors innovadors per a la detecció ràpida i específica de patògens com el virus del papil·loma humà (VPH) i el bacteri Vibrio vulnificus, així com biomolècules rellevants com miR-4732-3p, relacionat amb la cardiotoxicitat en pacients amb càncer. Els sensors desenrotllats, basats en portes moleculars en alúmina mesoporosa i validats amb mostres clíniques, destaquen per la seua alta sensibilitat, especificitat, rapidesa i facilitat d'ús, la qual cosa els fa prometedors per a aplicacions en diagnòstic i monitoratge ambiental. / This research was supported by project PID2021-126304OB-C41 funded by MCIN/AEI and by European Regional Development Fund - A way of doing Europe. This work has received funding from the European Union’s Horizon 2020 Development of an Innovative Fluorogenic Biosensor for Direct Detection of Vibrio vulnificus, a Climate Change Biomarker research and innovation programme under grant agreement No 899708. This research was also supported by CIBER -Consorcio Centro de Investigación Biomédica en Red (CB06/01/2012), Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación. This study forms part of the Advanced Materials programme (MFA/2022/049) and was supported by MCIN with funding from European Union NextGeneration EU (PRTR-C17.I1) and by Generalitat Valenciana. The study was also supported by the grants PID2020-120619RB-I00 funded by MCIN/AEI and CIAICO/2021/293 funded by “Conselleria de Educación, Universidades y Empleo” (Generalitat Valenciana, Spain). / Aranda Sobrino, MDLN. (2024). Nanostructured Supports for Detection of Pathogens and Biomolecules of Interest Based on Molecular Gates with Oligonucleotides [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/211237

Biosensors

Gated materials

Nanoporous anodic alumina

Vibrio vulnificus

Human papilomavirus

miRNA

Oligonucleotides

QUIMICA INORGANICA