Study of cellular delivery of siRNA and shRNA targeting bcr-abl in chronic myeloid leukemia using Tat derived peptide

Arthanari, Yamini

January 2011

Chronic Myeloid Leukemia is characterised by the formation of a fusion gene bcr-abl. The gene product BCR-ABL has deregulated tyrosine kinase activity that plays a direct role in the pathogenesis of the disease. Recently, use of siRNA in leukaemic cells has led to effective gene silencing of bcr-abl. Gene delivery systems like viral vectors, electroporation and lipid based vectors have showed varying efficiencies but are limited by their level of toxicity and immunogenicity. Developments in the field of Cell Penetrating Peptides have shown effective cellular uptake of nucleic acids and proteins by the CPPs in vitro and in vivo. Report from our lab has shown the use of CPP Tat along with membrane active peptide LK15 to improve the transfection efficiency of both Tat and LK15 peptides individually. Hence, this study will focus on the use of Tat-LK15 peptide to study the delivery of siRNA and shRNA plasmid in K562 cells and observe the BCR-ABL protein expression. Cellular uptake studies using Tat-LK15 based complexes of Cy5-labelled DNA and siRNA showed a concentration dependent uptake leading to increase in percentage transfected cells. Tat-LK15 based DNA complexes achieved 80% transfected cells (charge ratio of 2:1) while siRNA complexes resulted in a maximum of 60% (charge ratio of 3:1). However, Lipofectamine based DNA complexes did not show a concentration dependent increase in percentage transfected cells. Interestingly, Tat-LK15 based siRNA complexes showed a similar level of uptake and percentage transfected cells as that of Lipofectamine based siRNA complexes. Cellular uptake studies using confocal microscopy 4 hours post transfection, showed that when 1μg of DNA was transfected, the labelled DNA was primarily localised on the cell membrane. Interestingly, using 5μg of DNA led to increased intracellular localisation of the labelled DNA, but this observation was not made with Lipofectamine based complexes. The observation at 24 hours post transfection of Tat-LK15/labelled DNA complexes was of higher intensity when compared to that of Lipofectamine based DNA complexes. The reason for this is however not known. Interestingly, the cellular uptake profile using siRNA based complexes was different. At 4 hours post transfection, there was intracellular localisation of labelled siRNA. 24 hours post transfection, there was diffuse cytoplasmic localisation using lower concentration of siRNA whereas using higher concentration led to more high intensity punctate localisations within the cell. Similar observations were made for both Tat-LK15 and Lipofectamine based siRNA complexes.Gene silencing studies of Tat-LK15/shRNA plasmid complex resulted in 80% reduction in protein levels 96 hours post transfection for higher concentrations of shRNA plasmid treated. Similar level of reduction in BCR-ABL was observed with Lipofectamine based complex. Supporting evidence of reduction in mRNA levels was observed using qRT-PCR 48 hours post transfection. However, Tat-LK15/shRNA plasmid complexes led to around 80% of protein reduction 192 hours post transfection while Lipofectamine based complexes resulted in only 40% of protein reduction. Transfection using increasing concentrations of siRNA complexed to Tat-LK15 and Lipofectamine led to greater than 70% reduction in protein levels for most concentration ranges tested. This reduction in protein levels lasted only 48 hours post transfection. In conclusion, Tat-LK15 peptide could be used for shRNA plasmid and siRNA based delivery and could offer an efficient gene delivery model for studying RNAi.

572.8

Synthesis and Characterization of Miniaturized Fluorescence Sensors for Aqueous and Cellular Measurements

Ma, Aihui

20 May 2005

The objective of this Ph.D. study was to develop new and improved miniaturized particle-based optochemical sensors for the analysis of biological fluid and cellular components. This is highly important because current sensing systems can be biologically toxic and incompatible, invasive, and have limited responsiveness. To accomplish this goal we defined three tasks. The first was to develop lipobead-based sensors for chloride. The halide-specific fluorescence dye, lucigenin, was immobilized into the phospholipid membrane of the lipobeads to enable chloride ion detection. The fluorescence intensity of lucigenin decreases with increasing chloride ion concentration due to dynamic quenching. To stabilize the lipobeads we co-immobilized hexadecanesulfonate molecules into the phospholipid membrane. We also immobilized the chloride ionophore [9] mercuracarborand-3 (MC-3) into the lipobeads membrane. The study resulted in a unique submicrometric chloride ion sensor, which is suitable for chloride ion measurements in biological fluids. The second task was to develop for the first time lipobeadbased biosensors. Urea was chosen as a model substance since the urea/urease biosensing system is well known. Fluorescence sensing lipobeads were characterized by coating carboxylfunctionalized silica microspheres with phospholipids for the measurement of urea in aqueous samples. The enzyme urease and the pH indicator Fluorescein-5-thiosemicarbazide were attached covalently to the phospholipid membrane of the lipobeads. We prepared improved fluorescence sensing lipobeads by utilizing covalent chemistry to bind the phospholipid membrane to the silica particles and the fluorophores to the membrane. It led to improvement in the stability of the newly developed urea sensing lipobeads compared to previously developed micrometric fluorescence sensors. The final task of this study was to coat particle-based sensors with cell penetrating peptides to enable their permeation into cells. This step is essential for the use of particles as intracellular sensors. Streptavidin coated microspheres were modified by the strongest noncovalent interaction between avidin and biotin. Tat peptide and nonfluorescence indicator flubida were attached to the surface of the microspheres. These nanoparticles were delivered into MCF7 and Hela cancer cells for pH measurement. Before penetrating into the cells, flubida did fluoresce in cell medium; however it did not convert to fluorecein in Phosphate Buffered Saline (PBS) buffer.

Lipobeads

Chloride sensor

Urea sensor

Flourescence microscopy

Tat peptide

Intracellular particle delivery

DNA Nanoparticles for Non-viral Gene Therapy: Mechanistic Studies and Targeting

Sun, Wenchao

26 June 2012

No description available.

Biochemistry

Biomedical Research

Nanotechnology

Polymers

DNA nanoparticles

non-viral gene therapy

polylysine

reducible linkage

disulfide bond

extracellular mechanism

targeted delivery

non-covalent conjugation

TAT peptide

monovalent streptavidin

Methodological development in peptide chemistry for synthesis of antimicrobial and antifungal derivatives of marine natural peptides / Développement méthodologique en synthèse peptidique pour l'obtention de composés antifongiques et antibactériens dérivés de peptides marins.

Das, Sanjit

16 November 2018

La chimie de clic est devenue indispensable dans les nombreux domaines de chimie associée à la conception de médicament. Dans ce contexte, comme nous savons(connaissons) l'étude concernant l'impact d'insertion triazole sur la conformation de peptaibol est limitée, nous avons conduit l'étude pour examiner l'impact et l'adaptabilité de 1, 1 4-disubstituted, 2, l'insertion 3-triazole dans peptaibols différent. Selon le résultat de cette expérience touchant à l'activité réduite et la conformation perturbée de l'analogue peptaibol, le substitut dipeptide décoré du fragment triazole portant substituents hydrophobe divers a été inséré à très N-ter la partie du peptaibol. L'amélioration du bioactivity et de la restauration de la conformation pour les analogues peptaibol a été observée et le fait a été aussi soutenu par les résultats obtenus de l'étude biophysique des analogues choisis d'ALM F50/5. Nous avons plus loin prolongé notre étude pour employer notre stratégie à être appliqué sur le peptide P42 thérapeutique qui souffre de la limitation de manque de perméabilité et de stabilité. Le peptide P42 est impliqué dans le pathophysiology de la maladie d'Huntington neurodégénératif. Un total de 12 analogues de peptide de P42-camelote a été synthétisé par SPPS par notre protocole optimize. Dans la deuxième partie, nous avons développé une stratégie pour synthétiser lipopeptide cyclique produit de l'espèce cynaobacterial marine. Notre objectif principal était de synthétiser Hormothamnin A, undecapeptide cyclique consistant de plusieurs acides aminés artificiels incluant dehydroamino acide (Dhaa) qui fait la synthèse de ce peptide compliqué. En raison de cette raison, premièrement, nous avons voulu appliquer notre stratégie de synthétiser Trichormamide A, une sorte relativement plus simple de cylic lipopeptide. Après l'accomplissement de cette tâche, une première tentative a été faite pour synthétiser Hormothamnin A. Le résultat préliminaire de ceci est présenté dans cette section. Enfin, nous avons essayé de développer une méthodologie robuste pour synthétiser Fmoc-Dhaa dans la phase de solution et son insertion dans l'ordre peptaibol par une norme(un standard) SPPS le protocole. Les résultats préliminaires que nous avons concernant la synthèse Dhaa et son insertion dans peptaibol sont aussi discutés ici de plus avec la synthèse de phase solide de Bergofungin naturel D. / The click chemistry has become indispensible in the many areas of chemistry associated with drug design. In this context, as we know the study concerning the impact of triazole insertion on the conformation of peptaibol is limited, we have conducted the study to investigate the impact and adaptability of the 1, 4-disubstituted 1, 2, 3-triazole insertion into different peptaibols. Depending on the outcome of this experiment relating to reduced activity and perturbed conformation of the peptaibol analogue, the dipeptide surrogate decorated with the triazole moiety bearing various hydrophobic substituents was inserted at the very N-ter part of the peptaibol. The improvement of the bioactivity and restoration of the conformation for the peptaibol analogues was observed and the fact was also supported by the results obtained from the biophysical study of the selected analogues of ALM F50/5. We have further extended our study to employ our strategy to be applied on the therapeutic P42 peptide which suffers from the limitation of lack of permeability and stability. P42 peptide is involved in the pathophysiology of neurodegenerative Huntington’s disease. A total of 12 analogues of P42-TAT peptide were synthesized through SPPS by our optimized protocol. In the second part, we have developed a strategy for synthesizing the cyclic lipopeptide originated from marine cynaobacterial species. Our main objective was to synthesize Hormothamnin A, a cyclic undecapeptide consisting of several unnatural amino acids including dehydroamino acid (Dhaa) which makes the synthesis of this peptide complicated. Due to this reason, firstly, we have chosen to apply our strategy to synthesize Trichormamide A, a relatively simpler kind of cylic lipopeptide. After accomplishing this task, a first attempt was made to synthesize Hormothamnin A. The preliminary result of this is presented in this section. At last, we have tried to develop a robust methodology to synthesize Fmoc-Dhaa in solution phase and its insertion into the peptaibol sequence through a standard SPPS protocol. The preliminary results we have got concerning the Dhaa synthesis and its insertion into peptaibol are also discussed here in addition with the solid phase synthesis of natural Bergofungin D

Peptaibol

Chimie de clic

Modification chimique

Triazole dipeptide

Maladie de Huntington

P42-Tat peptide

Dehydroamino acide (Dhaa)

Lipopeptide cyclique

Trichormamide A

Hormothamnin A

Peptaibol

Click chemistry

Chemical modification

Triazole dipeptide

Huntington’s disease

P42-Tat peptid

Dehydroamino acid (Dhaa)

Cyclic lipopeptide

Trichormamide A

Hormothamnin A

540

Auto-assemblages biofonctionnels à base de conjugués polymère-b-peptide / Biofunctional self-assemblies from polymer-b-peptide conjugates

Drappier, Charlotte

22 November 2013

La thèse présentée décrit la préparation et l’étude d’auto-assemblages élaborés à partir de conjugués amphiphiles Tat-b-poly(triméthylène carbonate) (Tat-b-PTMC) doués de propriétés d’internalisation cellulaire conférées par le segment peptidique Tat. L’objectif principal de ces travaux était d’établir et de comprendre les liens entre la structure macromoléculaire, les caractéristiques colloïdales et l’activité biologique de ces systèmes. Les efforts de précision moléculaire et de caractérisation fournispour la synthèse des chimères Tat-b-PTMC a permis de corréler finement leurs structures chimiquesaux paramètres physico-chimiques des nanoparticules obtenues. Grâce à une approche expérimentale transverse combinant des études de biologie cellulaire et de biophysique, le mécanisme d’interaction in vitro de ces nanoparticules avec les cellules HeLa a pu être en partie élucidé. Enfin, un camouflage électrostatique pH-sensible a été mis au point pour tenter de moduler leur activité et d’augmenter leur sélectivité vis-à-vis de l’environnement tumoral. / This thesis work deals with preparation and study of cell-penetrating self-assemblies from amphiphilicpolymer-b-peptide Tat-b-poly(trimethylene carbonate) conjugates. Tat-b-PTMC chimeras withtunable hydrophilic fractions were synthesized, thoroughly characterized and self-assembled inaqueous buffer into size-tunable, highly monodisperse core-shell nanoparticles, presenting a full Tatcorona. Their physico-chemical profiles were assessed by complementary imaging (AFM, TEM) andscattering techniques (multiangle DLS, SANS) and correlated with their molecular architectures.Their transduction ability in vitro on HeLa cells and interaction mode with phospholipid membraneswere studied with a view to correlate their physico-chemical profiles with their biological properties.This interdisciplinary approach partially shed light on the interactions at play in the cellular uptakeprocess. With the ultimate goal of improving pharmacological characteristics, we finally endeavoredto develop an ON/OFF PEGylation strategy to harness the cell penetrating power of thosebiomacromolecular self-assembled systems.

Chimères amphiphiles

Polymère-b-peptide

PTMC

Peptide tat

Auto-assemblage

Nanoparticules biofonctionnelles

Internalisation cellulaire

Amphiphilic conjugates

Polymer-b-peptide

PTMC

Tat Peptide

Self-assembly

Biofonctional nanoparticles

Cellular uptake

Cell-penetrating micelles