Alpha-Synuclein: Insight into the Hallmark of Parkinson's Disease as a Target for Quantitative Molecular Diagnostics and Therapeutics

Evangelista, Baggio A

01 January 2017

Parkinson’s disease (PD) is the second-most common neurodegenerative disease after Alzheimer’s disease. With 500,000 individuals currently living with Parkinson’s and nearly 60,000 new cases diagnosed each year, this disease causes significant financial burden on the healthcare system - amassing to annual expenditures totaling 200 billion dollars; predicted to increase through 2050. The disease phenotype is characterized by a combination of a resting tremor, bradykinesia, muscular rigidity, and depression due to dopaminergic neuronal death in the midbrain. The cause of the neurotoxicity has been largely discussed, with strong evidence suggesting that the protein, alpha-Synuclein, is a key factor. Under native conditions, alpha-Synuclein can be found localized at synaptic terminals where it is hypothesized to be involved in vesicle trafficking and recycling. However, its biochemical profile reveals a hydrophobic region that, once subjected to insult, initiates an aggregation cascade. Oligomeric species—products of the aggregation cascade—demonstrate marked neurotoxicity in dopaminergic neurons and illustrate migratory potential to neighboring healthy neurons, thereby contributing to progressive neurodegeneration. The current golden standard for PD diagnostics is a highly qualitative system involving a process-by-elimination with accuracy that is contingent upon physician experience. This, and a lack of standardized clinical testing procedures, lends to a 25% misdiagnosis rate. Even under circumstances of an accurate PD diagnosis, the only treatment options are pharmacologics that have a wide range of adverse side effects and ultimately contribute to systemic metabolic dysfunction. Thus, the research presented in this thesis seeks to overcome these current challenges by providing (1) a quantitative diagnostic platform and (2) a biomolecular therapeutic, towards oligomeric alpha-Synuclein. Aim 1: serves as a proof-of-concept for the use of catalytic nucleic acid moieties, deoxyribozymes and aptamers, to quantify alpha-Synuclein in a novel manner and explore the ability to detect oligomeric cytotoxic species. The cost-effective nature of these sensors allows for continued optimization. Aim 2: serves to establish a potential therapy that can abrogate alpha-synuclein oligomerization and toxicity through use of a modified Protein Disulfide Isomerase (PDI) peptide when introduced to live cells treated to simulate pre-parkinsonian pathology.

Parkinson's Disease

Alpha-Synuclein

Aptamers

Deoxyribozymes

Protein Disulfide Isomerase

Biochemistry

Cell Biology

Molecular and Cellular Neuroscience

Molecular Biology

Investigation of the Formation of some Biologically Relevant Small Molecules Using Laser Tweezers and Capillary Electrophoresis

Yangyuoru, Philip

31 July 2014

No description available.

Analytical Chemistry

Biochemistry

Molecular Biology

Biophysics

DNA aptamers

G-quadruplexes

mechanical stability

force-based assays

single molecules

laser tweezers

capillary electrophoresis

Selection of multivalent DNA-based binders for norovirus / Selektion av multivalenta DNA-baserade bindare till norovirus

Dahl, Julia

January 2024

Aptamerer är nukleinsyra-baserade molekyler som binder specifikt till en målstruktur. Aptamerer har flera fördelar över antikroppar, så som snabb och billig framtagning och produktion. Multimera aptamer-baserade strukturer har visats ge bättre resultat än monomera aptamerer, men framtagningen av sådana strukturer är tidskrävande och icke-skalbar. Denna studie utforskar generering och selektion av multimera aptamer-baserade strukturer genom slumpmässig ligering och in vitro-evolution, med virusliknande partiklar av norovirus GII.2 och GII.4 som målstruktur. Optimering av ligeringsförhållanden visade att en större andel aptamerer, flerarmade fragment, och linjära fragment resulterade i störst diversitet i den ursprungliga strukturblandingen. Selektionsexperiment uppvisade kraftig positiv selektion för strukturer innehållande aptameren Buf-2, vilket indikerar att den har hög affinitet för båda genotyper. Aptameren SMV21 uppvisade också positiv selektion för båda genotyper. Studien finner också positiv selektion av multimera aptamer-baserade strukturer, vilket bekräftar att de binder starkare till sin målstruktur. Potentiella sekvenser med hög affinitet togs fram genom att generera konsensus-sekvenser från sekvenseringsdatan av de selekterade strukturerna. SPR användes för att mäta affiniteten av de selekterade strukturerna till norovirus, men på grund av ospecifik binding kunde inga slutsatser dras. / Aptamers are nucleic acid-based targeted binders that hold advantages over antibodies, such as cheap and fast development and production. Multimeric aptamer-based structures have shown improved performance compared to monomeric aptamers, but the development of such structures is time-consuming and unscalable. This study explores the generation and selection of multimeric aptamer-based structures through random ligation and in vitro evolution, targeting norovirus GII.2 and GII.4. Optimization of ligation conditions was performed, revealing that a bigger proportion of aptamers, multi-armed fragments, and linear fragments ensures a diverse initial structure pool. Selection experiments demonstrated a strong positive selection for structures containing the Buf-2 aptamer, indicating its high affinity for both norovirus genotypes. The SMV21 aptamer also showed positive selection for both genotypes. The study further found that multimeric aptamer-based structures experience positive selection, confirming their stronger binding to the desired target. Potential strong-binding sequences were obtained by generating consensus sequences from sequencing data of the selected strong binders. SPR was employed to determine the affinity of the selected binders to the norovirus, but the results were inconclusive due to unspecific binding.

Aptamers

Multimeric aptamers

Avidity

Norovirus

in vitro evolution

Aptamerer

Multimera aptamerer

Aviditet

Norovirus

in vitro-evolution

Análise dos receptores P2X2 e P2X4 durante a diferenciação neuronal / Analysis of P2X2 e P2X4 receptors during neuronal differentiation

Majumder, Paromita

23 March 2007

Durante o desenvolvimento do sistema nervoso, as oscilações da concentração de cálcio intracelular livre resultam na proliferação celular, migração e diferenciação neuronal. Nesta tese foram investigadas a participação dos receptores ionotrópicos purinérgicos dos tipos P2X2 e P2X4 seletivos ao influxo de cálcio durante a diferenciação neuronal in vitro das células de carcinoma embrionário murino P19. Identificamos o padrão diferencial de expressão de receptores purinérgicos nas células indiferenciadas e neurônios P19. O receptor P2X4 é expresso durante toda a diferenciação neuronal e o receptor P2X2 é detectado na fase tardia da diferenciação em neurônios. Através de ensaios farmacológicos, foi possível identificar a participação dos receptores metabotropicos P2Y e do receptor P2X4 na formação dos corpos embriônicos, na proliferação celular e ou na determinação do fenótipo de progenitor neural. Durante a maturação neuronal os receptores P2X2 e P2Y1 participam da determinação do fenótipo neuronal glutamatérgico NMDA e os receptores P2X2 e P2Y2 no fenótipo neuronal colinérgico. A ausência de inibidores específicos e seletivos aos receptores purinérgicos levou-nos a empregar a técnica SELEX (Systematic Evolution of Ligands by EXponential enrichment) a fim de identificar inibidores seletivos aos receptores P2X2 e P2X4. A técnica envolve a utilização da biblioteca combinatória randômica de RNA 2\'- F pirimidina modificadas resistentes a nucleases. Após 9 ciclos de seleção in vitro de SELEX (ciclo 9-P2X4), as sequências selecionadas mostraram-se seletivas a ligação somente ao receptor P2X4 e não aos receptores P2X2 ou P2X7 através de ensaios de ligação radioligante-receptor. Por patch clamping na configuração whole cell recording identificou-se que além de seletividade ao receptor, que a aplicação do RNA ciclo 9- P2X4 promoveu inibição da corrente ativada pelo ATP somente nos receptores P2X4 e não em P2X2 em celulas 1321N1 astrocitoma transfectadas. A incubação do RNA ciclo 9-P2X4 na concentração de 200 nM com as células no estágio indiferenciado inibiu a formação dos corpos embriônicos. Já utilização de 25 nM, resultou em mudanças morfológicas nas células diferenciadas. Estes dados corroboram com os dados farmacológicos que identificaram a participação do receptor P2X4 na diferenciação precoce. Após 11 ciclos P2X2 de seleção, identificou-se sequências com especificidade de ligação aos receptores P2X2. Aptâmeros, moleculas de RNA com sequência identificada e com alta afinidade ao alvo da seleção, foram isolados de ambas as bibliotecas, ciclo 9 P2X4 e ciclo 11 P2X2. A co-aplicação destes aptâmeros e ATP em ensaios de whole-cell recording resultou na inibição de 30 a 80% da corrente ativada pelo ATP nos receptores P2X2 ou P2X4. Estes testes em células PC12 de rato, que expressa os receptores endógenos, resultou em inibição da corrente ativada pelo ATP de modo semelhante. Além de termos desenvolvido aptâmeros como ferramentas para elucidar as funções dos receptores P2X2 e P2X4 durante o desenvolvimento, diferenciação, em processos fisiológicos e patológicos, estas moléculas resistentes a nucleases são as primeiras identificadas capazes de reconhecer, discernir e inibir dois subtipos de receptores purinérgicos sendo promissores para utilização terapêutica. / During the development of the nervous system, oscillations of intracellular calcium concentrations activate programs of gene expression resulting in proliferation, migration and neuronal differentiation of embryonic cells. In this thesis, the participation of ionotropic P2X2 and P2X4 receptor subtypes, whose receptor channels are highly permeable for calcium influx in the cells, was studied during the process of neuronal differentiation. We have identified differential gene expression of purinergic receptors in undifferentiated and neuronal-differentiated P19 cells. P2X4 receptor expression was present along neuronal differentiation of P19 cells, whereas P2X2 receptor expression was only detected when P19 cells became neurons. Based on purinergic receptor pharmacology we have determined the participation of P2X4 receptors in addition to metabotropic P2Y2 receptors in the formation of embryonic bodies as prerequisites for phenotype determination of P19 neural progenitor cells. Final neuronal maturation of P19 cells in the presence or absence of agonists or antagonists of purinergic receptors implicated the involvement of P2X2, P2Y1, and P2Y2 in the determination of the final neuronal phenotype, such as expression of NMDA-glutamate and cholinergic receptors. In order to further evaluate the functions of these P2X receptors and due to the absence of specific inhibitors for these receptor subtypes, we have used the SELEX technique (Systematic Evolution of Ligands by EXponential enrichment) to select for specific inhibitors for P2X2 and P2X4 receptors. The 2\' -F-pyrimidine modified, nuclease- resistant combinatorial SELEX RNA pool enriched with inhibitors of P2X4 receptors following nine cycles of in vitro selection (cycle 9-P2X4) specifically interacted with P2X4 receptors and not with P2X2 or P2X7 receptors as verified in radioligand-receptor binding studies. Moreover, whole-cell recording measurements using astrocytoma cells expressing recombinant rat P2X2 or P2X4 receptors showed inhibition of P2X4 but not of P2X2 receptors by the selected RNA molecules. RNA molecules selected in vitro in 11 reiterative SELEX cycles using the P2X2 receptor as target specifically bound to membrane extracts containing recombinant P2X2 receptors. From both selected RNA libraries (against P2X4 and P2X2 receptors) aptamers, as RNA molecules with identified sequences and high-affinity binding, were identified by cloning and DNA sequencing. The presence of these aptamers in whole-cell recording experiments resulted in 30-80% inhibition of ATP-induced receptor activity and did not provoke any inhibitory effects on P2X receptors which had not been used as selection target. The activity of the aptamers selected using recombinant receptors as targets in inhibiting wild-type P2X4 or P2X2 receptors was verified in whole-cell recording experiments with PC12 cells which endogenously express both receptor subtypes. In addition of having developed aptamers as tools to elucidate P2X2 and P2X4 receptor functions during neuronal differentiation, these nuclease-resistant aptamers are suitable for in vivo use and may turn into therapeutics in the inhibition of purinergic receptor participation in pathophysiological conditions.

Aptameros

Aptamers

Carcinoma embrionário murino P19

Cinética

Diferenciação neuronal

Ionotropic receptor

Neuronal differentiation

P19 embryonal carcinoma cells

P2X

P2X

Purinergic receptors

Receptores ionotrópicos

Receptores purinérgicos

SELEX

SELEX

Stimulus-responsive delivery systems for enabling the oral delivery of protein therapeutics exhibiting high isoelectric point

Koetting, Michael Clinton

01 September 2015

Protein therapeutics offer numerous advantages over small molecule drugs and are rapidly becoming one of the most prominent classes of therapeutics. Unfortunately, they are delivered almost exclusively by injection due to biological obstacles preventing high bioavailability via the oral route. In this work, numerous approaches to overcoming these barriers are explored. PH-Responsive poly(itaconic acid-co-N-vinylpyrrolidone) (P(IA-co-NVP)) hydrogels were synthesized, and the effects of monomer ratios, crosslinking density, microparticle size, protein size, and loading conditions were systematically evaluated using in vitro tests. P(IA-co-NVP) hydrogels demonstrated up to 69% greater equilibrium swelling at neutral conditions than previously-studied poly(methacrylic acid-co-N-vinylpyrrolidone) hydrogels and a 10-fold improvement in time-sensitive swelling experiments. Furthermore, P(IA-co-NVP) hydrogel microparticles demonstrated up to a 2.7-fold improvement in delivery of salmon calcitonin (sCT) compared to methacrylic acid-based systems, with a formulation comprised of a 1:2 ratio of itaconic acid to N-vinylpyrrolidone demonstrating the greatest delivery capability. Vast improvement in delivery capability was achieved using reduced ionic strength conditions during drug loading. Use of a 1.50 mM PBS buffer during loading yielded an 83-fold improvement in delivery of sCT compared to a standard 150 mM buffer. With this improvement, a daily dose of sCT could be provided using P(IA-co-NVP) microparticles in one standard-sized gel capsule. P(IA-co-NVP) was also tested with larger proteins urokinase and Rituxan. Crosslinking density provided a facile method for tuning hydrogels to accommodate a wide range of protein sizes. The effects of protein PEGylation were also explored. PEGylated sCT displayed lower release from P(IA-co-NVP) microparticles, but displayed increased apparent permeability across a Caco-2 monolayer by two orders of magnitude. Therefore, PEG-containing systems could yield high bioavailability of orally delivered proteins. Finally, a modified SELEX protocol for cellular selection of transcellular transport-initiating aptamers was developed and used to identify aptamer sequences showing enhanced intestinal perfusion. Over three selection cycles, the selected aptamer library showed significant increases in absorption, and from an initial library of 1.1 trillion sequences, 5-10 sequences were selected that demonstrated up to 10-fold amplification compared to the naïve library. These sequences could provide a means of overcoming the significant final barrier of intestinal absorption. / text

Hydrogels

Protein therapeutics

Protein therapy

Drug delivery

Oral delivery

Aptamers

PH-responsive

Stimulus-responsive

Ionic strength

Isoelectric point

PEGylation

Conjugation

Bioconjugation

Intestinal absorption

Intestinal transport

Itaconic acid

N-vinylpyrrolidone

Methacrylic acid

Mesh size

Crosslinking density

SELEX

In vivo

Closed-loop

Análise dos receptores P2X2 e P2X4 durante a diferenciação neuronal / Analysis of P2X2 e P2X4 receptors during neuronal differentiation

Paromita Majumder

23 March 2007

Durante o desenvolvimento do sistema nervoso, as oscilações da concentração de cálcio intracelular livre resultam na proliferação celular, migração e diferenciação neuronal. Nesta tese foram investigadas a participação dos receptores ionotrópicos purinérgicos dos tipos P2X2 e P2X4 seletivos ao influxo de cálcio durante a diferenciação neuronal in vitro das células de carcinoma embrionário murino P19. Identificamos o padrão diferencial de expressão de receptores purinérgicos nas células indiferenciadas e neurônios P19. O receptor P2X4 é expresso durante toda a diferenciação neuronal e o receptor P2X2 é detectado na fase tardia da diferenciação em neurônios. Através de ensaios farmacológicos, foi possível identificar a participação dos receptores metabotropicos P2Y e do receptor P2X4 na formação dos corpos embriônicos, na proliferação celular e ou na determinação do fenótipo de progenitor neural. Durante a maturação neuronal os receptores P2X2 e P2Y1 participam da determinação do fenótipo neuronal glutamatérgico NMDA e os receptores P2X2 e P2Y2 no fenótipo neuronal colinérgico. A ausência de inibidores específicos e seletivos aos receptores purinérgicos levou-nos a empregar a técnica SELEX (Systematic Evolution of Ligands by EXponential enrichment) a fim de identificar inibidores seletivos aos receptores P2X2 e P2X4. A técnica envolve a utilização da biblioteca combinatória randômica de RNA 2\'- F pirimidina modificadas resistentes a nucleases. Após 9 ciclos de seleção in vitro de SELEX (ciclo 9-P2X4), as sequências selecionadas mostraram-se seletivas a ligação somente ao receptor P2X4 e não aos receptores P2X2 ou P2X7 através de ensaios de ligação radioligante-receptor. Por patch clamping na configuração whole cell recording identificou-se que além de seletividade ao receptor, que a aplicação do RNA ciclo 9- P2X4 promoveu inibição da corrente ativada pelo ATP somente nos receptores P2X4 e não em P2X2 em celulas 1321N1 astrocitoma transfectadas. A incubação do RNA ciclo 9-P2X4 na concentração de 200 nM com as células no estágio indiferenciado inibiu a formação dos corpos embriônicos. Já utilização de 25 nM, resultou em mudanças morfológicas nas células diferenciadas. Estes dados corroboram com os dados farmacológicos que identificaram a participação do receptor P2X4 na diferenciação precoce. Após 11 ciclos P2X2 de seleção, identificou-se sequências com especificidade de ligação aos receptores P2X2. Aptâmeros, moleculas de RNA com sequência identificada e com alta afinidade ao alvo da seleção, foram isolados de ambas as bibliotecas, ciclo 9 P2X4 e ciclo 11 P2X2. A co-aplicação destes aptâmeros e ATP em ensaios de whole-cell recording resultou na inibição de 30 a 80% da corrente ativada pelo ATP nos receptores P2X2 ou P2X4. Estes testes em células PC12 de rato, que expressa os receptores endógenos, resultou em inibição da corrente ativada pelo ATP de modo semelhante. Além de termos desenvolvido aptâmeros como ferramentas para elucidar as funções dos receptores P2X2 e P2X4 durante o desenvolvimento, diferenciação, em processos fisiológicos e patológicos, estas moléculas resistentes a nucleases são as primeiras identificadas capazes de reconhecer, discernir e inibir dois subtipos de receptores purinérgicos sendo promissores para utilização terapêutica. / During the development of the nervous system, oscillations of intracellular calcium concentrations activate programs of gene expression resulting in proliferation, migration and neuronal differentiation of embryonic cells. In this thesis, the participation of ionotropic P2X2 and P2X4 receptor subtypes, whose receptor channels are highly permeable for calcium influx in the cells, was studied during the process of neuronal differentiation. We have identified differential gene expression of purinergic receptors in undifferentiated and neuronal-differentiated P19 cells. P2X4 receptor expression was present along neuronal differentiation of P19 cells, whereas P2X2 receptor expression was only detected when P19 cells became neurons. Based on purinergic receptor pharmacology we have determined the participation of P2X4 receptors in addition to metabotropic P2Y2 receptors in the formation of embryonic bodies as prerequisites for phenotype determination of P19 neural progenitor cells. Final neuronal maturation of P19 cells in the presence or absence of agonists or antagonists of purinergic receptors implicated the involvement of P2X2, P2Y1, and P2Y2 in the determination of the final neuronal phenotype, such as expression of NMDA-glutamate and cholinergic receptors. In order to further evaluate the functions of these P2X receptors and due to the absence of specific inhibitors for these receptor subtypes, we have used the SELEX technique (Systematic Evolution of Ligands by EXponential enrichment) to select for specific inhibitors for P2X2 and P2X4 receptors. The 2\' -F-pyrimidine modified, nuclease- resistant combinatorial SELEX RNA pool enriched with inhibitors of P2X4 receptors following nine cycles of in vitro selection (cycle 9-P2X4) specifically interacted with P2X4 receptors and not with P2X2 or P2X7 receptors as verified in radioligand-receptor binding studies. Moreover, whole-cell recording measurements using astrocytoma cells expressing recombinant rat P2X2 or P2X4 receptors showed inhibition of P2X4 but not of P2X2 receptors by the selected RNA molecules. RNA molecules selected in vitro in 11 reiterative SELEX cycles using the P2X2 receptor as target specifically bound to membrane extracts containing recombinant P2X2 receptors. From both selected RNA libraries (against P2X4 and P2X2 receptors) aptamers, as RNA molecules with identified sequences and high-affinity binding, were identified by cloning and DNA sequencing. The presence of these aptamers in whole-cell recording experiments resulted in 30-80% inhibition of ATP-induced receptor activity and did not provoke any inhibitory effects on P2X receptors which had not been used as selection target. The activity of the aptamers selected using recombinant receptors as targets in inhibiting wild-type P2X4 or P2X2 receptors was verified in whole-cell recording experiments with PC12 cells which endogenously express both receptor subtypes. In addition of having developed aptamers as tools to elucidate P2X2 and P2X4 receptor functions during neuronal differentiation, these nuclease-resistant aptamers are suitable for in vivo use and may turn into therapeutics in the inhibition of purinergic receptor participation in pathophysiological conditions.

Aptameros

Carcinoma embrionário murino P19

Cinética

Diferenciação neuronal

P2X

Receptores ionotrópicos

Receptores purinérgicos

SELEX

Aptamers

Ionotropic receptor

Neuronal differentiation

P19 embryonal carcinoma cells

P2X

Purinergic receptors

SELEX

New nanostructured supports with signal amplification features for the detection of molecules and biomolecules of interest

Pla Blasco, Luis

17 May 2021

[ES] La presente tesis doctoral titulada "New nanostructured suports with signal amplification features for the detection of molecules and biomolecules of interest" se centra en el diseño y preparación de nuevos materiales híbridos orgánicos-inorgánicos constituidos por puertas moleculares soportadas sobre alúmina mesoporosa con el objetivo de desarrollar nuevos sistemas sensores con aplicaciones potenciales en el campo de la diagnosis y del control alimentario. En el primer capítulo de la tesis se introducen los conceptos en los que están basados los estudios realizados y los materiales preparados. A continuación, en el segundo capítulo se describen los objetivos generales de la tesis que serán abordados en los siguientes apartados. En el tercer capítulo se presenta el diseño y optimización de un nanodispositivo para la detección de la bacteria Mycoplasma fermentans. En primer lugar, los poros de una placa de alúmina mesoporosa se cargan con un indicador fluorescente (rodamina B). Seguidamente, la superficie es funcionalizada con una secuencia de ADN complementaria a una región altamente conservada de la subunidad ribosomal 16S de la bacteria Mycoplasma fermentans. El impedimento estérico generado por las secuencias de ADN ancladas al exterior de los poros impide la salida del indicador encapsulado. Únicamente en presencia de DNA de la bacteria Mycoplasma fermentans, se produce la apertura de los poros permitiéndose la difusión de la carga (rodamina B) que es posteriormente medida mediante espectroscopía de fluorescencia. En el capítulo cuatro se diseña de un nanodispositivo capaz de detectar de forma rápida, sensible y selectiva la bacteria Staphylococcus aureus. Para la preparación del material sensor, un soporte de alúmina mesoporosa es, en primer lugar, cargado con el indicador fluorescente rodamina B. A continuación, los poros del soporte son tapados mediante el anclaje de un aptámero que reconoce de forma específica la bacteria. Solamente en presencia de Staphylococcus aureus se produce la liberación del indicador encapsulado, que es posteriormente medido mediante espectroscopía de fluorescencia. Además, la respuesta obtenida es específica para Staphylococcus aureus. Este sistema ha sido ensayado en muestras reales. En el sexto capítulo, diseña un nanodispositivo híbrido orgánico-inorgánico consistente en un material de alúmina mesoporosa cubierto con una secuencia de ADN específica para la detección de ADN del hongo Pneumocystis jirovecii. En este caso, el soporte de alúmina cargado con rodamina B se recubre con una secuencia de ADN específica para el reconocimiento de este hongo. En presencia del organismo, la horquilla hibrida con el ADN del hongo, lo que resulta en una conformación triplex con elevada afinidad y estabilidad que induce, al mismo tiempo, el desplazamiento de este complejo de la superficie. Como consecuencia de este reconocimiento la carga se libera y es cuantificada mediante espectroscopía de fluorescencia. El sistema ha sido satisfactoriamente validado. En el séptimo capítulo, se diseña un sistema sensor con la capacidad de detectar gluten de forma rápida y sencilla en extractos de alimentos procesados y no procesados. Para ello, un soporte de alúmina mesoporosa se carga con rodamina B y los poros se recubren con un aptámero específicamente diseñado para la detección de la proteína gliadina, que constituye el 50 % del total del clúster de elementos que forman el gluten. La elevada afinidad y especificidad entre el aptámero y la proteína en cuestión hacen que en presencia de ésta se produzca un desplazamiento de la puerta molecular que permite la difusión del colorante encapsulado que es finalmente monitorizado mediante espectroscopía de fluorescencia. Finalmente, en el capítulo octavo se discuten de forma conjunta los resultados obtenidos en los capítulos anteriores y la potencial aplicación de los sistemas desarrollados en el actual sistem / [CA] La present tesi doctoral, titulada "New nanostructured supports with signal amplification features for the detection of molecules and biomolecules of interest", es centra en el disseny i preparació de nous materials híbrids orgànics-inorgànics constituïts per portes moleculars suportades sobre alúmina mesoporosa amb l'objectiu de desenvolupar nous sistemes sensors amb potencials aplicacions en el camp de la diagnosi i del control alimentari. En el primer capítol de la tesi s'introdueixen els conceptes en què estan basats els estudis realitzats i els materials preparats. A continuació, en el segon capítol es descriuen els objectius generals de la tesi que seran abordats en els següents apartats. En el tercer capítol es presenta el disseny i optimització d'un nanodispositiu per a la detecció de la bactèria Mycoplasma fermentans. Primerament, els porus d'una placa d'alúmina mesoporosa són carregats amb un indicador fluorescent (rodamina B). Seguidament, la superfície és funcionalitzada amb una seqüència d'ADN complementaria a una regió altament conservada de la subunitat ribosomal 16S de la bactèria Mycoplasma fermentans. L'impediment estèric generat per les seqüències d'ADN ancorades a l'exterior dels porus impedeix l'alliberament de l'indicador encapsulat. Únicament en presencia d'ADN de la bactèria Mycoplasma fermentans, es produeix l'obertura dels porus permetent la difusió de la càrrega (rodamina B) que és posteriorment mesurada mitjançant fluorescència. En el capítol quatre es dissenya un nanodispositiu capaç de detectar de forma ràpida, sensible i selectiva la bactèria Staphylococcus aureus. Per a la preparació del material sensor, el suport d'alúmina mesoporosa és, primerament, carregat amb l'indicador fluorescent rodamina B. A continuació, els porus del suport són tapats mitjançant l'ancoratge d'un aptàmer que reconeix de forma específica a la bactèria. Solament en presència de Staphylococcus aureus es produeix l'alliberament de l'indicador encapsulat, que és posteriorment mesurat mitjançant espectroscòpia de fluorescència. A més a més, la resposta obtinguda és específica per Staphylococcus aureus. Aquest sistema ha sigut validat amb mostres reals de pacients. En el sisè capítol, es dissenya un nanodispositiu híbrid orgànic-inorgànic consistent en un material d'alúmina mesoporosa cobert amb una seqüència d'ADN específica per a la detecció de l'ADN del fong Pneumocystis jirovecii. En aquest cas, el suport d'alúmina carregat amb l'indicador fluorescent rodamina B és recobert amb una seqüència d'ADN específica per al reconeixement d'aquest fong. En presència de l'organisme, la forquilla hibrida amb l'ADN del fong, resultant en una conformació triplex amb elevada afinitat i estabilitat, que indueix, al mateix temps, el desplaçament d'aquest complex de la superfície. Com a conseqüència d'aquest reconeixement la càrrega és alliberada i quantificada mitjançant espectroscòpia de fluorescència. El sistema ha sigut validat com a mètode diagnòstic mitjançant l'anàlisi de mostres reals de pacients. En el seté capítol, es dissenya un sistema sensor amb la capacitat de detectar gluten de forma ràpida i senzilla en extractes d'aliments processats i no processats. Per a això, un suport d'alúmina mesoporosa es carrega amb indicador fluorescent rodamina B i posteriorment és recobert amb un aptàmer específicament dissenyat per a la detecció de la proteïna gliadina, que constitueix el 50 % del total del clúster d'elements que formen el gluten. L'elevada afinitat i especificitat entre l'aptàmer i la proteïna en qüestió fa que en presència d'aquesta es produesca un desplaçament de la porta molecular que permet la difusió de la càrrega encapsulada i que serà finalment monitoritzada mitjançant espectroscòpia de fluorescència. Finalment, en el capítol vuité es discuteixen de manera conjunta els result / [EN] The PhD thesis hereby presented and entitled "New nanostructured supports with signal amplification features for the detection of molecules and biomolecules of interest", focuses in the design and preparation of new hybrid organic-inorganic materials constituted by molecular gates supported over mesoporous alumina with the aim of developing new sensor probes of potential applications in the fields of diagnosis and food control. In the first chapter, the concepts in which studies and prepared materials are based, are introduced. Next, the second chapter describes the general objectives of this thesis, which will be approached in the following sections. In the third chapter, it is presented in detail the design and optimization process of a nanodevice applied for the detection of Mycoplasma fermentans bacterium. First of all, mesoporous alumina porous films are charged with a fluorescent indicator (rhodamine B). Then, the surface is functionalized with a DNA sequence complementary to a highly conserved region of the 16S ribosomal subunit of the bacterium Mycoplasma fermentans. Steric hindrance generated by DNA sequences on the surface inhibits the release of the encapsulated indicator. Only in the presence of bacterium Mycoplasma fermentans DNA, molecular gates open, allowing payload diffusion to the solution, which is measured by fluorescence spectroscopy. In chapter four, it is carried out the design and optimization of a nanodevice able to detect Staphylococcus aureus bacterium in a fast, sensitive and selective way. For the sensor preparation, alumina mesoporous support is, first, loaded with the rhodamine B fluorescent dye. Then, the mesoporous are blocked through the attachment of an aptamer that recognises specifically this bacterium. Exclusively in the presence of Staphylococcus aureus it is accomplished the release of the encapsulated dye, which is later monitored by fluorescence spectroscopy. The response obtained is specific for Staphylococcus aureus. This system has been validated in real samples. In the sixth chapter, it is detailed the design and optimization process of a hybrid organic-inorganic nanodevice based on a capped mesoporous alumina material for the detection of Pneumocystis jirovecii fungus DNA. In this case, the mesoporous alumina support is loaded with a fluorescent dye and decorated with a specific oligonucleotide sequence designed for the recognition of Pneumocystis fungus. In the presence of the target organism, the fork-like oligonucleotide hybridises with the DNA of the fungus, which results in the adoption of a triplex conformation with high affinity and stability that induces, at the same time, the displacement of this complex from the surface. Consequently, the payload diffused to the solution is quantified through fluorescence spectroscopy. The system has been successfully validated. In the seventh chapter, it was developed a sensor system for gluten detection, in a quick and easy way, in processed and non-processed food extracts. For this, a mesoporous alumina support is loaded with the fluorescent dye rhodamine B, and later was functionalized with an aptamer specifically designed for the detection of gliadin, a protein that constitutes 50 % of average cluster elements that forms gluten. The protein-aptamer high affinity and specificity induce the displacement of the capping aptamer and cargo delivery, which is monitored through fluorescence spectroscopy. Finally, in the eighth chapter, the results obtained in the previous chapters and the potential application of the systems developed as health and food control system are discussed. / We thank the Spanish Government projects MAT2015-64139-C4-1-R, AGL2015-70235-C2-2-R, and TEC2015-71324-R (MINECO/FEDER, UE), the Generalitat Valenciana (project PROMETEOII/2014/047), the Catalan authority (project AGAUR 2014SGR1344), and ICREA under the 2014 ICREA Academia Award for support. This study was supported by the Spanish Government projects RTI2018-100910-B-C41 and SAF2017-82251-R (MCUI/AEI/FEDER, UE), the Generalitat Valenciana (project PROMETEO/2018/024), the Universitat Politècnica de València−Instituto de Investigación Sanitaria La Fe (B02-MIRSA project), CIBER-BBN (NANOPATH and valorization project CANDI-EYE) and co-financed by the EU through the Valencian Community ERDF PO 2014-2020. This research was funded by the Spanish Government, projects RTI2018-100910-B-C41 (MCUI/AEI/FEDER, UE) and CTQ2017-84415-R / Pla Blasco, L. (2021). New nanostructured supports with signal amplification features for the detection of molecules and biomolecules of interest [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/166500

Alúmina anódica

Puertas moleculares

Materiales mesoporosos

Aptámeros

Oligonucleótido

Gliadinas

Gliadins

Gluten

Mycoplasma fermentans

Pneumocystis jirovecii

Candida auris

Staphylococcus aureus

DNA sequence

Oligonucleotide

Aptamers

Mesoporous materials

Molecular gates

Nanoporous anodic alumina

QUIMICA ORGANICA

QUIMICA INORGANICA

Sélection et caractérisation d’aptamères oligonucléotidiques régulateurs de la protéine STAT5B, impliquée dans les leucémies / Selection and characterization of DNA aptamers regulating STAT5B, a protein involved in leukemias

Loussouarn, Claire

20 March 2014

Les cancers, qu’il s’agisse de leucémies ou de tumeurs solides, sont le résultat de proliférations cellulaires anormales et non contrôlées au sein des tissus. Ces proliférations anarchiques sont le reflet d’une surexpression et/ou sur-activation de protéines intracellulaires engendrées par un événement oncogénique. Aujourd’hui encore il est donc nécessaire de trouver de nouvelles molécules à usage thérapeutique ciblant spécifiquement ces protéines. C’est dans ce contexte que les facteurs de transcription STAT5 constituent de véritables cibles de choix puisque ces protéines participent activement à la leucogénèse. L’implication directe des protéines STAT5 dans la génèse des leucémies a été démontrée par l’utilisation de formes mutées constitutivement active de STAT5. Les facteurs de transcription STAT5 jouent un rôle essentiel dans la voie de signalisation JAK/STAT. Cette voie aboutit à la régulation de grandes fonctions biologiques telles que la prolifération cellulaire, la différenciation cellulaire ou encore l’apoptose. L’objectif de ce projet consiste donc à cibler spécifiquement les protéines STAT5 dans le but de rétablir le processus de mort cellulaire et empêcher la prolifération des cellules cancéreuses. Les inhibiteurs spécifiques des protéines STAT5 sont sélectionnés selon la méthode SELEX qui permet d’isoler des ligands structurés de forte affinité pour la protéine. L’affinité et la spécificité de ces inhibiteurs, appelés aptamères, sont caractérisées à partir de modèles cellulaires de leucémies dépendant de l’activité des facteurs de transcription STAT5. Les aptamères sont aujourd’hui de véritables outils thérapeutiques en pleine évolution. / Leukemias are due to abnormal cell proliferation, which is the result of intracellular over-expression or excessive activation of protein due to oncogenic event. Still today, it is necessary to find new therapeutic molecules, which specifically target these proteins. STAT5, via the JAK/STAT signaling pathway, controls fundamental cellular processes, including .cell survival, proliferation and differentiation. To struggle against tumorigenesis, JAK/STAT signaling pathway has to be inhibited. The aim of this project is to target specifically STAT5 factors to restore healthy signal transduction. We generated aptamers by an iterative in vitro selection. Aptamers are short-structured single strand DNAs or RNAs that bind with high affinity and specificity to their target. Once STAT5B recombinant proteins are produced, they are subjected to SELEX process. The number of rounds depends on various parameters. After seven rounds, two sequences are retrieved. The specificity and affinity of these aptamers are assessed by fluorescent immunoassays. Binding affinity and kinetics of interaction are characterized by SPR. Aptamer anti proliferative effects are determined by evaluation of the growth of cells depending on STAT5. Finally, we developed several .assays aiming at understanding the mechanism of an aptamer action on STAT5B such as phosphorylation measurement and EMSA. Aptamers are now emerging therapeutic tools; they exhibit significant advantages relative to protein therapeutics.

Facteurs de transcription STAT5

Leucogénèse

Protéines STAT5

Signalisation cellulaire

JAK/STAT

Leukemia

Leukemia inhibitory factor

Aptamers

Transcription factors

Oncogenes

Cell proliferation

Cell differentiation

Apoptosis

Cell death

DNA

RNA

Development and Characterization of Aptamers for the use in Surface Plasmon Resonance Sensors for the Detection of Glycated Blood Proteins

Reaver, Nathan George Frederick

27 November 2013

No description available.

Biomedical Research

Biochemistry

Chemistry

Engineering

Health Care

Health Sciences

Medicine

Molecular Chemistry

Optics

Organic Chemistry

Technology

Biomedical Engineering

aptamer

aptamers

surface plasmon resonance

SPR

diabetes mellitus

glycated protein

biosensor

hemoglobin

glycated hemoglobin

SELEX

fibrinogen

non-enzymatic glycosylation

plasmonics

Development and Optimization of Experimental Biosensing Protocols Using Porous Optical Transducers

Martínez Pérez, Paula

02 September 2021

[ES] Los biosensores son dispositivos analíticos con aplicabilidad en diferentes campos y con numerosas ventajas frente a otros métodos analíticos convencionales, como son el uso de pequeños volúmenes de muestra y reactivos, su sensibilidad y su rápida respuesta, sin necesidad de pretratamiento de la muestra, equipos caros o personal especializado. Sin embargo, se trata de un campo de investigación relativamente nuevo en el que todavía queda mucho camino por andar. Esta Tesis doctoral pretende aportar un granito de arena a este campo de conocimiento mediante el estudio del potencial de diferentes materiales porosos como transductores para el desarrollo de biosensores ópticos con respuesta en tiempo real y sin marcajes. Los materiales propuestos van desde aquellos artificialmente sintetizados, como silicio poroso (SiP), nanofibras (NFs) poliméricas o membranas poliméricas comerciales, hasta materiales naturales con propiedades fotónicas que todavía no habían sido explotadas para el sensado, como son los exoesqueletos de biosílice de diatomeas. Todos ellos tienen en común la simplicidad en su obtención, evitando costosos y laboriosos procesos de nanofabricación. Para su estudio, se analizará su respuesta óptica y, en aquellos casos en los que ésta permita llevar a cabo experimentos de detección, se desarrollarán estrategias para su biofuncionalización y su implementación en experimentos de biosensado. En el caso del SiP y las NFs se han optimizado los parámetros de fabricación para obtener una respuesta óptica adecuada que permita su interrogación. A continuación, se ha llevado a cabo su biofuncionalización empleando métodos covalentes y no covalentes, así como diferentes bioreceptores (aptámeros de ADN y anticuerpos) para estudiar su potencial y sus limitaciones como biosensores. En el caso de las membranas comerciales y el exoesqueleto de sílice de diatomeas, se ha caracterizado su respuesta óptica y se han llevado a cabo experimentos de sensado de índice de refracción para estudiar su sensibilidad. Así mismo, se ha desarrollado un método de funcionalización de la superficie del exoesqueleto de diatomeas basado en el uso de polielectrolitos catiónicos. Como resultado, se ha demostrado el potencial tanto de NFs para el desarrollo de biosensores, como el de membranas comerciales para sensores cuya aplicación no requiera una elevada sensibilidad pero sí un bajo coste. Además, se ha puesto de manifiesto el gran potencial del exoesqueleto de diatomeas para el desarrollo de sensores basados en su respuesta óptica. Por el contrario, las limitaciones encontradas en el desarrollo de biosensores basados en SiP han evidenciado la necesidad de un estudio riguroso y la optimización de la estructura de materiales porosos previamente a ser usados en (bio)sensado. / [CA] Els biosensors són dispositius analítics amb aplicabilitat en diferents camps i amb nombrosos avantatges enfront d'altres mètodes analítics convencionals, com són l'ús de xicotets volums de mostra i reactius, la seua sensibilitat i la seua ràpida resposta, sense necessitat de pretractament de la mostra, equips cars o personal especialitzat. No obstant això, es tracta d'un camp d'investigació relativament nou en el qual encara queda molt camí per fer. Aquesta Tesi doctoral pretén aportar el seu òbol a aquest camp de coneixement mitjançant l'estudi del potencial de diferents materials porosos com a transductors per al desenvolupament de biosensors òptics amb resposta en temps real i sense marcatges. Els materials proposats van des d'aquells artificialment sintetitzats, com a silici porós (SiP), nanofibras (NFs) polimèriques o membranes polimèriques comercials, fins a materials naturals amb propietats fotòniques que encara no havien sigut explotades per al sensat, com són els exoesquelets de biosílice de diatomees. Tots ells tenen en comú la simplicitat en la seua obtenció, evitant costosos i laboriosos processos de nanofabricació. Per al seu estudi, s'analitzarà la seua resposta òptica i, en aquells casos en els quals aquesta permeta dur a terme experiments de detecció, es desenvoluparan estratègies per a la seua biofuncionalizació i la seua implementació en experiments de biosensat. En el cas del SiP i les NFs s'han optimitzat els paràmetres de fabricació per a obtenir una resposta òptica adequada que permeta la seua interrogació. A continuació, s'ha dut a terme la seua biofuncionalizació emprant mètodes covalents i no covalents, així com diferents bioreceptors (aptàmers d'ADN i anticossos) per a estudiar el seu potencial i les seues limitacions com a biosensors. En el cas de les membranes comercials i l'exoesquelet de sílice de diatomees, s'ha caracteritzat la seua resposta òptica i s'han dut a terme experiments de sensat d'índex de refracció per a estudiar la seua sensibilitat. Així mateix, s'ha desenvolupat un mètode de funcionalizació de la superfície de l'exoesquelet de diatomees basat en l'ús de polielectròlits catiònics. Com a resultat, s'ha demostrat el potencial tant de NFs per al desenvolupament de biosensors, com el de membranes comercials per a sensors amb una aplicació que no requerisca una elevada sensibilitat però sí un baix cost. A més, s'ha posat de manifest el gran potencial de l'exoesquelet de diatomees per al desenvolupament de sensors basats en la seua resposta òptica. Per contra, les limitacions trobades en el desenvolupament de biosensors basats en SiP han evidenciat la necessitat d'un estudi rigorós i l'optimització de l'estructura dels materials porosos prèviament a ser usats en (bio)sensat. / [EN] Biosensors are analytical devices with application in diverse fields and with several advantages relative to other conventional methods, such as the use of small volumes of sample and reagents, their sensitivity and their fast response, without the need of the sample pretreatment, expensive equipments or specialised technicians. Nevertheless, this is a relatively new research field in which there is a long way to go yet. This doctoral Thesis aims at doing its bit to this field of knowledge by studying the potential of different porous materials as transducers for the development of real-time and label-free optical biosensors. The proposed materials range from those artificially synthesised, such as porous silicon (pSi), polymeric nanofibres (NFs) or commercial polymeric membranes, to natural materials with photonic properties that had not been exploited for sensing yet, such as biosilica exoskeletons of diatoms. All of them have in common its simple production, avoiding expensive and laborious nanofabrication processes. For their study, their optical response will be analysed and, in those cases in which such optical response allows performing detection experiments, strategies for their biofunctionalisation and their implementation in biosensing experiments will be developed as well. Regarding pSi and NFs, the fabrication parameters were optimised to get a suitable optical response for their interrogation. Afterwards, their surface functionalisation was carried out by covalent and non-covalent methods, as well as different bioreceptors (DNA aptamers and antibodies), to study their potential and their constraints as biosensors. Concerning commercial membranes and the biosilica exoskeleton of diatoms, their optical response was characterised and refractive index sensing experiments were carried out to study their sensitivity. Additionally, a biofunctionalisation method for the surface of the diatoms exoskeleton was developed based on the use of cationic polyelectrolytes. As a result, it was demonstrated the potential of NFs for the development of biosensors, as well as the potential of commercial membranes for developing sensors for an application that does not require a high sensitivity but a low cost. Furthermore, the great potential of biosilica exoskeleton of diatoms for the development of sensors based on their optical response has been revealed. By contrast, the constraints found in the development of pSi illustrate the importance of an accurate study and optimisation of porous materials structure before using them for (bio)sensing. / Martínez Pérez, P. (2021). Development and Optimization of Experimental Biosensing Protocols Using Porous Optical Transducers [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/172541

Biosensor

Biosensor óptico

Transductor óptico poroso sin etiquetas

Silicio poroso

Membranas poliméricas

Nanofibras

Membranas comerciales

Exoesqueleto de diatomeas

Aptámeros

Trombina

Optical biosensor

Label-free

Porous optical transducer

Porous silicon

Polymeric membranes

Nanofibres

Commercial membranes

Diatom exoskeleton

Aptamers

Thrombin

TEORIA DE LA SEÑAL Y COMUNICACIONES