Desenvolvimento de método de avaliação da indução de imunidade específica contra células neoplásicas pela transfecção de monócitos com RNA tumoral. / Development of a method for evaluating the induction of specific immunity against tumor cells by monocytes transfection with tumor RNA.

Gabriela de França Menezes

27 November 2008

A abordagem imunoterapêutica do câncer tem sido cada vez mais explorada. Entre os fatores que a tornam atraente, mas também a limitam, está o uso de material antigênico do próprio paciente. Assim, pretendeu-se estabelecer condições de extração e amplificação de mRNA tumoral, como fonte renovável de antígenos. Pretendeu-se avaliar também a eficácia da vacina, com o uso de monócitos transfectados com RNA tumoral total para mimetismo das células tumorais. Diferentes concentrações (0,1 mg a 10 mg) de RNA total de SK-BR-3 e diferentes tempos (12, 24 e 48 h) foram usados para transfecção. Na avaliação do potencial linfo-estimulador dos monócitos foi usado o ensaio de proliferação linfocitária e a secreção de citocinas durante a co-cultura. Como resultado viu-se que monócitos transfectados se tornaram mais ativados e foram capazes de induzir linfoproliferação. Esses resultados indicaram ser possível o desenvolvimento de um método para avaliação das respostas celulares induzidas contra células tumorais em pacientes com câncer que foram vacinados. / The cancer immunotherapeutic approach has been increasingly exploited. Among the factors that make it attractive, but also limited, is the use of patient antigenic material. Thus, we propose to establish conditions for extraction and amplification of mRNA tumor, as renewable source of antigens. It is also intended to assess the vaccine effectiveness, using monocytes transfection with total tumor RNA for mimicry the tumor cells. Different concentrations (0.1 to 10 mg) of SK-BR-3 total RNA and different times (12, 24 and 48 h) were used in transfection. To assess the lympho-stimulator potential of transfected monocytes was used the test of lymphocyte proliferation, and cytokines secretion during co-culture. The result was that transfected monocytes became more activated and were able to induce lymphoproliferation. These results indicated that the development of a method for evaluating cellular responses induced against tumor cells in cancer patients who were vaccinated is possible.

Câncer

Imunoterapia

Monócitos

Proliferação linfocitária

RNA

Transfecção

Cancer

Immunoterapy

Lymphocyte proliferation

Monocytes

RNA

Transfection

O papel funcional do miR-155 no controle pós-transcricional de mRNAs envolvidos no desenvolvimento de timócitos / The functional role of miR-155 in post-transcriptional control of mRNAs involved in thymocyte development

Rafaela de Freitas Martins Felício

14 December 2016

O timo é um órgão linfóide primário, responsável pela indução da tolerância imunológica central. Histologicamente esse órgão é formado por um estroma composto por células tímicas epiteliais (TECs) além de outros tipos celulares. Dentre as TECs encontramos as células tímicas epiteliais corticais (cTECs) e as células tímicas epiteliais medulares (mTECs), as quais são responsáveis pela seleção positiva e seleção negativa dos timócitos em desenvolvimento, respectivamente. Durante seu desenvolvimento intra-tímico, os timócitos modulam da expressão de genes de marcadores de diferenciação, os chamados clusters de diferenciação (CDs) além de outros genes. Neste projeto nós nos interessamos por este aspecto, ou seja, o controle da expressão gênica durante a diferenciação dos timócitos. Como os microRNAs (miRNAs) são elementos essenciais de controle fino da expressão gênica, atuando ao nível pós-transcricional de RNAs mensageiros (mRNAs) de células eucarióticas, nosso interesse foi o de estudar este tipo de controle em timócitos. Dentre as centenas de miRNAs já descritos no camundongo, o miRNA 155 (miR-155) é o mais expresso no timo e no baço sendo que seu papel foi já foi demonstrado em células T maduras periféricas, mas ainda não se estudou seu possível papel em timócitos em desenvolvimento. A partir das evidências do papel do miR-155 nas células T maduras, nós elaboramos a hipótese de que esse miRNA também atua no desenvolvimento de timócitos. Para testar essa hipótese, nós utilizamos a estratégia de silenciamento do miR-155 por meio de eletroporação (eletrotransfecção) do antagonista Anti-miR-155 diretamente no timo de camundongos BALB/c. Os timócitos de camundongos controle e silenciados foram então separados por citometria de fluxo e amostras de RNA dessas células foram então analisadas por meio de qRT-PCR para nos certificarmos da eficiência do silenciamento do miR-155 e por hibridizações com microarrays de mRNAs para a análise do transcriptoma. Observamos que o silenciamento do miR-155 provoca a modulação de um grande conjunto de mRNAs, os quais foram analisados com auxílio do banco de dados do \"Immunogical Genome Project\" (ImmGen) quanto aos seus aspectos funcionais focando no desenvolvimento de timócitos. Os mRNAs modulados e envolvidos neste processo, foram ainda reanalisados quanto sua capacidade de interagir por hibridização com o miR-155 (hibridização miRNA-mRNA) por meio da ferramenta computacional RNA-Hybrid. Por meio destas estratégias, conseguimos repertoriar um conjunto de mRNAs que codificam proteínas importantes para o desenvolvimento de timócitos e que são potencialmente controlados por miR-155. / The thymus is a primary lymphoid organ responsible for the induction of central immune tolerance. Histologically this organ is formed by a thymic stroma composed of thymic epithelial cells (TECs) and other cell types. The TEC cells are subdivided into cortical thymic epithelial cells (cTECs) and medullary thymic epithelial cells (mTECs), which are responsible for positive selection and negative selection of developing thymocytes, respectively. During its intra-thymic development, thymocytes modulate the gene expression of differentiation markers, so-called clusters of differentiation (CD) and other genes. In this project we are interested in the control of gene expression during the differentiation of thymocytes. As microRNAs (miRNAs) are essential elements of fine control of gene expression, acting at the post-transcriptional level of messenger RNAs (mRNAs) of eukaryotic cells, our interest was to study this type of control in thymocytes. Among the hundreds of miRNAs been described in mice, miRNA 155 (miR-155) is strongly expressed in the thymus and spleen and its role was already demonstrated in peripheral mature T cells, but has not yet been studied during the thymocyte development. Taking into account the evidence for the role of miR-155 in mature T cells, we raise the hypothesis that this miRNA is also active in developing thymocytes. To test this, we use the miR-155 silencing strategy by using electroporation (electrotransfection) of anti-miR-155 antagonist directly into the thymus of BALB/c mice. The thymocytes of control or silenced mice were then separated by flow cytometry and RNA samples from these cells were initially analyzed by qRT-PCR to make sure of miR-155 silencing efficiency and then by hybridization with microarrays for mRNA transcriptomeanalysis. We note that miR- 155 silencing cause modulation of a large set of mRNAs, which were analyzed through \"Immunological Genome Project\" (ImmGen) database focusing on developing thymocytes. The modulated mRNAs that were involved in this process were also retested for their ability to interact with miR-155 (miRNA-mRNA hybridization) by means of RNA-Hybrid computational tool. Through these strategies we were able to found a set of mRNAs encoding proteins important for the development of thymocytes that are potentially controlled by miR-155.

Desenvolvimento de timócito

eletrotransfecção e AntimiR-155

miR-155

Development thymocyte

electro-transfection and Anti-miR-155

miR-155

Desenvolvimento de lipossomas catiônicos contendo ácido hialurônico para a veiculação de DNA. / Developmet of cationic liposome with hyaluronic acid for gene therapy

Corrêa, Gabriela de Sá Cavalcanti

21 August 2018

Orientador: Lucimara Gaziola de La Torre / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Química / Made available in DSpace on 2018-08-21T16:14:11Z (GMT). No. of bitstreams: 1 Correa_GabrieladeSaCavalcanti_M.pdf: 2289921 bytes, checksum: fab97f76a524bba1b46aeeb55756ed3f (MD5) Previous issue date: 2012 / Resumo: Esta pesquisa visou o desenvolvimento de lipossomas catiônicos contendo o DNA plasmideal e recobertos com o ácido hialurônico, para o desenvolvimento de novas estratégias de vacinas gênicas. Os lipossomas foram compostos dos lipídios: fosfatidilcolina natural de ovo (EPC), 1,2-dioleoil-sn-glicero-3-fosfoetanolamina (DOPE) e 1,2-dioleoil-3-trimetilamônio-propano (DOTAP). A primeira etapa, avaliou-se a influência do tipo de lipossoma (extrudado ou DRV - "Dehydrated-rehydrated") e de duas massas molares de ácido hialurônico (HA 6 e 16 kDa) nas propriedades dos complexos finais. Lipossomas extrudados apresentaram diâmetro médio reprodutível, quando comparado com lipossomas do tipo DRV. Surpreendentemente, complexos formados por lipossomas extrudados e HA 16 kDa apresentaram diâmetro na faixa nanométrica (200-400nm). Na segunda etapa, estudou-se o efeito da incorporação de um DNA modelo nas estruturas contendo HA e lipossomas catiônicos através da construção do perfil de diâmetro médio e potencial zeta em função da razão molar entre as cargas positivas (dos lipídeos catiônicos) e das cargas negativas proveniente do DNA (R+/-). A proporção escolhida foi R+/- = 3, pois permite toda a incorporação do DNA na estrutura lipossomal. Estudos de transfecção mostraram que a presença do HA nas estruturas eleva a eficiência de transfecção em células HeLa, porém de forma independente da quantidade de HA. A partir destes estudos, amostras contendo LACKDNA/Lipossomas catiônicos/HA foram preparadas e enviadas para estudos in vivo no Laboratório de Imunofarmacologia - Instituto de Biofísica Carlos Chagas Filho - UFRJ para avaliação da capacidade destas nanoestruturas na vacinação contra a Leishmaniose / Abstract: This research has the goal of develop a vaccine composed of liposome containing DNA and covered by hyaluronic acid as a new strategy for gene delivery. The hyaluronic acid is a natural polysacaride with mucoadhesive properties and has been used in vaccines using nasal route. This biopolymer allows the increase in the gene delivery in liposome systems because it has specific sinals for the cells, CD44 and RHAMM. The liposomes use in this research are composed of egg phosphatidylcholine(EPC), 1,2-dioleoyloxy-3-trimethylammonium propane(DOTAP), l-alpha-dioleoyl phosphatidylethanolamine(DOPE), and hyaluronic acid used was of low molecular weight (6 and 16 kDa). The first step study the influence of the kind of liposome (extruded liposome or DRV - "Dehydrated-rehydrated") and polymer mplecular weight. The final properties of the systems were checked. Extruded liposomes show diameter results more reproductive compared to DRV. The complexe of HA 16 kDa and extruded liposomes has the diameter in the nano scale (200-400 nm). The morphology of these complexes indicat the HA is covering the liposome. In a second step study the DNA incorporation in liposome using the construction of diameter and zeta potential profile in function of molar charge ratio ( positive molar charge from cationic lipid/ molar negative charge ratio from DNA).The best molar charge ratio considered was 3 for futher studies with liposome , DNA and HA. Transfection studies demonstrated that the HA presence increase the eficience of gene delivery in HeLa cells, no matter the amount of HA. Using this study, the structures composed of liposome/LACKDNA/HA, are prepared to be used in in vivo and in vitro studies of Leishmanioses in the Carlos Chagas Institute/UFRJ / Mestrado / Desenvolvimento de Processos Biotecnologicos / Mestra em Engenharia Química

Lipossomas

Transfecção

Ácido hialurônico

Nanotecnologia

Vacinas

Liposomes

Transfection

Hyaluronic acid

Nanotechnology

Vaccines

Polymérisation supramoléculaire de cyclodextrines : application à la compaction d’ADN / Cyclodextrin-based supramolecular polymerisation : application to DNA compaction

Rossignol, Julien

28 October 2016

La formation de structures nanométriques définies dans l'eau demeure un défi pour les chimistes supramoléculaires. L'interaction entre cyclodextrines beta et adamantane a ici été utilisée pour former des polymères supramoléculaires en solution. L'utilisation d'une structure pontée nous a permis d'éviter la formation de l'espèce auto-incluse et d'augmenter la solubilité de nos dérivés. Les polymères supramoléculaires ont été caractérisés par différentes techniques (ROE, ITC, DOSY, SANS), et forment des espèces linéaires en solution allant jusqu'à 26 unités polymérisées. Celles-ci ont été utilisées pour compacter de l'ADN à des concentrations basses en mettant à profit l'association entre monomères. Un deuxième mécanisme, reposant sur des interactions non spécifiques entre cyclodextrines, a aussi été observé. Enfin, les structures synthétisées ont été utilisées dans la transfection d'ADN plasmidique, mais ne sont pas efficaces. Ce comportement pourrait provenir de leur faible densité de charge. / The synthesis of defined nanometric structures in water remains a challenge for supramolecular chemists. The interaction between adamantane and beta cyclodextrin was thus used to build new supramolecular polymers in solution. The use of a bridged structure enabled us to suppress the self-inclusion phenomenon and to enchance the solubility of our compounds. Supramolecular polymers were characterised using several techniques (ROE, ITC, DOSY, SANS), forming linear species up to 26 polymerised units. These structures were used to condense DNA at low concentrations, taking advantage on their host-guest behavior. Another condensation mechanism was discovered, involving non-specific interactions between cyclodextrins. The same structures were used to transfect plasmidic DNA, but were inefficient. This could be due to their low charge density.

Cyclodextrine

Hôte-Invité

Polymérisation supramoléculaire

Adn

Compaction

Transfection

Cyclodextrin

Polymerisation

Supramolecular polymers

541.2

TPA and other small molecules can regulate the lategene expression in Human Papillomavirus (HPV-16)

Jissbacke, Erica

January 2015

Cervical cancer is almost exclusively caused by the HPV virus, whit HPV 16 and 18 involved in the majority of cases. The HPV virus can be divided into high risk and low risk types, where the high risk types are most associated with cancer. HPV is spread by sexual skin to skin contact, many people get infected without getting cervical cancer. HPV is also involved in the development of several other types of cancers such as oral and other genital cancers. The HPV virus infects epithelium stem cells and disrupts basic functions of the cells. A high expression of the late genes early in an infection may result in that an HPV 16 infection dies out. The late gene expression was analysed by using a CAT ELISA method, in the cell lines used one of the late genes had been replaced by a CAT reporter gene. Several small molecules where investigated, to study the regulation of the late gene expression. The results of the study was that a regulation of the late gene expression could be seen when pBELMCAT was treated with TPA, TA and RA where TPA gave the highest increase in the late gene expression. TA/RA combined with TPA increased the expression even more. As a conclusion it seems possible for small molecules to be used in treatments for cervical cancer that is caused by HPV 16, to upregulate the late gene expression and maybe be able to eliminate the infection before serious damage and disease can develop.

BELMCAT

CAT assay (ELISA)

Cell culture

Cervical cancer

Transfection

Biomedical Laboratory Science/Technology

Charakterisierung des Targetingverhaltens präsynaptischer Proteine / Characterization of the targeting of presynaptic proteins

Riemann, Donatus

14 May 2018

No description available.

610

Rogdi, Bassoon, RIBEYE

Mover

Neuron

Synapse

Hippocampus

Transfection

Recombinant

GOK-MEDIZIN

Co-localization of CYP4F22 and CERS3 in HeLa and HEKn cells could point towards metabolic pathway interactions

Norman, Albin

January 2016

The skin is the largest organ in the body. Its function is to protect the body from potential harm and to maintain homeostasis. The epidermis is the outermost layer of the skin. Stratum corneum is the outermost layer of the epidermis, composed of corneocytes and surrounding lipids. The lipids are produced by different enzymes that all play a role in the formation and function of the skin permeability barrier. Mutations in genes coding for these enzymes can lead to barrier dysfunction and could cause autosomal recessive congenital ichthyosis (ARCI). Nine genes have been identified as ARCI-causative and two of them are CYP4F22 and CERS3.   The purpose of this project was to study co-localization of CYP4F22 with CERS3 and also mutated CYP4F22 enzymes, by transfecting plasmids into HeLa and HaCaT cells and performing PLA on HEKn cells. Co-localization could indicate potential interactions and by studying these more in the future, novel treatment strategies can be developed for ARCI patients.   Transfection attempts showed a low transfection grade of wild type genes in both HeLa and HaCaT cells. Tendencies towards co-localization was seen in both cell types and some HeLa cells showed strong correlation after image analysis. Transfection of mutated genes failed, unfortunately. PLA showed co-localization in normal keratinocytes. The obtained results indicated a co-localization, but results need to be confirmed by immunoprecipitation and immunoblotting in the future.

Transient transfection

Fiji ImageJ

mutagenesis

genodermatoses

acylceramide

Biomedical Laboratory Science/Technology

Impedance Optimized Electric Pulses for Enhancing Cutaneous Gene Electrotransfer

Atkins, Reginald Morley

01 February 2017

Electric field mediated gene delivery modalities have preferable safety profiles with the ability to rapidly transfect cells in vitro and in vivo with high efficiency. However, the current state of the art has relied on trial and error studies that target the average cell within a population present in treated tissue to derive electric pulse parameters. This results in fixed gene electrotransfer (GET) parameters that are not universally optimum. Slow progress towards the validation of a mechanism that explains this phenomena has also hindered its advancement in the clinic. To date, GET methods utilizing feedback control as a means to optimize doses of electric field stimulation have not been investigated. However, with modern electric components the electric characteristics of tissue exposed to electric pulses can be measured in very short time scales allowing for a near instantaneous assessment of the effect these pulses have on cells and tissue. This information is ideal for use in optimizing GET parameters to ensure the conditions necessary for gene delivery can be created regardless of anisotropic tissue architecture and electrode geometry. Bioimpedance theory draws parallels between cell structures and circuit components in an attempt to use circuit theory to describe changes occurring at a cellular and tissue level. In short, a reduction in tissue impedance indicates a reduction to the opposition of current flow in a volume conductor indicating new pathways for current. It has been purported these new pathways exist in the cell membrane and indicate a degree of membrane permeability/destabilization that either indicates or facilitates the uptake of exogenous molecules, such as nucleic acids or plasmid DNA. This study evaluated the use of relative impedance changes from 10 Hz – 10 kHz that occur in tissue before and after GET to indicate relative increase in tissue and membrane permeability. An optimum reduction in impedance was then identified as an indicator of the degree of membrane permeability required to significantly enhance exogenous DNA uptake into cells. This study showed the use of impedance-based feedback control to optimize GET pulse number in real time to target 80% or 95% reduction in tissue impedance resulted in an 12 and 14 fold increase in transgene expression over controls and a 6 and 7 fold increase in transgene expression over fixed pulse open loop protocols.

Electroporation

Bioimpedance Spectroscopy

Gene Delivery

Cell-membrane Permeabilization

Gene Therapy

DNA Transfection

Controlled synthesis of polyvinylamine-based (co)polymers for gene transfection / Synthese contrôlée de copolymères à base de polyvinylamine pour le transfert de gènes

Dréan, Mathilde

10 October 2016

Le transfert de gènes consiste en l’introduction d’acides nucléiques au sein de cellules afin de modifier leur activité dans un but essentiellement thérapeutique. Pour préserver le matériel génétique de toute dégradation, il faut recourir à des vecteurs. Parmi ceux-ci, les polymères cationiques sont très prometteurs, en particulier, la polyéthylènimine, considérée comme le vecteur non-viral de référence. Néanmoins, il présente une cytotoxicité élevée. Ainsi, de nombreuses recherches ont pour but d’identifier et de développer de nouveaux polymères combinant efficacité de transfection et haute viabilité cellulaire. Cette thèse vise le développement de méthodes d’ingénierie macromoléculaire donnant accès à une large gamme de dérivés à base de polyvinylamine et l’évaluation de leurs performances en tant que vecteurs de transfection. Différentes techniques de polymérisation radicalaire conventionnelle et contrôlée ont été mises au point afin de synthétiser des (co)polymères à base de polyvinylamine constitués d’amines primaires et secondaires. L’efficacité du transfert d’ADN plasmidique et la viabilité cellulaire ont été évaluées sur des cellules HeLa. L’influence de différents paramètres macromoléculaires sur les performances de transfection a été investiguée. Cette étude a permis de démontrer que certains dérivés de polyvinylamine possédaient une efficacité de transfection aussi élevée que la PEI tout en étant moins toxique. De manière générale, ce travail rend compte du haut potentiel des (co)polyvinylamines en tant que vecteurs pour le transfert de gènes. / Gene transfection consists in the introduction of genetic materials (DNA or RNA) in cells in order to modulate the cell activity, with therapeutic purposes in most cases. To deliver the genetic materials into cells without degradation, vectors are necessary. Among them, cationic polymers are promising candidates. For instance, polyethylenimine has emerged as a gold standard due to its high transfection ability. Nevertheless, this polymer exhibits high cytotoxicity, and current research aims at identifying and developing new polymers with improved cell viability and high gene transfer efficiency. In this context, the aim of this thesis was to develop efficient macromolecular engineering tools to prepare a library of polyvinylamine-containing (co)polymers and to evaluate their performances as DNA carriers. Consequently, free radical polymerization (FRP) and controlled radical polymerization (CRP) have been explored and a series of (co)polyvinylamines, containing primary and secondary amines, as well as vinylimidazole and guanidine moieties, have been synthesized. The transfection efficiency of plasmid DNA (pDNA) and cell viability were evaluated on HeLa cells. The influence of different macromolecular parameters such as molar mass, molar mass distribution and composition, was also studied. The most promising polymers for pDNA transfection were also tested for siRNA delivery and on other cell lines. Overall, several polymers were competitive with PEI regarding the transfection efficiency but were much less toxic. (Co)polyvinylamines, which have often been disregarded for transfection purposes, should definitely be considered as valuable gene carriers.

Polyvinylamine

Transfert de gènes

Polymérisation radicalaire contrôlée

Polyvinylamine

Gene transfection

Controlled radical polymerization

541.3

EFFECTS OF CORE AND SHELL MODIFICATION TO TETHERED NANOASSEMBLIES ON SIRNA THERAPY

Rheiner, Steven

01 January 2017

siRNA therapy is an emerging technique that reduces protein expression in cells by degrading their mRNAs via the RNA interference pathway (RNAi). Diseases such as cancer often proliferate due to increased protein expression and siRNA therapy offers a new method of treatment for those diseases. Although siRNA therapy has shown success in vitro, it often fails in vivo due to instability in the blood stream. To overcome this limitation, delivery vehicles are necessary for successful transfection of siRNA into target cells and cationic polymers have been widely studied for this purpose. However, complexes between siRNA and delivery vehicles made from cationic polymers exhibit stability issues in the blood stream which results in toxicity and low transfection. This work hypothesizes that improvement of vehicle/siRNA complex stability will improve siRNA transfection efficiency. To test this, the contributions and outcomes of poly(ethylene glycol) [PEG] shell and hydrophobic core modification to a polyethylenimine (PEI) based tethered nanoassemblies (TNAs) were examined. Initially, hydrophobic modification of palmitate (PAL) to the core of the TNA yielded improved transfection efficiency due to an enhanced endosomal escape capability. However, this modification also reduced the TNA/siRNA complex stability. This indicated that the core hydrophobicity must be balanced in order increase stability while increasing transfection efficiency. Additionally, TNAs made from PEG and PEI did not cause transfection in our initial study. The PEG shell density was found to be too great and thereby reduced transfection efficiency. Reducing the PEG density by lowering PEG molecular weight, reducing attachment percentage, and removing small PEI impurities from the synthesis stock increased overall transfection efficiency and unimolecularity of the TNA complexes. This indicated that the shell composition of the TNA must be tuned in order to improve particle design. Further study of the hydrophobically modification to TNAs yielded unintended effects on the transfection efficiency evaluation assay. These particles exhibited an siRNA independent reduction in the reporter protein used to observe transfection, or a false positive effect, that was not previously observed. It was found that this false positive was influence mainly by the hydrophobic group rather than the cationic polymer backbone. Cellular stress was observed in cells dosed with the hydrophobically modified TNAs which lead to over ubiquitination and rapid degradation of the luciferase protein. This demonstrated that core components of TNAs could cause cellular stress and influence interaction outside of the TNA. Overall, this work demonstrates that hydrophobic core and PEG shell modification require balancing and consideration to improve properties of future cationic polymer based siRNA delivery vehicle design.

Tethered nanoassemblies

siRNA therapy

gene delivery

cationic polymer

chemical modification

transfection

Pharmaceutics and Drug Design