Global ETD Search

581	Nucleic Acid Based Pathogen Diagnostics Akhras, Michael S. January 2008 (has links) Pathogenic organisms are transmitted to the host organism through all possible connected pathways, and cause a myriad of diseases states. Commonly occurring curable infectious diseases still impose the greatest health impacts on a worldwide perspective. The Bill & Melinda Gates Foundation partnered with RAND Corporation to form the Global Health Diagnostics Forum, with the goal of establishing and interpreting mathematical models for what effects a newly introduced point-of-care pathogen diagnostic would have in developing countries. The results were astonishing, with potentially millions of lives to be saved on an annual basis. Golden standard for diagnostics of pathogenic bacteria has long been cultureable medias. Environmental biologists have estimated that less than 1% of all bacteria are cultureable. Genomic-based approaches offer the potential to identify all microbes from all the biological kingdoms. Nucleic acid based pathogen diagnostics has evolved significantly over the past decades. Novel technologies offer increased potential in sensitivity, specificity, decreased costs and parallel sample management. However, most methods are confined to core laboratory facilities. To construct an ultimate nucleic acid based diagnostic for use in areas of need, potential frontline techniques need to be identified and combined. The research focus of this doctoral thesis work has been to develop and apply nucleic acid based methods for pathogen diagnostics. Methods and assays were applied to the two distinct systems i) screening for antibiotic resistance mutations in the bacterial pathogen Neisseria gonorrhoeae, and ii) genotype determination of the cancer causative Human Papillomavirus (HPV). The first part of the study included development of rapid, direct and multiplex Pyrosequencing nucleic acid screenings. With improved methodology in the sample preparation process, we could detect an existence of multiple co-infecting HPV genotypes at greater sensitivities than previously described, when using the same type of methodology. The second part of the study focused on multiplex nucleic acid amplification strategies using Molecular Inversion Probes with end-step Pyrosequencing screening. The PathogenMip assay presents a complete detection schematic for virtually any known pathogenic organism. We also introduce the novel Connector Inversion Probe, a padlock probe capable of complete gap-fill reactions for multiplex nucleic acid amplifications. / Patogena organismer smittas till värd organismen genom alla möjliga kontaktnätverk och skapar en mångfald olika sjukdomstillstånd. Dock är det fortfarande vanligt förekommande behandlingsbara infektiösa sjukdomar som orsakar den största hälsoförlusten, sett från ett globalt perspektiv. Bill och Melinda Gates Stiftelsen samarbetade med RAND kooperation för att forma “The Global Health Diagnostics Forum”. Deras mål var att etablera och analysera matematiska modeller för vilka effekter en ny diagnostisk metod utrustat för fältarbete skulle ha i utvecklingsländer. Resultaten var häpnadsveckande, med potentiellt miljoner av liv som skulle kunna räddas på en årlig basis. Den etablerade standarden för diagnostik av patogena bakterier har länge varit kultiveringsmedia baserad. Miljö specialiserade biologer har estimerat att mindre än 1 % av alla bakterie arter går att kultivera. Dock erbjuder genetiska analyser potentialen att kunna identifiera alla mikrober från alla de biologiska rikena. Nukleinsyrebaserade diagnostiska metoder har märkbart förbättrats över de senaste årtionden. Nya tekniker erbjuder utökad sensitivitet, selektivitet, sänkta kostnader och parallella analyser av patient prover. Dock är de flesta metoderna begränsade till standardiserade laboratoriemiljöer. För att konstruera en väl fungerande diagnostisk fältutrustning för användning i problem områden, behöver världsledande tekniker identifieras och kombineras. Fokuseringsområdet för denna doktorsavhandling har varit att utveckla och utföra nukleinsyrebaserade metoder för patogen diagnostik. Metoder och experimentella utförande applicerades på två distinkta system i) sökning av antibiotika resistens relaterade mutationer i den patogena bakterien Neisseria gonorrhoeae och ii) genotypning av det cancer orsakande Humana Papillomaviruset (HPV). Den första delen av studien inriktade sig mot utveckling av snabba, direkta och multiplexa Pyrosekvenserings baserade nukleinsyreanalyser. Med förbättrad provprepareringsmetodologi kunde vi detektera multipla HPV infektioner med högre sensitivitet än vad tidigare beskrivits med liknande metodologi. Den andra delen av studien fokuserades på multiplexa nukleinsyre amplifikationer med “Molecular Inversion Probe” tekniken med sista steg Pyrosekvenserings analys. “PathogenMip assay” erbjuder ett komplett detektionsprotokoll för alla kända patogena organismer. Vi introducerar även den nya “Connector Inversion Probe”, en “Padlock Probe” kapabel att genomföra kompletta gap fyllningar för multiplex nukleinsyre amplifiering. / QC 20100624 pathogen diagnostics antibiotic resistance connector inversion probes (CIPer) human papillomavirus (HPV) genotyping global health diagnostic forum molecular inversion probe (MIP) neisseria gonorrhoeae padlock probes pyrosequencing Biochemistry Biokemi
582	Genetic Sequence Analysis by Microarray Technology Hultin, Emilie January 2007 (has links) Developments within the field of genetic analysis have during the last decade become enormous. Advances in DNA sequencing technology have increased throughput from a thousand bases to over a billion bases in a day and decreased the cost thousandfold per base. Nevertheless, to sequence complex genomes like the human is still very expensive and efforts to attain even higher throughputs for less money are undertaken by researchers and companies. Genotyping systems for single nucleotide polymorphism (SNP) analysis with whole genome coverage have also been developed, with low cost per SNP. There is, however, a need for genotyping assays that are more cost efficient per sample with considerably higher accuracy. This thesis is focusing on a technology, based on competitive allele-specific extension and microarray detection, for genetic analysis. To increase specificity in allele-specific extension (ASE), a nucleotide degrading enzyme, apyrase, was introduced to compete with the polymerase, only allowing the fast, perfect matched primer extension to occur. The aim was to develop a method for analysis of around twenty loci in hundreds of samples in a high-throughput microarray format. A genotyping method for human papillomavirus has been developed, based on a combination of multiplex competitive hybridization (MUCH) and apyrase-mediated allele-specific extension (AMASE). Human papillomavirus (HPV), which is the causative agent in cervical cancer, exists in over a hundred different types. These types need to be determined in clinical samples. The developed assay can detect the twenty-three most common high risk types, as well as semi-quantifying multiple infections, which was demonstrated by analysis of ninety-two HPV-positive clinical samples. More stringent conditions can be obtained by increased reaction temperature. To further improve the genotyping assay, a thermostable enzyme, protease, was introduced into the allele-specific extension reaction, denoted PrASE. Increased sensitivity was achieved with an automated magnetic system that facilitates washing. The PrASE genotyping of thirteen SNPs yielded higher conversion rates, as well as more robust genotype scoring, compared to ASE. Furthermore, a comparison with pyrosequencing, where 99.8 % of the 4,420 analyzed genotypes were in concordance, indicates high accuracy and robustness of the PrASE technology. Single cells have also been analyzed by the PrASE assay to investigate loss of alleles during skin differentiation. Single cell analysis is very demanding due to the limited amounts of DNA. The multiplex PCR and the PrASE assay were optimized for single cell analysis. Twenty-four SNPs were genotyped and an increased loss of genetic material was seen in cells from the more differentiated suprabasal layers compared to the basal layer. / QC 20100714 Genotyping single nucleotide polymorphism (SNP) microarray tag-array competitive hybridization human papillomavirus (HPV) single cell loss of alleles differentiation epidermis. Bioengineering Bioteknik
583	Detección de papiloma virus humano y genes supresores tumorales P16 y P53 en carcinomas de región genital extena Godínez Martínez, José Manuel 29 July 2008 (has links) La implicación del papiloma virus humano (HPV) en carcinomas de cérvix está totalmente demostrada, pero esta infección se puede producir en otras regiones anatómicas con similares consecuencias patológicas. El estudio presenta la detección de HPV en carcinomas de pene y vulva mediante PCR, analizando la sensibilidad de diferentes sistemas, primers GP5+/6* y MY09/11. También se lleva a cabo la detección inmunohistoquímica de proteínas celulares como posibles marcadores diagnóstico de infección por HPV, las proteínas P53 y P16 su expresión supuestamente se altera por la infección de HPV en carcinomas de pene (77,5%), mientras que en los carcinomas de vulva la tasa de detección está dentro de los rangos esperados según trabajos previos publicados (29, 7). El estudio de la relación entre la presencia de HPV y la expresión de los marcadores celulares muestra su no asociación en estas patologías. / The infection of human papilloma virus (HPV) is clearly related with cervical carcinomas, but this infection can be found in other regions whit PCR, analyzing the sensitivity of HPV in penile and vulvar carcinomas whit PCR, analyzing the sensitivity of two differents systems, MY09/11 and GP 5+/6+. Also the immunohistochemical detection of cell proteines as diagnostic markers for the HPV in penile carcinomas in the study populations (77,5%), whereas in vulgar carcinomas . The detection rates is similar to the previously published data ( 29, 7%). The study of the relatioship between HPV and the expression of the cell markers shows no asocciation with the pahologies. HPV Human Papilloma Virus Inmunohistoquímica PCR Cáncer Carcinoma genital Papiloma virus humano Carcinoma genital. Immunohistochemistry Histología y Patología Molecular 576 577 616
584	Method development and applications of Pyrosequencing technology Gharizadeh, Baback January 2003 (has links) <p>The ability to determine nucleic acid sequences is one ofthe most important platforms for the detailed study ofbiological systems. Pyrosequencing technology is a relativelynovel DNA sequencing technique with multifaceted uniquecharacteristics, adjustable to different strategies, formatsand instrumentations. The aims of this thesis were to improvethe chemistry of the Pyrosequencing technique for increasedread-length, enhance the general sequence quality and improvethe sequencing performance for challenging templates. Improvedchemistry would enable Pyrosequencing technique to be used fornumerous applications with inherent advantages in accuracy,flexibility and parallel processing.</p><p>Pyrosequencing technology, at its advent, was restricted tosequencing short stretches of DNA. The major limiting factorwas presence of an isomer of dATPaS, a substitute for thenatural dATP, which inhibited enzyme activity in thePyrosequencing chemistry. By removing this non-functionalnucleotide, we were able to achieve DNA read-lengths of up toone hundred bases, which has been a substantial accomplishmentfor performance of different applications. Furthermore, the useof a new polymerase, called Sequenase, has enabled sequencingof homopolymeric T-regions, which are challenging for thetraditional Klenow polymerase. Sequenase has markedly madepossible sequencing of such templates with synchronizedextension.</p><p>The improved read-length and chemistry has enabledadditional applications, which were not possible previously.DNA sequencing is the gold standard method for microbial andvial typing. We have utilized Pyrosequencing technology foraccurate typing ofhuman papillomaviruses, and bacterial andfungal identification with promising results.</p><p>Furthermore, DNA sequencing technologies are not capable oftyping of a sample harboring a multitude of species/types orunspecific amplification products. We have addressed theproblem of multiple infections/variants present in a clinicalsample by a new versatile method. The multiple sequencingprimer method is suited for detection and typing of samplesharboring different clinically important types/species(multiple infections) and unspecific amplifications, whicheliminates the need for nested PCR, stringent PCR conditionsand cloning. Furthermore, the method has proved to be usefulfor samples containing subdominant types/species, and sampleswith low PCR yield, which avoids reperforming unsuccessfulPCRs. We also introduce the sequence pattern recognition whenthere is a plurality of genotypes in the sample, whichfacilitates typing of more than one target DNA in the sample.Moreover, target specific sequencing primers could be easilytailored and adapted according to the desired applications orclinical settings based on regional prevalence ofmicroorganisms and viruses.</p><p>Pyrosequencing technology has also been used forclone-checking by using preprogrammed nucleotide additionorder, EST sequencing and SNP analysis, yielding accurate andreliable results.</p><p><b>Keywords:</b>apyrase, bacterial identification, dATPaS, ESTsequencing, fungal identification, human papillomavirus (HPV),microbial and viral typing, multiple sequencing primer method,Pyrosequencing technology, Sequenase, single-strandedDNA-binding protein (SSB), SNP analysis</p> apyrase bacterial identification dATP?S EST sequencing fungal identification human papillomavirus (HPV) microbial and viral typing multiple sequencing primer method Pyrosequencing technology Sequenase single-stranded DNA-binding protein (SS
585	Prevention of Human Papillomavirus in a school-based setting Grandahl, Maria January 2015 (has links) The overall aim of this thesis was to examine beliefs about human papillomavirus (HPV) prevention, especially vaccination, among parents, immigrant women, adolescents and school nurses, and to promote primary prevention among adolescents. The methods used in the thesis were focus group interviews, individual interviews, a web-based questionnaire, and finally, a randomised controlled intervention study. The immigrant women were largely in favour of HPV prevention, although barriers, such as logistic difficulties, and cultural or gender norms were found. Parents’ decision concerning vaccination of their daughters depended on several factors. Regardless of their final choice, they made the decision they believed was in the best interest of their daughter. The benefits outweighed the risks for parents choosing to vaccinate while parents declining made the opposite judgement. The majority of the school nurses reported that the governmental financial support given because of the vaccination programme had not been used for the intended purpose. Three out of four nurses had been contacted by parents who raised questions regarding the vaccine; most were related to side effects. The educational intervention had favourable effects on the adolescents’ beliefs regarding HPV prevention, especially among those with an immigrant background. Furthermore, the intention to use condom as well as actual vaccination rates among girls was slightly increased by the intervention. Trust in the governmental recommendations and the amounts of information given are important factors in the complex decision about HPV vaccination. Attention given to specific needs and cultural norms, as well as the possibility to discuss HPV vaccination with the school nurse and provision of extra vaccination opportunities at a later time are all strategies that might facilitate participation in the school-based HPV vaccination programme. School nurses need sufficient resources, knowledge and time to meet parents’ questions and concerns. The vaccinations are time-consuming and the governmental financial support needs to be used as intended, for managing the vaccination programme. A school-based intervention can have favourable effects on the beliefs and actual actions of young people and may possibly thus, in the long term, decrease the risk for HPV-related cancer. Human papillomavirus HPV vaccination cervical cancer school nurse school health immigrants parents adolescents belief attitude decision prevention public health randomised controlled trial intervention focus group interviews vaccine hesitancy
586	Polymorphisme du papillomavirus humain de type 52 et lésions du col de l'utérus Formentin, Aurélie 08 1900 (has links) Les papillomavirus humains (VPHs) sont reconnus comme les agents étiologiques du cancer du col de l’utérus. Notre étude a pour but de décrire le polymorphisme de la région régulatrice virale (LCR) et du gène E6 du VPH52 chez 216 femmes canadiennes avec différents grades de lésion du col et d’établir s’il existe une association entre les variantes décrites et la présence de lésions intraépithéliales de haut-grade (CIN2,3) du col de l’utérus ou de cancer invasif. L’âge (OR 1.1, 95% CI 1.02-1.17, p=0.005) fut significativement associé à la présence de cancer invasif. Une variante de la région régulatrice virale, MTL-52-LCR-02, présentant une substitution nucléotidique au niveau du nucléotide 7436, fut aussi associée à la présence de cancer du col de l’utérus (p=0.015). Dans une analyse multivariée, après ajustement pour l’âge, l’ethnicité et le site de recrutement, une délétion au niveau du nucléotide 7695 (OR 5.7, 95% CI 1.2-27.9) ainsi qu’une substitution au niveau du nucléotide 7744 (OR 8.3, 95% CI 1.1-61.0) du LCR, et la variante K93R de la protéine E6 (OR 9.5, 95% CI 1.3-68.9) furent associées de façon significative avec la présence de CIN2,3. Ainsi, le polymorphisme du LCR et du gène E6 du VPH52 est associé avec la présence de CIN2,3 et probablement avec celle d’un cancer invasif. / Human papillomaviruses (HPVs) are the main etiological agents of cervical cancer. Our study aims to describe HPV52 polymorphism in the long control region (LCR) and in the E6 gene, and to investigate the association between LCR and E6 polymorphism and high-grade cervical intraepithelial neoplasia (CIN2,3) or invasive cervical cancer in 216 canadian women with various grades of cervical disease. Age was significantly associated with cervical cancer (OR 1.1, 95% CI 1.02-1.17, p=0.005). The MTL-52-LCR-02 variant, with a nucleotide substitution in the LCR at position 7436, was also associated with cervical cancer. MTL-52-LCR-02 has been identified in 28.6% of women with cervical cancer and in 0.0% of women without cervical cancer or CIN2,3 (p=0.015). In a multivariate analysis, after adjusting for age, ethnicity, detection of HPV16 or 18, and study site, a deletion at nucleotide position 7695 (OR 5.7, 95% CI 1.2-27.9), a variation at nucleotide position 7744 (OR 8.3, 95% CI 1.-61.0) in the LCR and the K93R variant of the protein E6 (OR 9.5, 95% CI 1.3-68.9) were associated with CIN2,3. This study confirms that HPV52 polymorphism in the LCR and in the E6 gene is associated with risk of development of CIN2,3 and possibly invasive cancer of the uterine cervix. VPH HPV cancer du col de l'utérus cervical cancer polymorphisme viral viral polymorphism dysplasie cervicale cervical dysplasia
587	Charge virale intégrée du papillomavirus de type 16 dans la maladie anale préinvasive Alvarez Orellana, Jennifer Élisabeth 08 1900 (has links) L’histoire naturelle de l’infection anale par le virus du papillome de type 16 (VPH-16) est mal définie pour les hommes ayant des relations sexuelles avec d’autres hommes (HARSAHs) VIH-séropositifs. Le but de cette étude était d’évaluer l’association entre la charge épisomale et intégrée du VPH-16 et la progression de la néoplasie intraépithéliale anale (AIN). Les charges épisomales et intégrées du VPH-16 furent mesurées par PCR quantitatif en temps réel sur 665 spécimens anaux obtenus de 135 hommes VPH-16-positifs participant à l’étude prospective HIPVIRG (Human Immunodeficiency and Papilloma VIrus Research Group). Le grade de l’AIN fut déterminé sur des biopsies obtenues lors des anuscopies à haute résolution périodiques. L’intégration du VPH-16 fut confirmée par DIPS-PCR pour démontrer la présence de jonctions virales-cellulaires. La charge épisomale du VPH-16 [ratio de cote (OR) 1.5, intervalle de confiance (IC) à 95%=1.1–2.1], le nombre de types de VPH [OR 1.4 (IC 95%=1.1–1.8)] et le tabagisme actuel [OR 4.8 (IC 95%=1.3–18.6)], mais non la charge intégrée, furent associés aux lésions de haut-grade (AIN-2,3) après ajustement pour l’âge et le décompte des lymphocytes CD4. La charge épisomale du VPH-16 était le seul facteur prédictif de progression de l’AIN de bas-grade (AIN-1) vers l’AIN-2,3 [OR 8.0 (IC 95%=1.2–55.4)]. Les spécimens avec une charge épisomale du VPH-16 élevée étaient moins susceptibles de contenir de l’intégration [OR 0.5 (IC 95%=0.3–0.8)]. L’intégration du VPH-16 fut détectée en absence d’AIN, dans l’AIN-1 et dans l’AIN-2,3. L’analyse des jonctions virales-cellulaires ne permit pas d’identifier un site d’intégration spécifique. / The natural history of human papillomavirus type 16 (HPV-16) anal infection is undefined among HIV-seropositive men having sex with men (MSM). The aim of this study was to assess the association between HPV-16 episomal and integrated viral loads and the progression of anal intraepithelial neoplasia (AIN). HPV-16 episomal and integrated loads were measured on 665 specimens from 135 HPV-16-positive men participating in the prospective HIPVIRG (Human Immunodeficiency and Papilloma VIrus Research Group) study. AIN grade was evaluated on biopsies obtained during periodical high-resolution anoscopies. HPV-16 integration was confirmed by DIPS-PCR to demonstrate the presence of viral-cellular junctions. HPV-16 episomal loads [odds ratio (OR) 1.5, 95% confidence interval (CI)=1.1–2.1], burden of HPV infection [OR 1.4 (95% CI=1.1–1.8)] and current smoking [4.8 (95% CI=1.3–18.6)], but not integrated loads, were associated with high-grade lesions (AIN-2,3) after age and CD4 counts adjustment. A high HPV-16 episomal load was the only predictive factor of progression from low-grade AIN to high-grade AIN [OR 8.0 (95% CI=1.2–55.4)]. Specimens with higher HPV-16 episomal loads were less likely to contain integration [OR 0.5 (95% CI=0.3–0.8)]. HPV-16 integration was detected in the absence of AIN, in AIN-1 and in AIN-2,3. The analysis of the viral-cellular junctions did not allow identifying a specific site of integration. VPH-16 HPV-16 Histoire naturelle Natural history Charge virale Viral load AIN AIN Intégration Integration HARSAHs MSM TAR HAART
588	Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada Rogers, Carley 09 October 2013 (has links) Mathematical models provide unique insights to real-world problems. Within the context of infectious diseases, models are used to explore the dynamics of infections and control mechanisms. Human papillomavirus (HPV) globally infects about 630 million people, many of these infections develop into cancers and genital warts. Vaccines are available to protect against the most prevalent and devastating strains of HPV. The introduction of this vaccine as part of a national immunization program in Canada is a complex decision for policy-makers in which mathematical models can play a key role. We use the current recommendations provided by the World Health Organization to explore the integral role mathematical models have in the decision to incorporate the HPV vaccine within a national immunization program. We then provide a review of the literature discussing the role of mathematical models in the decision to include a vaccine in a national immunization program within the context of the HPV vaccine. Next, we evaluate the current standing of mathematical models used within the context of HPV immunization, to highlight the types of models used, underlying assumptions and general recommendations made about these immunization programs. Then, we create and analyze a model to explore the possibility of bettering the current HPV vaccine strategy in Canada. We focus on the effects of the grade of vaccination and the number of doses required to eradicate the targeted strains of HPV. Mathematical Model ODEs Human Papillomavirus HPV vaccine Canada Ordinary Differential Equations Dosing Schedule Grade of Vaccination Dose National Immunization Program Literature Review
589	Facteurs de risque de sévérité de la papillomatose respiratoire juvénile Rodier, Caroline 02 1900 (has links) La papillomatose respiratoire récurrente (PRR) juvénile est causée par les génotypes 6 et 11 du virus du papillome humain (VPH). Cette maladie est caractérisée par des verrues récurrentes généralement au larynx. La forme sévère peut avoir un impact dévastateur sur la santé et la qualité de vie de l’enfant atteint et de sa famille en raison des conséquences des multiples chirurgies nécessaires et du risque d'obstruction des voies respiratoires. Objectif: Examiner les facteurs de risque associés aux manifestations sévères de la PRR. Méthode: Étude rétrospective des 31 cas diagnostiqués entre janvier 1995 et décembre 2008. Les données démographiques, cliniques, génétiques et virologiques ont été évaluées. Des régressions logistiques furent effectuées afin d'évaluer le rôle des variables indépendantes sur la sévérité de la maladie. Résultats: Nos données suggèrent que les facteurs de risque de sévérité de la PRR seraient associés au genre féminin (Rapport de cotes (RC)=2.60, intervalles de confiance (IC) 95% : 0.44-15.44), au fait d’être premier-né (RC=3.51, IC 95% : 0.17-72.32), à un statut économique faible (RC=5.31, IC 95% : 0.17-164.19), à un jeune âge (RC=0.83, IC 95% : 0.68-1.01), à une charge virale élevée (RC=3.81, IC 95% : 0.23-63.16) et aux condylomes chez la mère pendant la grossesse (RC=12.05, IC 95% : 0.97-149.85). Conclusion: La sévérité de la PRR serait le résultat d'une combinaison de déterminants qui favoriseraient la croissance cellulaire particulièrement chez les jeunes enfants. Des mesures préventives et thérapeutiques visant à restreindre la contamination et la réplication du virus pourraient réduire le fardeau de la maladie. / Juvenile Recurrent Respiratory Papillomatosis is caused by Human Papillomavirus genotypes 6 or 11. It is characterised by recurring warts most commonly in the larynx. The severe form of the disease has a devastating impact on health and life quality of the child and its family because of the consequences of multiple surgical procedures and the constant risk of airway obstruction. Objectives: To study the risk factors associated with severe forms of RRP. Method: We conducted a retrospective case series of the 31 patients diagnosed between January 1995 and December 2008. We analyzed demographic and clinical variables, as well as viral and host factors. Logistic regressions were performed to evaluate the impact of each of independent variables on the disease severity. Results: Our data suggest that risk factors for severe forms of RRP in children could be associated with female gender (OR=2.60, 95% CI: 0.44-15.44), being first-born (OR=3.51 95% CI: 0.17-72.32), lower socio-economic status (OR=5.31, 95% CI: 0.17-164.19), younger age (OR=0.83, 95% CI: 0.68-1.01), high viral load (OR=3.81, 95% CI: 0.230-63.16) and history of condylomas of the mother during pregnancy, (OR=12.05, 95% CI: 0.97-149.85). Conclusion: The severity of the RRP would be the result of a combination of factors which would favor the cellular growth particularly in the young children. Therapeutics and preventive measures to restrict the contamination and the replication of the virus could reduce considerably the burden of this disease. Papillomes Juvénile Risque Sévérité Chirurgie Récurrence VPH Papillomas Juvenile Risk Severity Surgery Recurrence HPV
590	Human Papillomavirus 16 E7 Inhibits the ability of IFN-γ in Enhancement of MHC Class I Antigen Presentation and CTL Lysis by Affecting IRF-1 Expression in Keratinocytes Fang Zhou Unknown Date (has links) The results of experiments aimed at determining whether cytotoxic T lymphocytes (CTLs) can kill keratinocytes (KCs) expressing endogenously loaded antigen indicated that antigen specific cytotoxic T lymphocytes could recognize and kill keratinocytes expressing ovalbumin (OVA) or SIINFEKL peptide. Exposure of the KCs to interferon-gamma (IFN-γ) enhanced this CTL-mediated KC lysis and increased CTL epitope presentation on the surface of target cells. Expression of HPV 16 E7 protein in KCs affected CTL-mediated lysis. Expression of HPV 16 E7 inhibited IFN-γ-mediated up-regulation of SIINFEKL/H-2Kb complexes on keratinocytes, and also inhibited IFN-γ-mediated up-regulation of IRF-1 expression, and consequent up-regulation of TAP1 transcription. Further, overexpression of IRF-1 partially corrected the HPV 16 E7-mediated inhibition of enhanced susceptibility of KC lysis induced by IFN-γ. Thus, the effects of HPV 16 E7 on CTL-mediated lysis of IFN-γ exposed KCs are likely mediated by inhibition of MHC class I antigen presentation by IFN-γ. These findings may help explain why HPV-infected epithelial cells can escape from immune surveillance mediated by CTLs in vivo and in vitro. Keratinocyte MHC Class I antigen presentation CTL epitope HPV 16 E7 Interferon gamma Interferon regulatory factor-1 (IRF-1)

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