Caracterização de nanopartículas pDNA-protamina e pDNA-protamina-lipossoma e avaliação da eficiência de entrega gênica a células de mamífero. / Characterization of pDNA-protamine and pDNA-protamine-liposome nanoparticles and evaluation of the efficiency of gene delivery to mammalian cells.

Silva, Daniel Campos

11 December 2015

Em estudos de terapia gênica e vacinação por DNA, a eficiência e a segurança dos vetores que transportam o material genético terapêutico possuem papel fundamental. Vetores não virais são considerados mais seguros, mas menos eficientes em relação aos vetores virais. Em parte, isso se deve à falta de estudos sistemáticos e comparativos no que diz respeito às características físico-químicas desses vetores quando em soluções biológicas e o efeito delas sobre a eficiência de entrega gênica. O objetivo deste trabalho é avaliar o efeito do pH, da força iônica e do tipo tampão de complexação sobre as características físico-químicas de nanopartículas pDNA-protamina e pDNA-protamina-lipofectamina, visando à entrega gênica para diferentes linhagens celulares. Para isso, nanopartículas formadas em diferentes condições foram caracterizadas através de ensaios de espalhamento dinâmico de luz (DLS) e potencial zeta. Os estudos indicaram que o pH, a força iônica, o tipo de tampão e a presença de meio de cultura e soro no ambiente de complexação alteram significativamente o tamanho, a polidispersidade e o potencial zeta das partículas formadas. Finalmente, buscou-se avaliar o efeito dessas características sobre a eficiência de transfecção in vitro de células de macrófagos IC21 e células HeLa. Os estudos de transfecção em células Hela indicam que tanto a composição como as condições de formação das partículas influenciam significativamente a eficiência de transfecção. / In gene therapy and DNA vaccination studies, the efficiency and safety of the vector carrying the therapeutic gene play a fundamental role. Non-viral vectors are considered safer but less effective when compared to viral vectors. In part, this is due to the lack of systematic and comparative studies regarding the physicochemical characteristics of these vectors when prepared in biological solutions and their effect on gene delivery efficiency. The objective of this study was to evaluate the effect of pH, ionic strength and type of complexation buffer on pDNA-protamine and pDNAprotamine- lipofectamine nanoparticles aiming at gene delivery to different cell lines. In order to achieve this goal, nanoparticles formed under different conditions were characterized by dynamic light scattering test (DLS) and zeta potential. Our studies indicated that the pH, the ionic strength, buffer type, and the presence of culture medium and serum in the complexation environment all significantly affect the size, polydispersity, and zeta potential of the particles formed. Finally, we evaluated the effect of these characteristics on the efficiency of transfection in vitro using HeLa cells and macrophages IC21. The transfection studies, especially using Hela cells, indicated that both, nanoparticle composition and the conditions of complex formation, significantly affect the efficiency of the transfections.

Células

DNA

DNA

Entrega gênica

Gene delivery

Lipofectamina

Lipofectamine

Nanoparticles

Nanopartículas

Non viral vectors

Protamina

Protamine

Vacinas

Vetores não virais

Caracterização de nanopartículas pDNA-protamina e pDNA-protamina-lipossoma e avaliação da eficiência de entrega gênica a células de mamífero. / Characterization of pDNA-protamine and pDNA-protamine-liposome nanoparticles and evaluation of the efficiency of gene delivery to mammalian cells.

Daniel Campos Silva

11 December 2015

Em estudos de terapia gênica e vacinação por DNA, a eficiência e a segurança dos vetores que transportam o material genético terapêutico possuem papel fundamental. Vetores não virais são considerados mais seguros, mas menos eficientes em relação aos vetores virais. Em parte, isso se deve à falta de estudos sistemáticos e comparativos no que diz respeito às características físico-químicas desses vetores quando em soluções biológicas e o efeito delas sobre a eficiência de entrega gênica. O objetivo deste trabalho é avaliar o efeito do pH, da força iônica e do tipo tampão de complexação sobre as características físico-químicas de nanopartículas pDNA-protamina e pDNA-protamina-lipofectamina, visando à entrega gênica para diferentes linhagens celulares. Para isso, nanopartículas formadas em diferentes condições foram caracterizadas através de ensaios de espalhamento dinâmico de luz (DLS) e potencial zeta. Os estudos indicaram que o pH, a força iônica, o tipo de tampão e a presença de meio de cultura e soro no ambiente de complexação alteram significativamente o tamanho, a polidispersidade e o potencial zeta das partículas formadas. Finalmente, buscou-se avaliar o efeito dessas características sobre a eficiência de transfecção in vitro de células de macrófagos IC21 e células HeLa. Os estudos de transfecção em células Hela indicam que tanto a composição como as condições de formação das partículas influenciam significativamente a eficiência de transfecção. / In gene therapy and DNA vaccination studies, the efficiency and safety of the vector carrying the therapeutic gene play a fundamental role. Non-viral vectors are considered safer but less effective when compared to viral vectors. In part, this is due to the lack of systematic and comparative studies regarding the physicochemical characteristics of these vectors when prepared in biological solutions and their effect on gene delivery efficiency. The objective of this study was to evaluate the effect of pH, ionic strength and type of complexation buffer on pDNA-protamine and pDNAprotamine- lipofectamine nanoparticles aiming at gene delivery to different cell lines. In order to achieve this goal, nanoparticles formed under different conditions were characterized by dynamic light scattering test (DLS) and zeta potential. Our studies indicated that the pH, the ionic strength, buffer type, and the presence of culture medium and serum in the complexation environment all significantly affect the size, polydispersity, and zeta potential of the particles formed. Finally, we evaluated the effect of these characteristics on the efficiency of transfection in vitro using HeLa cells and macrophages IC21. The transfection studies, especially using Hela cells, indicated that both, nanoparticle composition and the conditions of complex formation, significantly affect the efficiency of the transfections.

Células

DNA

Entrega gênica

Lipofectamina

Nanopartículas

Protamina

Vacinas

Vetores não virais

DNA

Gene delivery

Lipofectamine

Nanoparticles

Non viral vectors

Protamine

Διερεύνηση των περιοχών AZF του Υ χρωμοσώματος και του πολυμορφισμού SNP G197T του γονιδίου της πρωταμίνης-1 σε υπογόνιμους άνδρες της Δυτικής Ελλάδας

Παπαδημητρίου, Σοφία

10 October 2008

Προβλήματα υπογονιμότητας αντιμετωπίζει το 15% των ζευγαριών, εκ των οποίων το 40%-50% οφείλεται στον ανδρικό παράγοντα. Περιπτώσεις ανδρικής υπογονιμότητας στις οποίες δεν ανευρίσκεται προφανής αιτιολογικός παράγων, αντιπροσωπεύουν το 15% των περιπτώσεων και αναφέρονται ως περιπτώσεις ιδιοπαθούς υπογονιμότητας. Παλαιότερες αλλά και πιο πρόσφατες πληθυσμιακές μελέτες ανέδειξαν γενετικούς παράγοντες ως υπεύθυνους για τον φαινότυπο ορισμένων περιστατικών ιδιοπαθούς υπογονιμότητας και επομένως η μελέτη του γενετικού υπόβαθρου των ανδρών αυτών μπορεί να συμβάλλει στην διερεύνηση του παθογενετικού μηχανισμού της υπογονιμότητας/στειρότητας που παρουσιάζουν. Ειδικότερα, έχει διαπιστωθεί ότι ελλείμματα στις AZF περιοχές του Υ χρωμοσώματος υπάρχουν σε ένα ποσοστό 2% - 11% των υπογόνιμων ανδρών αυτής της κατηγορίας. Επίσης, σε πολύ πρόσφατη μελέτη προσδιορίστηκε η παρουσία ενός απλού νουκλεοτιδικού πολυμορφισμού SNP G197T που εντοπίζεται στο τέλος του πρώτου εξονίου του γονιδίου της πρωταμίνης-1. Ο πολυμορφισμός αυτός οδηγεί σε αντικατάσταση μιας συντηρημένης αργινίνης από σερίνη στην αμινοξική αλληλουχία της πρωταμίνης-1 (R34S), με ενδεχόμενες συνέπειες στο πακετάρισμα και την ακεραιότητα του DNA στην κεφαλή του σπερματοζωαρίου, γεγονότα, που μπορεί να οδηγήσουν σε ιδιοπαθή υπογονιμότητα. Τα αποτελέσματά μας έδειξαν ότι μόνο 3 από τα 100 άτομα (3%) έφεραν ελλείμματα στο Y χρωμόσωμα, ειδικότερα ένα άτομο με ενδιάμεση ολιγοσπερμία έφερε ελλείμματα στις AZFa και AZFb περιοχές και δυο άτομα με αζωοσπερμία έφεραν ελλείμματα στην AZFc περιοχή. Παράλληλα, o πολυμορφισμός SNP G197T δεν ανευρεθεί σε κανένα δείγμα του εξεταζόμενου πληθυσμού. / Infertility affects 10%-20% of all couples attempting pregnancy, with men responsible in 40%-50% of these cases. Male infertility exhibits no obvious clinical or pathophysiological features in 15% of these cases and it is therefore characterized as idiopathic. Genetic studies have revealed deletions in the AZF regions of Y chromosome, which contain genes involved in spermatogenesis, in 2%-11% of men with idiopathic infertility. Recent studies, also correlate male idiopathic infertility with the presence of an heterozygous SNP (G197T ) at the end of the first exon of protamine-1 (PRM1) gene. This SNP converts one of the highly conserved arginine residue to serine residue (R34S) which can substantially alter both DNA binding and protamine to protamine interaction in the sperm nucleus leading to infertility through defective chromatin packaging in the sperm nucleus. The purpose of this study was to evaluate the frequency of deletions in the AZF regions of Υ chromosome and the contribution of the polymorphism SNP G197T in a local sample of 100 men attending the Urology Clinic of the Patras University Hospital for infertility problems of unknown aetiology. Our results revealed that three of our patients (3%) were found to bear deletions in the AZF regions of the Y chromosome, one patient with intermediate oligospermia had deletions in AZFa and AZFb regions and two patients with azoospermia had deletion in AZFc region. On the other hand, the polymorphism SNP G197T has no distribution to the idiopathic infertility of the population studied.

Υ χρωμόσωμα

Πρωταμίνη 1

616.692 1

Male infertility

Y chromosome

Protamine 1 gene

Single Nucleotide Polymorphism (SNP)

Zur Expression und Funktion von Prm3: ein ungewöhnliches Protamin / The Expression and Function of Prm3: an unusual Protamin

Boinska, Dagmara

30 October 2002

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Spermatogenese

Protamine

Transgene Mäuse

Tet-System

Knock-out

spermatogenesis

protamins

transgenic mice

Tet-system

knockout

42.13

42.15

42.20

WF

WH

WJ

Design & Fabrication of Bio-responsive Drug Carriers Based on Protamine & Chondroitin Sulphate Biopolymers

Radhakrishnan, Krishna

January 2014

The present thesis focuses on the fabrication of bio-stimuli responsive micro- and nano-carriers for drug delivery applications. In particular, the objective of this work is to investigate the possibility of using polypeptide drug protamine and glycosaminoglycan drug, chondroitin sulphate as stimuli responsive components in the design of bioresponsive carriers. These biopolymers are biocompatible, biodegradable and clinically used for various applications. Two designs that incorporate these stimuli responsive components have been studied in this thesis. The first design involves hollow micro and nanocapsules that have been fabricated by incorporating the stimuli responsive biopolymers as wall components. Upon exposure to biological triggers, these hollow capsules disintegrate releasing the encapsulated drug. The second design consists of mesoporous silica nanoparticles-biopolymer hybrids. The mesoporous silica nanoparticles act as a gated scaffold that carries the drug molecules. The mesopores of these drug loaded nanoparticles are then blocked with the bioresponsive polymers. Upon exposure to the bio-triggers which consist of enzymes over-expressed in conditions such as cancer and inflammation, these “molecular gates” disintegrate allowing the drug trapped in the mesoporous silica nanoparticles to escape into the surroundings. The thesis has been divided into five chapters: Chapter 1 is an introduction to bio-responsive drug delivery. The broad classification of stimuli used in responsive drug delivery systems are visited. A brief discussion on the various types of bio-stimuli that can be utilized in designing bio-responsive systems is also included in this chapter. Chapter 2 defines the aims and scope of the thesis which is followed by an overview of the various design parameters involved in the fabrication of systems presented in this work. The major stimuli responsive components and the architectures incorporating these elements are discussed in detail here. A literature review of the various carrier designs involved in the study is provided , with special emphasis on stimuli responsive drug delivery. Chapter 3 gives an overview of the various materials and methods involved in this work. A summary of the various characterisation techniques used in the thesis is also included along with the details of the experiments that has been carried out. Chapter 4 provides an overview of the results and discussions of the thesis. The chapter has been divided into six sections: Chapter 4.1 deals with the fabrication of a hollow microcapsule system incorporated with protamine as the stimuli responsive element for bio-responsive drug delivery. The hollow microcapsules that were fabricated by Layer by Layer assembly of protamine and heparin display pH responsive variations in permeability and disintegrate in the presence of the enzyme trypsin that degrades protamine. The biologically triggered enzyme responsive drug release from these microcapsules is also demonstrated using enzymes secreted by colorectal cancer cells. Chapter 4.2 presents nanocapsules fabricated from protamine and heparin. The pH and enzyme responsive drug release of this systems is evaluated in vitro. A wall crosslinking strategy has been tested to control the rate of drug release under physiological pH conditions in the absence of the trigger. The cellular interactions of these nanocapsules loaded with an anticancer drug, doxorubicin was studied using cancer cell lines. Bioavailability studies of doxorubicin encapsulated in these nanocapsules were performed using a BALB/c mice model. Chapter 4.3 discusses the fabrication of a hollow microcapsule system that can disintegrate in response to dual biological stimuli. These carriers have been fabricated by incorporating protamine and chondroitin sulphate as the wall components. Due to the incorporation of two separate stimuli responsive components in the walls, these capsules are expected to be sensitive to the enzymes trypsin or hyaluronidase I. Chapter 4.4 deals with the fabrication of dual enzyme responsive hollow nanocapsule which can be targeted to deliver anticancer agents specifically inside cancer cells. The enzyme responsive elements integrated in the hollow nanocapsule walls can undergo degradation in presence of either of the enzymes trypsin or hyaluronidase I leading to the release of encapsulated drug molecules. The drug release from these nanocapsules which were crosslinked and functionalised with folic acid, is evaluated under varying conditions. The cellular uptake and intracellular drug delivery by these nanocapsules were evaluated in cervical cancer cell lines. Chapter 4.5 introduces a mesoporous silica nanoparticle − protamine hybrid system. The system consists of a mesoporous silica nanoparticle support whose mesopores are capped with protamine which effectively blocks the outward diffusion of the drug molecules from the mesopores of the mesoporous silica nanoparticles. Upon exposure to the enzyme trigger, the protamine cap disintegrates opening up the molecular gates and releasing the entrapped drug molecules. The drug release from this system is evaluated in different release conditions in the presence and absence of the enzyme trigger. The ability of these particles to deliver hydrophobic anticancer drugs and induce cell death in colorectal cancer cells has also been demonstrated. Chapter 4.6 discusses the fabrication of another mesoporous silica nanoparticles based bio-responsive drug delivery system consisting of mesoporous silica and chondroitin sulphate hybrid nanoparticles. The ability of the system to modulate drug release in response to hyaluronidase I is demonstrated. By utilizing a cervical cancer cell line, we have demonstrated the cellular uptake and intracellular delivery of hydrophobic drugs encapsulated in these particles. Interestingly, the system showed ability to enhance the anticancer activity of hydrophobic drug curcumin in these cancer cells. Chapter 5 gives a summary of the general conclusions drawn from the thesis work.

Bio-responsive Drug Delivery

Chondroitin Sulphate Biopolymers

Bio-responsive Drug Carriers

Protamine Sulphate Biopolymers

Protamine/Heparin Micro/Nano Capsules

Microcapsules

Nanocapsules

Bio Stimuli Responsive Biopolymers

Nano Drug Carriers

Biomaterials

Micro Drug Carriers

Nano-drug Delivery Systems

Materials Science

Engineered Tracking and Delivery of Mesenchymal Stem Cells (MSCs)

Lin, Paul

08 March 2013

No description available.

Biology

Biomedical Engineering

Medicine

MSC

mesenchymal stem cells

transduction

lentivrius

homing

targeting

intraarterial

irradiation injury

polybrene

protamine sulfate

BLI, bioluminescent imaging

stem cells

cell engraftment

cell delivery

aortic arch

reporter gene

Methodenvergleich zur Erfassung einer Restheparinisierung nach kardiochirurgischen Eingriffen mit Herz-Lungen-Maschine / Residual heparinization after cardiopulmonary bypass – A prospective comparison of methods

Hillmann, Nadine

14 December 2016

No description available.

610

Postoperative bleeding

cardiac surgery

residual heparinization

pump blood

extracorporeal circulation

antifactor-Xa-activity

thrombelastometry (ROTEM®)

the activated clotting time (ACT)

protamine titration (Hepcon®)

Clotting Time (CT) HEPTEM

Clotting Time (CT) INTEM

Medizin (PPN619874732)

Chondroitin-based nanoplexes as peptide delivery systems-Investigations into the self-assembly process, solid-state and extended release characteristics

Umerska, A., Paluch, Krzysztof J., Santos-Martinez, M.J., Medina, C., Corrigan, O.I., Tajber, L.

20 April 2015

Yes / A new type of self-assembled polyelectrolyte complex nanocarrier composed of chondroitin (CHON) and protamine (PROT) was designed and the ability of the carriers to bind salmon calcitonin (sCT) was examined. The response of sCT-loaded CHON/PROT NPs to a change in the properties of the liquid medium, e.g. its pH, composition or ionic strength was studied and in vitro peptide release was assessed. The biocompatibility of the NPs was evaluated in Caco-2 cells. CHON/PROT NPs were successfully obtained with properties that were dependent on the concentration of the polyelectrolytes and their mixing ratio. X-ray diffraction determined the amorphous nature of the negatively charged NPs, while those with the positive surface potential were semi-crystalline. sCT was efficiently associated with the nanocarriers (98-100%) and a notably high drug loading (13-38%) was achieved. The particles had negative zeta potential values and were homogenously dispersed with sizes between 60 and 250 nm. CHON/PROT NPs released less than 10% of the total loaded peptide in the first hour of the in vitro release studies. The enthalpy of the decomposition exotherm correlated with the amount of sCT remaining in NPs after the release experiments. The composition of medium and its ionic strength was found to have a considerable influence on the release of sCT from CHON/PROT NPs. Complexation to CHON markedly reduced the toxic effects exerted by PROT and the NPs were compatible and well tolerated by Caco-2 cells.