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Cross-linked gelatin microparticles as drug-delivery-system for siRNA in bone tissue engineeringHinkelmann, Sandra 05 December 2022 (has links)
The local release of complexed siRNA from biomaterials enables targeted therapy of specific cells and tissues. This thesis focused on gelatin microparticles cross-linked (cGM) with an anhydride-containing oligomer (oPNMA) as a drug delivery system for siRNA. The siRNA-loaded cGM were aggregated with SaOS-2 cells or human mesenchymal stem cells (hMSC) to microtissues and stimulated with osteogenic supplements. Cell survival and tissue formation in microtissues could be improved by incorporating cGM in spheroid cultures. We observed hydroxyapatite deposition in the particles in dependence of medium and cell type. Osteogenic stimulation with BMP-2 and simultaneous silencing of BMP-2 antagonist chordin accelerated matrix mineralization of the microtissues. Higher cross-linking degree of cGM positively influenced chordin silencing and alkaline phosphatase (ALP) activity as a marker for osteogenic differentiation. These higher cross-linked cGM mineralized in an osteogenic medium within 8–9 days, in presence and absence of cells. The effects of pre-differentiated and chordin-silenced microtissues were investigated by simulation of in vivo conditions in an unstimulated co-culture system of hMSC and human peripheral blood mononuclear cells (hPBMC). Increased ALP activity and osteoprotegerin (OPG) secretion were observed after 14 days compared to co-cultures with siRNA-free controls. These results indicate that the pre-differentiated and silenced microtissues can induce osteogenic differentiation of surrounding unstimulated cells. Using the microtissue approach with siRNA complexed with tyrosine-modified low molecular weight polyethyleneimine (P10Y/P5Y) as transfection reagent was not successful.
The results of this thesis indicate that the pre-differentiation of microtissues with BMP-2 in combination with chordin silencing stimulates and enhances osteogenic differentiation of other stem cells. As a combination of biomaterial, RNAi, and autologous cells, microtissues could be a promising approach to regenerating bone defects.:Chapter I: Controlled release of siRNA for bone tissue engineering
Chapter II: Microtissues from mesenchymal stem cells and siRNA-loaded cross-linked gelatin microparticles for bone regeneration
Chapter III: Mineralizing gelatin microparticles as cell carrier and drug delivery system for siRNA for bone tissue engineering
Chapter IV: Tyrosine-modified polyethylenimines for siRNA transfection in microtissues
Chapter IV: Final discussion
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IN SITU FORMING PHOTODEGRADABLE HYDROGEL FOR CONTROLLED DELIVERY OF siRNAZheng, Zijie 03 September 2015 (has links)
No description available.
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In Search For New p53 Regulated GenesMpagi, Meldrick Daniel 21 November 2008 (has links)
No description available.
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La gastrine et la galectine 1 modifient les propriétés biologiques des mélanomes cutanés/ Gastrin and galectin-1 modify the biological properties of cutaneous melanomaMathieu, Véronique 04 June 2007 (has links)
Comme nous l’indiquions dans le But du Travail, le mélanome figure parmi les cancers associés aux pronostics les plus sombres, et ce en raison de son taux de réponse très faible à la radiothérapie et à la chimiothérapie. Cette résistance à la radiothérapie et à la chimiothérapie provient essentiellement du fait que les cellules de mélanomes sont résistantes à l’apoptose, et que la radiothérapie ainsi que bon nombre d’agents chimiothérapiques induisent la mort des cellules cancéreuses en y induisant l’apoptose. Nous avons voulu investiguer les rôles de la gastrine et de la galectine 1 sur le comportement biologique des cellules de mélanomes afin de voir s’il était possible de proposer la gastrine et/ou la galectine 1 comme nouvelles cibles thérapeutiques potentielles dans le cas du mélanome.
Notre stratégie de recherche est basée sur le principe (démontré sur le plan expérimental par de nombreuses études) selon lequel les cellules cancéreuses migrantes résistent à l’apoptose, et sont dès lors protégées contre les effets pro-apoptotiques de la chimiothérapie et de la radiothérapie qui représentent la quasi totalité de l’arsenal thérapeutique dont disposent les oncologues pour combattre les cancers. Diverses études expérimentales ont démontré que le fait de réduire le taux de migration de cellules cancéreuses résistantes à l’apoptose conférait à celles-ci une sensibilité accrue aux agents pro-apoptotiques. Nos résultats démontrent que la gastrine modifie de manière très significative les propriétés migratoires des cellules de mélanomes, sans toutefois modifier leur sensibilité à des agents pro-apoptotiques. Au contraire, la gastrine protègerait les cellules de mélanomes contre l’apoptose. Nous démontrons également dans notre travail, in vivo, un rôle pro-angiogénique pour la gastrine au sein de xénogreffes de mélanomes humains. Signalons que notre travail est le premier à démontrer un rôle potentiel de la gastrine au niveau de la biologie des mélanomes, tout au moins sur le plan expérimental.
Tout comme nous l’avons observé pour la gastrine, la galectine 1 semble également conférer aux cellules de mélanomes un certain degré de résistance aux agressions chimiothérapiques. Cette fois, le fait de diminuer le taux d’expression de la galectine 1 au sein de cellules du mélanome murin expérimental B16F10 (qui exprime des quantités importantes de galectine 1) renforce l’effet thérapeutique du témozolomide qui est une molécule cytotoxique. Cet effet semble survenir, tout au moins partiellement, suite à une diminution du taux d’expression de la protéine Hsp70 (suite à la diminution du taux d’expression de la galectine 1), avec pour conséquence une augmentation de la mort cellulaire par perméabilisation de la membrane des lysosomes.
Nous proposons une nouvelle approche thérapeutique pour combattre les mélanomes en faisant appel à la technique des petits ARN interférants (siRNA), dirigés dans le cas présent contre la galectine 1.
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Mécanismes moléculaires du syndrome néphrotique idiopathique acquis / Role of c-mip in the pathophysiology of idiopathic nephrotic syndromeZhang, Shao-Yu 23 June 2010 (has links)
Résumé de la thèse:Le syndrome néphrotique idiopathique (SNI) est la forme la plus fréquente de néphropathies glomérulaires et résulte d'altérations touchant les podocytes. La progression de la maladie est associée à une déplétion podocytaire et l'apparition de glomérulosclérose. Malgré de nombreuses études moléculaires et des avancées scientifiques indiscutables sur les formes génétiques, la pathogénie du SNI reste une énigme.Nous avons trouvé que la protéine c-mip est spécifiquement induite dans les podocytes des patients atteints de SNI.Nous avons montré que les souris transgéniques c-mip développent une protéinurie néphrotique qui n'est associée ni à des lésions inflammatoires glomérulaires ou interstitielles, ni à des dépôts de complexes immuns circulants ou de complément. Les études in vitro et in vivo ont démontré que c-mip se lie à Fyn et bloque la liaison de Fyn avec la néphrine et N WASP. Il en résulte une inhibition de la voie de signalisation de la néphrine et l'incapacité de N-WASP à recruter Nck, ce qui altère l'organisation du cytosquelette podocytaire et contribue au développement de la protéinurie masssive.D'autre part, nous avons montré que Wt1 se lie au promoteur de c-mip et bloque sa transactivation. Au cours du SNI acquis, les résultats obtenus in vitro et dans les souris transgéniques suggèrent que c-mip inhibe la transcription du gène de Wt1 médiée par NF-κB, interagit avec Wt1 via son domaine LRR et favorise la dégradation de Wt1 par le protéasome.Nous avons également trouvé que c-mip interfère avec l'activation de la voie NF-κB en destabilisant la sous-unité RelA, tandis que la sous-unité p50 est préservée. Les résultats in vitro et dans le modèle murin suggèrent que c-mip est dotée de propriétés pro-apoptotiques.Ces travaux montrent que la protéine c-mip joue un rôle crucial dans la physiopathologie du SNI et constitue une cible thérapeutique de choix. / SummaryPodocyte damages are the initiating event in the pathogenesis of idiopathic nephrotic syndrome (INS). Progression of podocyte disease is associated with cellular depletion and appearance of glomerulosclerosis. The molecular pathophysiology of this disease remains an enigma.We showed that c-mip (c-maf inducing protein) is up-regulated in podocytes during the active phase of INS.We generated c-mip transgenic mice overexpressing c-mip specifically in podocytes. These mice developed morphological and biochemical alterations similar to INS. We demonstrated that c-mip switches off podocyte proximal signaling by preventing the interaction between Fyn and nephrin, resulting in the inhibition of nephrin phosphorylation in vitro and in vivo. Moreover, we found that the in vivo interactions of Fyn with Nck and N WASP are inhibited, which may account for disorganization of the cytoskeleton and the effacement of foot processes.We showed that, under physiological conditions, Wt1 inhibits the transcriptional induction of c-mip. Conversely, we demonstrated that, under pathological conditions, c-mip inhibits NF κB mediated-Wt-1 transcription, interacts in vitro and in vivo with Wt1 via its LRR domain, and targets Wt1 to proteasome degradation.We also observed that the induction of c-mip in patients with INS is correlated with a downregulation of RelA in podocytes. We showed that c-mip alters NF-κB signaling by destabilizing the RelA protein, while p50 is preserved. Morever, the results established in stably transfected podocytes and in transgenic mice suggest that c-mip is a proapoptotic protein.Collectively, these data postulate that c-mip functions as a negative regulator and plays a central role in podocytes disorders during INS.
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Etude de la vectorisation des siRNA par les nanoparticules de diamant photoluminescentes dans un modèle cellulaire de sarcome d’Ewing. Investigation de leur trafic cellulaire grâce à leurs propriétés optiques / New nanodiamonds as carbon material vectors for short nucleic acids delivery, Biological application for Ewing sarcoma treatmentAlhaddad, Anna 30 March 2012 (has links)
Les siRNA se sont des agents actifs et spécifiques couramment utilisés en thérapie génique. L’intérêt d’utiliser des nanoparticules en tant que vecteurs des siRNA est leur capacité à protéger ces derniers de la dégradation par les nucléases et également de leur permettre d’être délivrés au niveau de leur cible thérapeutique. Afin d’appuyer cette théorie, ce travail s’est concentré sur un modèle cellulaire de sarcome d’Ewing, dans le but de mettre au point un nouveau système galénique pour le transport de siRNA formé des nanoparticules bifonctionnelles de diamants fluorescentes recouvertes par des polymères cationiques. Ces nano-vecteurs sont capables d’induire efficacement l’inhibition de l’expression de l’oncogène EWS-Fli1 dans les cellules en culture s’ils transportent des siRNA dirigés contre ce gène. Par ailleurs, les nanodiamants, grâce à leurs propriétés de fluorescence stable et intense, ont constitué des outils de détection permettant de suivre leurs voies de pénétration, leur biodistribution cellulaire, ainsi que la cinétique de libération des siRNA dans le cytoplasme. Enfin, un modèle de nanodiamants fonctionnalisés par le polyéthylenimine a été choisi pour la poursuite des travaux biologiques en raison de son efficacité de vectorisation. / SiRNA are powerful and commonly used agent for the specific inhibition of gene expression. They need to be vectorized by nanoparticles to facilitate cell penetration and their protection from degradation in biological media. At first, cationic nanodiamonds coated with cationic polymers were developed and were able to adsorb siRNA on their surface. Using antisense siRNA against the oncogene EWS-Fli1, nanodiamonds allowed to efficiently induce the inhibition of expression of the oncogene EWS-FLI1 in cultured Ewing sarcoma cells. As a second goal of this study, the fluorescence of red color center created in the nanodiamonds was used to follow their pathways, their cellular biodistribution and the kinetics of release of siRNA into the cytoplasm. In conclusion, nanodiamonds functionalized by polyethylenimine showed a better transfection efficiency and were chosen for further biological studies.
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Desenvolvimento e caracterização de sistemas de liberação tópica a base de cristais líquidos com vitamina E TPGS para veiculação de siRNA na terapia gênica / Development and characterization of topical delivery systems based on liquid crystals with vitamin E TPGS for siRNA in geneMano, Danielle de Macedo 17 September 2012 (has links)
Apesar da aparente acessibilidade, a pele é bem protegida contra a absorção de materiais estranhos. Esta função barreira é exercida principalmente pelo estrato córneo. Dessa forma, a administração cutânea de fármacos precisa transpor esta barreira para atingir uma concentração efetiva. Uma maneira de tornar o tratamento eficaz é o uso de injeções, forma de administração muito invasiva e desconfortável para o paciente. A administração tópica é uma forma simples e confortável para a administração cutânea de fármacos. As doenças cutâneas, em geral, são doenças estigmatizadas. Assim, o desenvolvimento de uma formulação capaz de transpor as barreiras impostas a esta via de administração e um novo tratamento para estas doenças complexas, com componentes genéticos, devem ser estudados. O siRNA veiculado com nanocarreadores foi aplicado a esta via de administração. O nanocarreador possibilita um maior tempo de permanência na superfície da pele devido às propriedades adesivas, além de proteger o siRNA contra a degradação. O siRNA visa o bloqueio específico da expressão de genes, por isso é capaz de agir em diferentes caminhos de uma doença. A maior limitação para o uso de siRNA é a incapacidade de difundir-se através das membranas celulares devido a carga negativa, o que gera uma repulsão eletrostática da membrana celular. Portanto, a complexação com um carreador torna a liberação do siRNA no interior celular mais efetiva. É amplamente aceito que o desenvolvimento de um sistema de liberação eficiente é um dos principais obstáculos para transformar siRNA em terapêutica. Consequentemente, o objetivo deste trabalho foi o desenvolvimento farmacotécnico de um nanocarreador capaz de liberar o siRNA de maneira efetiva na aplicação tópica cutânea, respeitando as peculiaridades desta via. As formulações de monoleína (MO), polietilenoimina (PEI) e diferentes concentrações de vitamina E TPGS, contendo ou não ácido oléico (AO), foram caracterizadas como fases líquido cristalinas com tamanho de partícula e potencial zeta desejado, mostrando-se eficazes em complexar o siRNA. As nanodispersões desenvolvidas foram efetivas na complexação do siRNA, na estabilização deste ácido nucléico frente a degradação enzimática, e na efetiva internalização celular in vitro em células de fibroblastos de camundongos L929. As nanodispersões contendo maior quantidade de vitamina E TPGS, ou contendo o AO foram as formulações que promoveram um maior aumento da penetração cutânea de siRNA in vitro em peles de modelo animal. Logo, os resultados obtidos permitiram concluir que as formulações desenvolvidas são sistemas de liberação nanotecnológicos, contendo cristais líquidos, promissores para a administração tópica de siRNA, no tratamento de patologias cutâneas na terapia gênica / Despite its apparent easy accessibility, the skin is, in fact, well protected against the absorption of foreing materials. The barrier function is imposed, mainly, by the stratum corneum. Thus, the cutaneous administration of drugs needs to overcome this barrier to reach an effective concentration. One way to make an effective treatment is the use of injections, mode of administration very invasive and uncomfortable for the patient. Topical administration is simple and comfortable for cutaneous administration of drugs. Skin diseases, in general, are stigmatized diseases. Therefore, the development of a formulation capable of overcoming the barriers of this route of administration and a new treatment for these complex diseases, with the genetic components, shall be studied. The siRNA in nanocarriers has been applied to this route of administration. The nanocarrier allows siRNA to stay longer on the skin surface because of its adhesive properties, while also protects siRNA against degradation. The siRNA is directed for producing gene-specific inhibition, so it is able to act in different ways to the same disease. The most critical factor limiting the use of siRNA as therapeutics is delivering siRNA to its intracellular target site due to their negative charge, which cause an electrostatic repulsion of the cell membrane. Therefore, complexation with a carrier makes the release of siRNA inside the cells more effective. It is widely accepted that the development of an efficient delivery system is a major obstacle to change siRNA into therapeutics. Consequently, the objective of this work was the pharmacotechnical development of a nanocarrier capable of releasing the siRNA effectively in topical skin, respecting the peculiarities of this pathway. The formulations of monoolein (MO), polyethylenimine (PEI) and different concentrations of vitamin E TPGS, with or without oleic acid (OA), were characterized as liquid crystalline phases with particles size and zeta potential desired, proving to be effective in complexing the siRNA. The nanodispersions developed were effective for the complexation of siRNA, for the stabilization of nucleic acid against enzymatic degradation, and for the effective in vitro cellular uptake into cells of mouse fibroblast L929. The nanodispersions containing higher amounts of vitamin E TPGS, or containing OA, have been the formulations which promoted a greater increase in skin penetration of siRNA in vitro in animal model skin. Therefore, the results obtained allowed one to conclude that the formulations developed are delivery systems based on nanotechnology, with liquid crystalline phase, promising for topical administration of siRNA, for the treatment of cutaneous diseases in gene therapy
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Desenvolvimento e caracterização de sistemas de liberação tópica a base de cristais líquidos para veiculação de siRNA na terapia gênica / Development and characterization of topical delivery systems based on liquid crystals for siRNA in gene therapyDepieri, Lívia Vieira 10 May 2012 (has links)
A terapia gênica por interferência de RNA (RNAi) trata-se de um processo de silenciamento pós-transcricional capaz de suprimir a expressão de um determinado gene. A RNAi é uma proposta terapêutica promissora para o tratamento de muitas doenças severas que ainda não possuem cura ou terapias bem definidas. Porém, é necessário o desenvolvimento de sistemas de liberação clinicamente adequados, seguros e eficazes para se viabilizar essa nova terapêutica, uma vez que obstáculos na administração e distribuição in vivo comprometem o uso clínico dos siRNAs (small interfering RNA). Paralelamente, a liberação tópica de siRNAs surge como uma alternativa promissora para o tratamento de patologias cutâneas. Neste contexto, a presente pesquisa teve como objetivo o desenvolvimento de um sistema de liberação baseado em nanotecnologia para a liberação tópica de siRNAs, visando introduzir a terapia gênica como nova abordagem para o tratamento de patologias cutâneas. Como sistema de liberação, foram desenvolvidas nanodispersões líquido-cristalinas aquosas, compostas por monoleína (MO), um lipídeo polar biocompatível, associadas ou não com ácido oléico (AO). Foram incorporados a esses sistemas os adjuvantes catiônicos polietilenoimina (PEI) e oleilamina (OAM) para obtenção das nanodispersões. Dentre as nanodispersões aquosas desenvolvidas, foram escolhidas as preparações com as menores concentrações de adjuvantes catiônicos, a saber: MO e OAM a 0,4%, MO e PEI a 0,4%, MO, AO e OAM a 2,5% e MO, AO e PEI a 1,0%. Estas formulações apresentaram: reduzido tamanho médio das partículas, baixa polidispersividade, valores de potencial zeta positivos (característica interessante para interação com as moléculas de siRNA que apresentam carga negativa), baixa citotoxicidade in vitro e foram capazes de complexar o siRNA na concentração final de 2,5 ?M. A análise de difração de raios X caracterizou a fase líquido-cristalina desses sistemas como hexagonal, exceto a nanodispersão MO e PEI a 0,4% que foi caracterizada como uma mistura de fase hexagonal e cúbica. As nanodispersões obtidas foram capazes de aumentar a penetração cutânea de siRNA in vitro. Face aos resultados obtidos, podemos concluir que as formulações desenvolvidas são sistemas de liberação de base nanotecnológica promissores para administração tópica de siRNA para o tratamento de patologias cutâneas na terapia gênica. / Gene therapy by RNA interference (RNAi) is a post-transcriptional silencing process that can suppress the expression of a particular gene. The RNAi is a promising therapeutic approach for the treatment of many severe diseases that have no cure or well-defined treatments. However, the development of clinically appropriate, safe and effective delivery systems is necessary to enable this new therapy, since obstacles in the in vivo administration and distribution committed the clinical use of siRNAs (small interfering RNA). In addition, the topical delivery of siRNAs appears as a promising alternative for the treatment of cutaneous pathologies. In this context, this research aimed to develop a delivery system based on Nanotechnology for the topical delivery of siRNAs, aiming to introduce gene therapy as a new approach for the treatment of skin disorders. As a delivery system, liquid-crystalline nanodispersions, composed by monoolein (MO), a polar biocompatible lipid, associated or not with oleic acid (OA) were developed. The cationic adjuvants polyethylenimine (PEI) and oleylamine (OAM) were incorporated into these systems to obtain the nanodispersions. Among the aqueous nanodispersions developed, preparations with lower concentration of cationic adjuvant were chosen, these consisting of: MO and OAM at 0.4%, MO and PEI at 0.4%, MO, OA and OAM at 2.5% and MO, OA and PEI at 1.0%. These formulations presented: reduced average particle size, low polydispersity, positive values of zeta potential (an interesting feature for interacting with the siRNA molecules that have a negative charge), low cytotoxicity in vitro and they were able to complex the siRNA at a final concentration of 2.5 ?M. The X-ray diffraction analysis characterized the liquid crystalline phase of these systems as hexagonal, except the nanodispersion MO and PEI at 0.4% which was characterized as a mixture of cubic and hexagonal phases. The nanodispersions obtained were able to increase the skin penetration of siRNA in vitro. With the results obtained, we can conclude that the formulations developed are delivery systems based on nanotechnology, promising for topical administration of siRNA for the treatment of cutaneous diseases in gene therapy.
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Potentialités anti-inflammatoires de l'inhibition génomique et transcriptionnelle du TNF-[alpha] par une approche de type oligonucléotidique / Anti-inflammatory potentialities of genomic and transcriptional TNF-? inhibition by oligonucleotides (TFO and siRNA)Paquet, Joseph 15 November 2010 (has links)
Le Tumor Necrosis Factor alpha (TNF-[alpha]) est une cytokine pro-inflammatoire qui occupe un rôle central dans la physiopathologie de nombreuses pathologies inflammatoires et particulièrement l'arthrite. La neutralisation de cette cytokine par l'utilisation d'anticorps anti-TNF-[alpha] a montré son efficacité dans la polyarthrite rhumatoïde et est aujourd'hui le traitement de référence pour la prise en charge de cette pathologie. Cependant, un tiers des patients traités par anticorps anti-TNF restent réfractaires ou ne répondent pas à ce traitement. Dans ce contexte, il apparait nécessaire de développer des approches nouvelles ou complémentaires pour renforcer l'arsenal thérapeutique actuellement disponible. L'utilisation d'oligonucléotides triple hélice (TFO) permet de moduler l'expression génique de manière spécifique par interaction avec la double hélice d'ADN. Dans cette étude, nous avons évalué les potentialités anti-inflammatoires d'un TFO anti-TNF-[alpha] in vitro sur les synoviocytes et chondrocytes articulaires et in vivo dans deux modèles d'arthrite expérimentale. Ce TFO interagit avec le promoteur du gène du TNF-[alpha], et son activité inhibitrice a été comparée à celle d'une approche par ARN interférence in vitro. Dans les modèles d'arthrite aigue et chronique, l'injection intra-articulaire préventive de TFO anti-TNF-[alpha] permet une amélioration significative des symptômes arthritiques. Particulièrement, le traitement par le TFO diminue sensiblement l'inflammation synoviale et les lésions ostéocartilagineuses articulaires. Ces résultats sont les premiers à montrer la possibilité d'utiliser un TFO in vivo et offrent d'intéressantes perspectives thérapeutiques / Tumor necrosis factor alpha (TNF-[alpha]), a pro-inflammatory cytokine, plays a key role in the pathogenesis of many inflammatory diseases, including arthritis. Neutralization of this cytokine by anti-TNF-[alpha] antibodies has shown its efficacy in rheumatoid arthritis and is now widely used. Nevertheless, some patients currently treated with anti-TNF-[alpha] remain refractory or become non-responder to these treatments. In this context, there is a need for new or complementary therapeutic strategies. Triplex forming oligonucleotides (TFO) can inhibit gene expression with high sequence-specificity by interacting with the DNA double-strand. In this study, we investigated if an anti-TNF-[alpha] TFO had a therapeutic activity on inflammatory processes in vitro and in vivo, as judged from effects on two rat arthritis models. This TFO interacted with the TNF-[alpha] gene promoter, and its inhibitory activity was verified and compared to that of siRNA in vitro. A local intra-articular preventive injection of TFO in both acute and chronic arthritis models significantly reduced the development of the disease. Furthermore, the TFO efficiently blocked synovitis and cartilage and bone destruction in the joints. The results presented here provide the first evidence that gene targeting by anti-TNF-[alpha] TFO modulates arthritis in vivo, thus providing proof of concept that it could be used as therapeutic tool for TNF-[alpha]-dependent chronic inflammatory disorders
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Nanodispersões de fase líquido-cristalina como carreadoras de siRNA no tratamento tópico da psoríase: Avaliação em modelos in vitro e in vivo / Liquid crystalline nanodispersions as a siRNA carrier in the topical treatment of psoriasis: Evaluation in in vitro and in vivo modelsDepieri, Lívia Vieira 05 August 2016 (has links)
A terapia gênica por interferência de RNA (RNAi) é um processo de silenciamento gênico pós-transcricional onde moléculas de small interfering RNA (siRNA) específicas são capazes de suprimir a expressão de um determinado gene. Atualmente, é uma abordagem terapêutica promissora para o tratamento de muitas doenças graves, incluindo doenças cutâneas. No entanto, dificuldades relacionadas à administração e à biodistribuição limitam a utilização clínica dos siRNAs. Neste contexto, foi proposto o uso de um nanocarreador a base de cristais líquidos para viabilizar a aplicação de siRNAs no tratamento tópico da psoríase. A nanodispersão líquido-cristalina (NLC) desenvolvida, composta por monoleína, ácido oleico, polietilenoimina e fase aquosa (8:2:1:89, p/p/p/p), foi capaz de superar as barreiras da via de administração tópica, bem como as limitações resultantes das características das moléculas de siRNA. A NLC foi capaz de complexar o siRNA, protege-lo por 24 h da degradação enzimática e liberá-lo de forma intacta. A NLC promoveu uma alta taxa de captação celular do siRNA em fibroblastos e macrófagos. Sua aplicação tópica pode ser considerada segura para a pele, pois manteve a viabilidade da epiderme humana reconstruída acima de 50% e a quantidade de IL-1? liberada foi inferior a 60 pg/mL. A NLC apresentou eficácia em promover a liberação funcional do siRNA nos modelos in vitro avaliados. No modelo de pele humana reconstruída psoriática, reduziu os níveis de IL-6 (~ 70%) após um único tratamento por 6 h e, os níveis do RNAm IL6 (~ 50%) após o tratamento por 3 dias consecutivos. Em macrófagos, reduziu os níveis do RNAm Tnf em 40% após o tratamento concomitante com LPS por 24 h e, em 60% após o tratamento por 24 h pós-estímulo prévio com LPS. A eficácia foi ainda maior com o pré-tratamento por 24 h seguido do estímulo com LPS, que normalizou os níveis do RNAm Tnf. O tratamento tópico com a NLC veiculando siRNA Tnf foi eficaz em reduzir significativamente os níveis do RNAm Tnf nos modelos in vivo de inflamação cutânea aguda induzida por TPA (~ 60%) e de psoríase induzida por imiquimode (~ 90%) avaliados. No modelo in vivo de psoríase, o tratamento tópico com a NLC veiculando siRNA Tnf também reduziu significativamente a atividade da mieloperoxidade (~ 65%) e a espessura da epiderme (~ 70%) em comparação aos grupos controle. Também foi eficaz na melhora fenotípica dos animais, reduzindo o rubor, descamação, acantose e o número de ataques de coceira, resultados da redução do processo inflamatório decorrente da ação efetiva das moléculas de siRNA Tnf. A NLC também promoveu a penetração cutânea das moléculas de siRNA nas camadas mais profundas da pele, in vivo. Face aos resultados obtidos, pode-se concluir que a NLC é uma estratégia relevante para a administração tópica de siRNAs, que mostrou potencial terapêutico para suprimir genes específicos relacionados a doenças de pele. / Gene therapy by RNA interference (RNAi) is a post-transcriptional gene silencing process in which specific small interfering RNA (siRNA) molecules can suppress the expression of a particular gene. Currently, is a promising therapeutic approach for the treatment of many severe disorders, including skin diseases. However, difficulties related to the administration and biodistribution limit the clinical use of siRNAs. In this context, a nanocarrier based in liquid crystal has been proposed to enable the application of siRNAs in the topical treatment of psoriasis. The liquid crystalline nanodispersion (LCN) developed, composed by monoolein, oleic acid, polyethylenimine and aqueous phase (8:2:1:89, w/w/w/w), was able to overcome the barriers of topical administration route, as well as limitations resulting from the characteristics of the siRNA molecules. The LCN was able to complex the siRNA, protect it for 24 h from enzymatic degradation and release it in an intact form. The LNC promoted a high cellular uptake of siRNA in fibroblasts and macrophages. Its topical application can be considered safe to the skin since viability of the reconstructed human epidermis remained above 50% and the amount of IL-1? released is less than 60 pg/mL. The LCN showed efficacy in promoting functional release of siRNA in in vitro models evaluated. In psoriatic reconstructed human skin model, it reduced the IL-6 levels (~ 70%) after a single treatment for 6 h and the mRNA IL6 levels (~ 50%) after treatment for 3 consecutive days. In macrophages, it reduced the mRNA Tnf levels in 40% after the concomitant treatment with LPS for 24 h and, in 60% with treatment for 24 h after prior stimulation with LPS. The efficiency was higher with the pretreatment for 24 h followed by stimulation with LPS, that normalized the RNAm Tnf levels. Topical treatment with NLC carrying siRNA Tnf was effective in reduce significantly the mRNA Tnf levels in in vivo models of skin acute inflammation induced by TPA (~ 60%) and of psoriasis induced by imiquimod (~ 90%) evaluated. In the in vivo model of psoriasis, topical treatment with the NLC carrying siRNA Tnf also significantly reduced activity of myeloperoxidase (~ 65%) and the epidermis thickness (~ 70%) compared to control groups. It has also been effective in animal phenotypic improvement, reducing redness, desquamation, acanthosis and the number of itch attacks, results of the reduction in inflammatory process obtained by the effective action of siRNA Tnf molecules. The LCN also promoted the penetration of siRNA molecules into the deeper layers of the skin in vivo. With the results obtained, we can conclude that the LCN is a relevant strategy for topical administration of siRNAs, which showed therapeutic potential to suppress specific genes related to skin diseases.
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