Global ETD Search

81	Effet d'une exposition fœtale à de faibles doses de perturbateur endocrinien à activité anti-androgénique, le flutamide, sur le testicule de rat adulte. / Effects of foetal low doses exposition to an anti-andrognenic endocrine disruptor, Flutamide, on adulte rat testis. Inoubli, Lilia 12 July 2017 (has links) L'exposition durant la vie périnatale à des perturbateurs endocriniens (PE) anti-androgéniques, induit des altérations durables du système reproducteur mâle. Si leur action a été objectivée chez l’homme et l’animal, la question du seuil de toxicité reste entière, car l’exposition environnementale correspond à de faibles doses. Ici, nous exposons in utero des rats mâles à de faibles doses de flutamide: 10 mg/kg/j ; 1; 3 doses faibles selon la définition de l'OMS 0.1; 0.01; 0.001 et 0. L'exposition fœtale induit chez l’adulte (1) des altérations morphologiques à la dose 10 mg/kg/j (diminution du poids des organes du tractus génital et une diminution du compte spermatique); (2) des altérations cellulaires à partir de 1mg (augmentation de l'apoptose des cellules germinales) et (3) des altérations moléculaires à toutes les doses testées pour MCL1, BCL2, XIAP, HSPA2, ELAVL1 et MOV10L1. Ces altérations s’intègrent dans la dérégulation de 2 voies de signalisation expliquant l’apoptose des cellules germinalesLorsque l’exposition a lieu à l’âge l’adulte dans les mêmes conditions, les effets morphologiques et cellulaires sont observés uniquement à 10mg, les effets moléculaires uniquement aux doses 10 et 1 mg. Ces effets ne sont plus observés 2 mois après l’arrêt de l’exposition. En conclusion : Nous avons (i) identifié des voies de signalisation impliquées dans le phénotype d’infertilité induite par une exposition à de faibles doses d’anti-androgène ; (ii) montré que ces voies étaient actives aux plus faibles doses testées prédisposant à une infertilité masculine programmée in utero / Exposure during perinatal life to anti-androgenic endocrine disruptors (ED) induces sustained alterations of the male reproductive system. Although their action has been objectified in humans and animals, the question of the threshold of toxicity remains unchanged, as environmental exposure corresponds to low doses. Here, we exposed male rats, in utero, to low doses of flutamide: 10 mg/kg/d; 1; 3 low doses as defined by WHO 0.1; 0.01; 0.001 and 0. Fetal exposure induced in adults (1) morphological alterations at a dose of 10 mg/kg/day (decrease in the weight of organs of the genital tract and a decrease in the sperm count); (2) cellular alterations from 1mg (increase in germ cell apoptosis) and (3) molecular alterations at all doses tested for MCL1, BCL2, XIAP, HSPA2,LAVL1 and MOV10L1. These alterations are integrated in the deregulation of 2 signaling pathways explaining the apoptosis of the germ cellsWhen exposure occurs at adult age under the same conditions, morphological and cellular effects are observed only at 10mg, molecular effects only at doses 10 and 1 mg. These effects are no longer observed 2 months after discontinuation of exposure. In conclusion: We have (i) identified signaling pathways involved in the phenotype of infertility induced by exposure to low doses of antiandrogen; (ii) showed that these pathways were active at the lowest doses tested predisposing to programmed male infertility in utero Faibles doses Flutamide Testicule Programmation dévelopementale MiRNA Low doses Flutamide Testis Developmental programing MiRNA
82	Therapeutic miR-506-3p Replacement in Pancreatic Carcinoma Leads to Multiple Effects including Autophagy, Apoptosis, Senescence, and Mitochondrial Alterations In Vitro and In Vivo Borchardt, Hannes, Kogel, Alexander, Kalwa, Hermann, Weirauch, Ulrike, Aigner, Achim 03 November 2023 (has links) Pancreatic ductal adenocarcinoma (PDAC) is a leading cause of cancer mortality. Considering its very poor prognosis, novel treatment options are urgently needed. MicroRNAs (miRNAs) are involved in the regulation of various physiological and pathological processes. In tumors, aberrant downregulation of given miRNAs may result in pathological overexpression of oncogenes, rendering miRNA replacement as a promising therapeutic strategy. In different tumor entities, miRNA-506-3p (miR506-3p) has been ambivalently described as tumor suppressing or oncogenic. In PDAC, miR-506 is mainly considered as a tumor-suppressing miRNA. In this study, we extensively analyze the cellular and molecular effects of miRNA-506-3p replacement in different PDAC cell lines. Beyond profound antiproliferation and induction of cell death and autophagy, we describe new cellular miR506-3p effects, i.e., induction of senescence and reactive oxygen species (ROS), as well as alterations in mitochondrial potential and structure, and identify multiple underlying molecular effects. In a preclinical therapy study, PDAC xenograft-bearing mice were treated with nanoparticle-formulated miRNA-506 mimics. Profound tumor inhibition upon systemic miRNA-506 administration was associated with multiple cellular and molecular effects. This demonstrates miRNA replacement as a potential therapeutic option for PDAC patients. Due to its broad mechanisms of action on multiple relevant target genes, miR506-3p is identified as a particularly powerful tumor-inhibitory miRNA. info:eu-repo/classification/ddc/610 ddc:610
83	Examining Virus Interactions with Host Serine Hydrolases in Immunometabolism Stern, Tiffany 12 January 2024 (has links) As obligatory intracellular parasites, viruses are in a constant battle with their host to establish infection. They can facilitate their propagation by modulating host immune or metabolic pathways. This modulation involves targeting various molecular factors such as microRNAs (miRNA), enzymes, or small molecules. Understanding how viruses alter the chemical makeup of a cell is crucial to identifying what pathways are being targeted, furthering our understanding of the virus life cycle, and may aid in identifying biomarkers of disease. Here, we examine host-virus interactions in the context of two viruses, hepatitis c virus (HCV) and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). First, the modulation of serine hydrolases by a pro-viral microRNA, miRNA-122, is investigated using activity-based protein profiling (ABPP). This study identifies a downstream target of miRNA-122 that is differentially activated during HCV infection which can be targeted pharmacologically to reduce HCV infectivity. Second, we apply similar techniques to identify serine hydrolase changes associated with SARS-CoV-2 infection. Results point towards enrichment of endocannabinoid metabolism which may offer an alternative therapeutic avenue for combating SARS-CoV-2 infection. Together, the work presented in this thesis provides avenues for further investigation into miRNA-122 interactions during HCV infection and endocannabinoid metabolism in SARS-CoV-2 infection. activity-based protein profiling hepatitis c virus miRNA miRNA-122 SARS-CoV-2 serine hydrolase
84	The role of the mir-310s in Hedgehog Signaling regulation under dietary stress in the Drosophila ovary Çiçek, Ibrahim Ömer 22 May 2015 (has links) No description available. 570 Drosophila melanogaster miRNA diet Rab23 Hedgehog signaling Biologie (PPN619462639)
85	MicroRNAs as salivary markers for periodontal diseases Schmalz, Gerhard, Li, Simin, Burkhardt, Ralph, Rinke, Sven, Krause, Felix, Haak, Rainer, Ziebolz, Dirk 04 July 2016 (has links) (PDF) The aim of this review is to discuss current findings regarding the roles of miRNAs in periodontal diseases and the potential use of saliva as a diagnostic medium for corresponding miRNA investigations. For periodontal disease, investigations have been restricted to tissue samples and five miRNAs, that is, miR-142-3p, miR-146a, miR-155, miR-203, and miR-223, were repeatedly validated in vivo and in vitro by different validation methods. Particularly noticeable are the small sample sizes, different internal controls, and different case definitions of periodontitis in in vivo studies. Beside of that, the validated miRNAs are associated with inflammation and therefore with various diseases. Furthermore, several studies successfully explored the use of salivary miRNA species for the diagnosis of oral cancer. Different cancer types were investigated and heterogeneous methodology was used; moreover, no overlap of resultswas found. In conclusion, fivemiRNAs have consistently been reported for periodontitis; however, their disease specificity, detectability, and expression in saliva and their importance as noninvasive markers are questionable. In principle, a salivary miRNA diagnostic method seems feasible.However, standardized criteria and protocols for preanalytics, measurements, and analysis should be established to obtain comparable results across different studies. microRNA Parodontalerkrankungen Speichel miRNA parodontal diseases saliva ddc:610
86	Roles of the microRNA pathway in cortical development Nowakowski, Tomasz Jan January 2012 (has links) Dicer endoribonuclease catalyzes the maturation of microRNAs (miRNAs) from double stranded precursors. Studies conditionally inactivating Dicer in the mouse embryonic forebrain continue to shed light on the spectrum of biological processes subject to miRNA regulation. This study looked at defects of brain development following a widespread ablation of Dicer in the early forebrain. The neuroepithelial stem cells failed to specify the radial glia appropriately around the time when the first postmitotic neurons begin to be generated in the neuroepithelium. Ablation of Dicer in only a subset of radial glia was not accompanied by the early apoptosis observed in all other models of Dicer ablation in the cortex. This allowed the study of the role of miRNAs in regulating cell numbers in the cortex. The study revealed that generation of cortical cells is increased during postnatal development. Finally, the study identified a miRNA which is able to negatively regulate the development of neuronal precursor cells of the developing cortex by targeting Tbox transcription factor 2. Together the results presented in this Thesis contribute to the understanding of the roles of endogenous RNA interference in the development of the brain. 572.8
87	The Role of Erythrocytic miRNA in the lifecycle of Plasmodium falciparum LaMonte, Greg January 2012 (has links) <p>Malaria, caused by the apicomplexan parasite Plasmodium, is a disease which affects up to 500 million people each year. Historically, malaria infection has been combated both through the control of its vector, the Anopheles mosquito, and use of a variety of drugs, such as quinine (1800s) and chloroquine (1900s). However, with the evolution of resistance to the majority of available anti-malarial drugs, current approaches have settled upon combinatorial therapies. The most effective of these currently are ACTs (Artemisinin Combination Therapies - Artemisinin derivatives combined with a number of other drugs). However reports of Artemisinin resistance are continuing to emerge, suggesting that new approaches and increased understanding of the Plasmodium parasite is required.</p><p> Beginning with the complete sequencing of Plasmodium falciparum genome and continuing with comprehensive profiling of both the parasite's proteome and transcriptome, various genomic approaches applied in the study of malaria have led to significant new insights into the underlying biology of this parasite. While these new findings have greatly increased our understanding of genetic regulation within the malaria parasite, they largely have not yet translated into new therapeutic approaches. For this reason, considerable attention has been paid to the study of human genetic disorders which convey resistance to malaria, in the hopes that elucidating the mechanisms behind these resistances might lead to increased understanding of the parasite's biology and thus novel therapeutic approaches.</p><p> Sickle cell (HbS) erythrocytes are well known to resist malaria infection. However, the molecular basis of this resistance, long been recognized as multifactorial, contains elements which remain poorly understood. Here we show that the dysregulated erythrocytic microRNA composition, present in both HbAS and HbSS erythrocytes, is a significant determinant of resistance against the malaria parasite Plasmodium falciparum. During the intraerythrocytic lifecycle of P. falciparum, a subset of erythrocyte microRNAs translocate into the parasite. Two microRNAs, miR-451 and let-7i, were highly enriched in HbAS and HbSS erythrocytes and these miRNAs, along with miR-223, negatively regulated parasite growth. Surprisingly, we found that miR-451 and let-7i integrated into essential parasite mRNAs and, via impaired ribosomal loading, resulted in translational inhibition of the target mRNA. Hence, sickle cell erythrocytes exhibit cell-intrinsic resistance to malaria in part through an atypical microRNA activity which may present a novel host defense strategy against complex eukaryotic pathogens. In addition, the formation of these chimeric transcripts even in normal host erythrocytes illustrates a unique parasitic post-transcriptional adaptation to the host-cell environment.</p> / Dissertation Parasitology Genetics Host-Pathogen Interactions Malaria miRNA Sickle Cell Disease
88	Functional characterization of npcRNAs - Intercellular trafficking of generegulatory components via exosomes Böker, Kai Oliver 15 December 2016 (has links) No description available. 570 Biologie (PPN619462639)
89	Role of luteinising hormone in ovarian follicle development and maturation in the mare Schauer, Stephanie Nicole January 2013 (has links) Luteinising hormone (LH) is a crucial regulator of ovarian follicle maturation, ovulation and luteinisation. Development of healthy follicles and fertile ovulation can only occur within a specific range of circulating LH concentrations, with differing upper and lower limits depending on the stage of the oestrous cycle. The objective of the three studies in this thesis was to investigate the effects of both physiological and non-physiological circulating LH levels on equine follicular maturity by examining ovulatory and steroidogenic capacity, gene expression profiles and miRNA expression in ovulatory-size follicles at various stages of the oestrous cycle and/or in response to supplementation with LH. The aim of the first study was to investigate the hypothesis that deficient circulating LH is a primary cause for the inability of equine follicles to ovulate during the physiological anovulatory season. A LH-rich equine pituitary fraction (eLH) given twice daily to early transitional mares did not restore steroidogenic capacity of the ovulatory-size follicle or advance the onset of the natural breeding season; however, it significantly stimulated follicular growth to a level similar to that occurring during the normal oestrous cycle. The results demonstrated that a deficiency in LH is critically involved in reduced follicle growth during the anovulatory season. The second study examined the effects of elevated circulating LH levels early during follicle development on follicle maturation and ovulatory ability in cycling mares, with the hypothesis that excessive LH would disrupt ovulation and produce haemorrhagic anovulatory follicles (HAFs). Treatment with eLH or a luteolytic dose of prostaglandin F2α (to stimulate an increase in endogenous levels of LH) did not have any effects on follicle growth or ovulation, but did impair follicular production of androstenedione and insulin-like growth factor 1 (IGF1), suggesting a deleterious effect of high LH on follicle and oocyte maturation. The third study examined the expression of different follicular factors associated with follicle maturation as well as microRNAs (miRNAs) in ovulatory-size follicles naturally developing under different LH milieus (oestrus, dioestrus and spring transitional period). Progesterone and IGF1 were significantly reduced in follicles developing in a low LH environment (dioestrus and transition). All four miRNAs measured, miR-378, miR-542, miR-202 and miR-21 were found at higher levels in subordinate follicles than in preovulatory follicles during oestrus. In addition miR- 202 and miR-21 were significantly increased in transitional follicles relative to oestrous follicles. The results of this study indicate that follicles developing during both the spring transitional and dioestrous periods are developmentally immature and suggested potential important roles of miRNAs in follicle maturation in the horse. In summary, although LH is a key factor promoting follicular growth, it is by itself not sufficient to restore steroidogenic activity in transitional follicles. Elevated LH levels during follicle development do not disrupt ovulation, but induce changes in follicular fluid factors related to follicle maturation and oocyte quality. Follicles developing under different LH milieus show altered miRNA expression, suggesting an important role of miRNAs in follicle maturation. 636.1
90	Analýza krátkých izoforem proteinů Argonaut z myších oocytů / Analysis of short Argonaute isoforms from mouse oocytes Jankele, Radek January 2015 (has links) AnalysisofshortArgonauteisoformsfrommouseoocytes Abstract: Argonaute proteins carrying small RNAs form the conserved core of RNA silencing mechanisms, which repress viruses, mobile genetic elements, and genes in a sequence specific manner. The microRNA (miRNA) pathway is a dominant mammalian RNA silencing mechanism in somatic cells, which post-transcriptionally regulates large fraction of genes and thereby adjusts protein levels. miRNA-guided Argonautes inhibit translation and induce deadenylation of complementary mRNAs, ultimately resulting in their decay. In contrast to RNA interference (RNAi), which employs Argonaute slicer activity to directly cleave perfectly complementary RNAs, an effective miRNA-mediated mRNA repression requires multiple Argonaute-associated protein factors and enzymes. The miRNA pathway has been implicated in many complex biological processes ranging from organogenesis, stress-response to haematopoiesis or cancer. Surprisingly, canonical miRNAs are not essential for oocytes and early embryonic development in mice. Even the most abundant miRNAs present in mouse oocytes are unable to effectively repress target genes. However, RNAi, which shares key enzymes with the miRNA pathway, is highly active in oocytes and early embryos. The cause of miRNA inactivity in mouse oocytes remains...

Search results