Mechanistic approaches towards understanding particle formation in biopharmaceutical formations : the role of sufactant type and level on protein conformational stability, as assessed by calorimetry, and on protein size stability as assessed by dynamic light scattering, micro flow imaging and HIAC

Vaidilaite-Pretorius, Agita

January 2013

Control and analysis of protein aggregation is an increasing challenge to biopharmaceutical research and development. Therefore it is important to understand the interactions, causes and analysis of particles in order to control protein aggregation to enable successful biopharmaceutical formulations. This work investigates the role of different non-ionic surfactants on protein conformational stability, as assessed by HSDSC, and on protein size stability as assessed by Dynamic Light Scattering (DLS), HIAC and MFI. BSA and IgG2 were used as model proteins. Thermal unfolding experiments indicated a very weak surfactant-immunoglobulin IgG2 interaction, compared to much stronger interactions for the BSA surfactant systems. The DLS results showed that BSA and IgG2 with different surfactants and concentration produced different levels of particle size growth. The heat treatment and aging of samples in the presence of Tween 20, Tween 80, Brij 35 and Pluronic F-68 surfactants led to an increase in the populations of larger particles for BSA samples, whereas IgG2 systems did not notably aggregate under storage conditions MFI was shown to be more sensitive than HIAC technique for measuring sub-visible particles in protein surfactant systems. Heat treatment and storage stress showed a significant effect on BSA and IgG2 protein sub-visible particle size stability. This work has demonstrated that both proteins with different Tween 20, Tween 80, Brij 35 and Pluronic F-68 concentrations, have different level of conformational and size stability. Also aging samples and heating stress bears the potential to generate particles, but this depends on surfactant type. Poor predictive correlations between the analytical methods were determined.

615.7

Dinâmica de proteínas: efeitos da hidratação em estrato córneo e de detergentes em albumina / Protein dynamics: effects of hydration in stratum corneum and detergents in albumin

Silva, Junaine Vasques da

19 December 2002

Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2017-07-25T13:32:13Z No. of bitstreams: 2 Dissertação - Junaine Vasques da Silva - 2002.pdf: 3727327 bytes, checksum: 4cb8c1db4d3fb95798779f39aae78673 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-07-26T12:05:00Z (GMT) No. of bitstreams: 2 Dissertação - Junaine Vasques da Silva - 2002.pdf: 3727327 bytes, checksum: 4cb8c1db4d3fb95798779f39aae78673 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-07-26T12:05:00Z (GMT). No. of bitstreams: 2 Dissertação - Junaine Vasques da Silva - 2002.pdf: 3727327 bytes, checksum: 4cb8c1db4d3fb95798779f39aae78673 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2002-12-19 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The main function of the most superficial layer of the epidermis, the Stratum Corneum (SC), is to provide a physical barrier that controls the transepidermal water loss as well as the permeation of another substances in both directions across the skin. The SC is formed by anabolically dead cells, the terminally differentiated corneocyte, and its function is essentially accomplished by forming a highly insoluble protein structure on the surface of the corneocytes, termed the cornified cell envelope, and by impeding water diffusion across the SC by mortaring the corneocytes together by layers of skin-specific lipids, essentially ceramide, cholesterol and fatty acid. In this work the cell envelope of the SC was spin labeled with a sulfhydryl-specific nitroxide reagent to investigate the water content effects upon the protein dynamics directly in the intact tissue. A two-state model for the nitroxide side chain described the coexistence of two spectral components in the electron paramagnetic resonance (EPR) spectra. The so-called strongly immobilized component, S, is associated with the EPR signal of a motionally restricted nitroxide fraction having its N-O group hydrogen bonded to protein (rigid structure) while the weakly immobilized component, W, corresponds to the signal provided by the spin labels with higher mobility (~10 times greater) exposed to the aqueous environment. The relative populations between these two mobility states, S and W, are in thermodynamic equilibrium. The standard Gibbs free energy, enthalpy and entropy changes for transferring the nitroxide side chain from the state contacting the solvent, W, to the one contacting protein, S, indicated that the reduction of the SC water content to below ~h 0.69, g H2O per g dry SC, stabilizes the protein interacting state, S. Upon decreasing the SC hydration level below ~h 0.69 the segmental motion of the polypeptide chains and the rotational motion of the spin-labeled side chain were also constrained. To test our methodology in a pure and very well known protein, we also studied the effects of two types of detergents on the bovine serum albumin (BSA). Both detergents, the anionic sodium dodecyl sulfate (SDS) and the zwitterionic N-hexadecyl-N,N-dimethyl-3-ammonium-1-propanesulfonate (HPS) increase the mobility of the protein backbone and of the nitroxide side chain. The thermodynamic parameters indicated that these detergents destabilize the protein favoring less compact conformations. This work can also be useful to improve the spectral analysis of site-directed spin labeling, especially for a more quantitative description in terms of thermodynamic parameters. / A camada mais superficial da epiderme, o Estrato Córneo (EC), tem como função principal a formação de uma barreira física que controla a perda de água do corpo bem como a permeação de outras substâncias em ambas as direções da pele. O EC é formado por células anabolicamente mortas, os corneócitos, os quais sofreram diferenciação celular terminal, e sua função é realizada formando uma estrutura de proteínas altamente insolúveis na superfície do corneócito, chamada de envelope celular, e também uma matriz lipídica, essencialmente ceramídios, colesterol e ácidos graxos, que dificultam a difusão da água. Neste trabalho, o EC foi marcado com marcadores de spin específicos para reagir com os grupos sulfidrilas das proteínas, para investigar os efeitos do conteúdo de água na dinâmica de proteínas diretamente no tecido intacto. Um modelo de dois estados para a cadeia lateral do nitróxido descreveu a coexistência de duas componentes espectrais de ressonância paramagnética eletrônica (RPE). A componente denominada fortemente imobilizada (S), surge de uma fração de marcadores com o átomo de oxigênio do nitróxido ligado à proteína (estrutura rígida) enquanto a componente fracamente imobilizada é gerada pelos marcadores com mobilidade mais alta (~10 vezes maior) e expostos ao ambiente aquoso. As populações relativas entre estes dois estados de mobilidade, S e W, estão em equilíbrio termodinâmico. Os parâmetros da termodinâmica: energia livre padrão de Gibbs, entalpia e entropia, envolvidos na transferência da cadeia lateral do nitróxido do estado W, contatando ao solvente, para o estado S, contatando a proteína, indicaram que a redução do conteúdo de água para abaixo de ~0.69g de H2O por g de EC seco, estabiliza o estado S (cadeia lateral do nitróxido dobrada sobre a cadeia principal da proteína). Ao diminuir o nível de hidratação para abaixo de ~ h 0.69 (g H2o/g EC seco) o movimento local da cadeia polipeptídica e o movimento rotacional da cadeia lateral do marcador de spin foram ambos reduzidos. Para testar nossa metodologia em uma proteína pura e bem conhecida, estudamos os efeitos de dois tipos de detergentes sobre a albumina do soro bovino (BSA). Ambos os detergentes, o aniônico dodecil sulfato de sódio (SDS) e o ziteriônico N-hexadecil-N,N-dimetil-3-amônio-1-propanosulfonato (HPS) aumentaram a mobilidade da cadeia principal da proteína e da cadeia lateral do nitróxido. Os parâmetros termodinâmicos indicaram que estes detergentes desestabilizam a proteína favorecendo conformações menos compactas. Os resultados do presente trabalho também podem contribuir para aprimorar a

Marcadores de spin

Maleimido

Hidratação de proteínas

Mobilidade de proteínas

Albumina do soro bovino (BSA)

Electronic paramagnetic resonance (EPR)

Spin label

Maleimide

Protein hydration

Protein mobility

Bovine serum albumin (BSA)

CIENCIAS EXATAS E DA TERRA::FISICA

Differential sensing of hydrophobic analytes with serum albumins

Ivy, Michelle Adams

14 November 2013

In the last decade, there has been a growing interest in the use of differential sensing for molecular recognition. Inspired by the mammalian olfactory system, differential sensing employs an array of non-selective receptors, which through cross-reactive interactions, create a distinct pattern for each analyte tested. The unique fingerprints obtained for each analyte with differential sensing are studied with statistical analysis techniques, such as principal component analysis and linear discriminant analysis. It was postulated that serum albumin proteins would be applicable to differential sensing schemes due to significant differences in sequence identity between different serum albumin species, and due to the wide range of hydrophobic molecules which are known to bind to these proteins. Consequently, cross-reactive serum albumin arrays were developed, utilizing hydrophobic fluorescent indicators to detect hydrophobic molecules. As such, serum albumin cross-reactive arrays were employed to discriminate subtly different hydrophobic analytes, and mixtures of these analytes, in the form of terpenes and perfumes, plasticizers and plastic explosive mixtures, and glycerides and adipocyte extracts. In this doctoral work, a detailed review of the field of differential sensing, and a thorough study of principal component analysis and linear discriminant analysis in various differential sensing scenarios, are given. These introductory chapters aid in better understanding the methods and techniques applied in later experimental chapters. In chapter 3, serum albumins, a PRODAN indicator, and an additive are shown to discriminate five terpene analytes and terpene doped perfumes. Chapter 4 describes an array with serum albumins, two dansyl fluorophores, and an additive which successfully differentiate the plasticizers found within the plastic explosives C4 and Semtex and simulated C4 and Semtex mixtures. Discrimination of these simulated mixtures was also achieved with this array in the presence of soil contaminants, demonstrating the potential real-world applicability of this sensing ensemble. Finally, chapter 5 details an array consisting of serum albumins, several fluorescent indicators, and a Grubb's olefin metathesis reaction, to differentiate saturated and unsaturated triglycerides, diglycerides, and monoglycerides. Mixtures of glycerides in adipocyte extracts taken from rats with different health states were then successfully discriminated, showing promise for clinical applications in differentiating adipoctyes from pre-diabetic, type 2 diabetic, and non-diabetic individuals. / text

Differential sensing

Array sensing

Multivariate analysis

Linear discriminant analysis

Principal component analysis

Serum albumin

Hydrophobic analytes

Terpenes

Perfumes

Plasticizers

Plastic explosives

C4

Semtex

Glycerides

Triglycerides

Diglycerides

Monoglycerides

Adipocytes

Lipolysis

Olefin metathesis

Bioanalytical Applications of Intramolecular H-Complexes of Near Infrared Bis(Heptamethine Cyanine) Dyes

Kim, Junseok

15 July 2008

This dissertation describes the advantages and feasibility of newly synthesized near-infrared (NIR) bis-heptamethine cyanine (BHmC) dyes for non-covalent labeling schemes. The NIR BHmCs were synthesized for biomolecule assay. The advantages of NIR BHmCs for biomolecule labeling and the instrumental advantages of the near-infrared region are also demonstrated. Chapter 1 introduces the theory and applications of dye chemistry. For bioanalysis, this chapter presents covalent and non-covalent labeling. The covalent labeling depends on the functionality of amino acids and the non-covalent labeling relies on the binding site of a protein. Due to the complicated binding process in non-covalent labeling, this chapter also discusses the binding equilibria in spectroscopic and chromatographic analyses. Chapter 2 and 3 evaluate the novel BHmCs for non-covalent labeling with human serum albumin (HSA) and report the influence of micro-environment on BHmCs. The interesting character of BHmCs in aqueous solutions is that the dyes exhibit non- or low-fluorescence compared to their monomer counterpart, RK780. It is due to their H-type closed clam-shell form in the solutions. The addition of HSA or organic solvents opens up the clam-shell form and enhances fluorescence. The binding equilibria are also examed. Chapter 4 provides a brief introduction that summaries the use of capillary electrophoresis (CE), and offers a detailed instrumentation that discusses the importance and advantage of a detector in NIR region for CE separation. Chapter 5 focuses on the use of NIR cyanine dyes with capillary electrcophoresis with near-infrared laser induce fluorescence (CE-NIR-LIF) detection. The NIR dyes with different functional groups show that RK780 is a suitable NIR dye for HSA labeling. The use of BHmCs with CE-NIR-LIF reduces signal noises that are commonly caused by the interaction between NIR cyanine dyes and negatively charged capillary wall. In addition, bovine carbonic anhydrase II (BCA II) is applied to study the influence of hydrophobicity on non-covalent labeling. Finally, chapter 6 presents the conformational dependency of BHmCs on the mobility in capillary and evaluates the further possibility of BHmCs for small molecule detection. Acridine orange (AO) is used as a sample and it breaks up the aggregate and enhances fluorescence. The inserted AO into BHmC changes the mobility in capillary, owing to the conformational changes by AO.

Clam-shell Form

Capillary Electrophoresis (CE)

Laser Induce Fluorescence (LIF)

Bovine Carbonic Anhydrase II (BCA II)

Acridine Orange (AO)

Human Serum Albumin (HSA)

Binding Equilibria

Covalent Labeling

Non-covalent Labeling

Bis-heptamethine Cyanine (BHmC)

Near-infrared (NIR)

Estudo de interação dos flavonóides Isovitexina e 2-Fenilcromona com a Albumina do Soro Humano: abordagem experimental e computacional / Interaction study of flavonoids Isovitexin and 2-Phenylcromone with Human Serum Albumin: experimental and computational approach

Caruso, Ícaro Putinhon [UNESP]

26 August 2016

Submitted by ÍCARO PUTINHON CARUSO null (ykrocaruso@hotmail.com) on 2016-09-19T16:20:38Z No. of bitstreams: 1 tese_doutorado_icaro_vf.pdf: 17027642 bytes, checksum: 71d2f869670d044aace5f2ab6326b657 (MD5) / Approved for entry into archive by Felipe Augusto Arakaki (arakaki@reitoria.unesp.br) on 2016-09-22T14:26:36Z (GMT) No. of bitstreams: 1 caruso_ip_dr_sjrp.pdf: 17027642 bytes, checksum: 71d2f869670d044aace5f2ab6326b657 (MD5) / Made available in DSpace on 2016-09-22T14:26:36Z (GMT). No. of bitstreams: 1 caruso_ip_dr_sjrp.pdf: 17027642 bytes, checksum: 71d2f869670d044aace5f2ab6326b657 (MD5) Previous issue date: 2016-08-26 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Os flavonóides fazem parte de uma ampla classe de compostos polifenólicos os quais ocorrem naturalmente nas plantas e podem ser encontrados nas sementes, caules, folhas, flores e/ou frutos. Estudos recentes indicam que esses compostos polifenólicos podem apresentar uma variedade significativa de atividades biológicas benéficas para a saúde humana, como por exemplo: antioxidante, anti-inflamatória, antibacteriana, antiviral e anticancerígena. A Albumina do Soro Humano (HSA) é a principal proteína extracelular presente no plasma sanguíneo. A função central dessa proteína é transportar e distribuir ligantes endógenos e exógenos para diferentes alvos moleculares no corpo humano. Por tais aspectos, torna-se importante o desenvolvimento de estudos que caracterizam a interação dos flavonóides com a proteína transportadora HSA. Este trabalho investiga a interação dos flavonóides Isovitexina (ISO) e 2-Fenilcromona (2PHE) com a HSA, utilizando técnicas experimentais de espectroscopia de fluorescência, absorbância UV-Vis, dicroísmo circular (CD) e infravermelho com transformada de Fourier (FT-IR); juntamente com ferramentas computacionais de cálculo {\it{ab initio}}, dinâmica molecular e modelagem molecular. A integração dessas abordagens experimentais e computacionais possibilita caracterizar a formação dos complexos HSA-flavonóides, determinando aspectos físico-químicos como: constantes de afinidade, parâmetros termodinâmicos, número de sítios de ligação, perfil de cooperatividade e resíduos de aminoácidos responsáveis pelas interações proteína-flavonóides (hidrofóbicas e eletrostáticas). / Flavonoids belong to a large class of polyphenolic compounds which occur naturally in plants and can be found seeds, stems, leaves, flowers and/or fruits. Recent studies indicate that these polyphenolic compounds can present a significant variety of beneficial biological activities on human health, such as: antioxidant, anti-inflammatory, antibacterial, antiviral, and anticancer. Human Serum Ambumin (HSA) is the main extracellular protein presents in blood plasma. The core function of this protein is to carry and distribute endogenous and exogenous ligands to different molecular targets in the human body. For these aspects, it is important to develop studies that characterize the interaction of the flavonoids with the carrier protein HSA. This work investigates the interaction of the flavonoids Isovitexin (ISO) and 2-Phenylchromone (2PHE) with the HSA, using experimental techniques of fluorescence, UV-Vis absorbance, circular dichroism (CD), and Fourier transform infrared (FT-IR) spectroscopy; along with computational tools of ab initio calculation, molecular dynamics, and molecular modeling. The integration of these experimental and computational approaches allows to characterize the formation of the HSA-flavonoids complexes, determining physicochemical aspects, sucha as: affinity constants, thermodynamic parameters, number of binding sites, cooperativity profile and aminoacid residues responsable for the protein-flavonoids interactions (hydrophobic and electrostatic).

Flavonóide

Isovitexina

2-Fenilcromona

Albumina do Soro Humano

Espectroscopia de fluorescência

Função de densidade de ligação

Dinâmica molecular

Modelagem molecular

Flavonoid

Isovitexin

2-Phenylchromone

Human Serum Albumin

Fluorescence spectroscopy

Bindind density function

Molecular dynamics

Molecular modeling

Estudo in silico da intera??o da albumina de soro humano com o ibuprofeno

Dantas, Diego de Sousa

28 February 2013

Made available in DSpace on 2014-12-17T14:10:28Z (GMT). No. of bitstreams: 1 DiegoSD_DISSERT.pdf: 4467915 bytes, checksum: 1bb0defec90e5ed329ebefbf24ac108a (MD5) Previous issue date: 2013-02-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Currently, computational methods have been increasingly used to aid in the characterization of molecular biological systems, especially when they relevant to human health. Ibuprofen is a nonsteroidal antiinflammatory or broadband use in the clinic. Once in the bloodstream, most of ibuprofen is linked to human serum albumin, the major protein of blood plasma, decreasing its bioavailability and requiring larger doses to produce its antiinflamatory action. This study aimes to characterize, through the interaction energy, how is the binding of ibuprofen to albumin and to establish what are the main amino acids and molecular interactions involved in the process. For this purpouse, it was conducted an in silico study, by using quantum mechanical calculations based on Density Functional Theory (DFT), with Generalized Gradient approximation (GGA) to describe the effects of exchange and correlation. The interaction energy of each amino acid belonging to the binding site to the ligand was calculated the using the method of molecular fragmentation with conjugated caps (MFCC). Besides energy, we calculated the distances, types of molecular interactions and atomic groups involved. The theoretical models used were satisfactory and show a more accurate description when the dielectric constant ε = 40 was used. The findings corroborate the literature in which the Sudlow site I (I-FA3) is the primary binding site and the site I-FA6 as secondary site. However, it differs in identifying the most important amino acids, which by interaction energy, in order of decreasing energy, are: Arg410, Lys414, Ser 489, Leu453 and Tyr411 to the I-Site FA3 and Leu481, Ser480, Lys351, Val482 and Arg209 to the site I-FA6. The quantification of interaction energy and description of the most important amino acids opens new avenues for studies aiming at manipulating the structure of ibuprofen, in order to decrease its interaction with albumin, and consequently increase its distribution / Na atualidade, os m?todos computacionais v?m sendo cada vez mais utilizados para auxiliar a biologia molecular na caracteriza??o de sistemas biol?gicos, principalmente quando esses possuem relev?ncia para a sa?de humana. O ibuprofeno ? um antiinflamat?rio n?o-esteroidal de larga utiliza??o na cl?nica. Uma vez na corrente sangu?nea, boa parte do ibuprofeno fica ligada a albumina de soro humano, a principal prote?na do plasma sangu?neo, diminuindo a sua biodisponibilidade e necessitando de maiores doses para a produ??o de seu efeito antiinflamat?rio. Este estudo teve por objetivo caracterizar, atrav?s da energia de intera??o, como ocorre a liga??o do ibuprofeno ? albumina e estabelecer quais os principais amino?cidos e intera??es moleculares envolvidas no processo. Para tal desenvolveu-se um estudo in silico, com utiliza??o de c?lculos de mec?nica qu?ntica, baseada na Teoria do Funcional da Densidade (DFT), com aproxima??es do Gradiente Generalizado (GGA) para descri??o dos efeitos de correla??o e troca. A energia de intera??o de cada amino?cido do s?tio de liga??o, com o ligante foi calculada com base no m?todo de fragmenta??o molecular com capas conjugadas (MFCC). Al?m da energia, foram calculadas as dist?ncias, tipos de intera??es moleculares e grupos at?micos envolvidos. Os modelos te?ricos utilizados foram satisfat?rios e demonstraram uma descri??o mais precisa com a utiliza??o da constante diel?trica ε=40. Os achados corroboram com a literatura colocando o s?tio Sudlow I (I-FA3) como o principal s?tio de liga??o e o s?tio I-FA6 como s?tio secund?rio. Contudo, difere quanto ? identifica??o dos amino?cidos mais importantes, que por meio da energia de intera??o, em ordem decrescente de energia, s?o: Arg410, Lys414, Ser 489, Leu453 e Tyr411 para o S?tio I-FA3 e Leu481, Ser480, Lys351, Val482 e Arg209 para o s?tio I-FA6. A quantifica??o da energia de intera??o e a descri??o dos amino?cidos mais importantes abre caminhos para novos estudos que visem a manipula??o da estrutura do ibuprofeno, no sentido de diminuir a intera??o desse com a albumina, e consequentemente aumentar a sua distribui??o

CNPQ::CIENCIAS BIOLOGICAS

Inibição do estresse do retículo endoplasmático restaura o conteúdo de ABCA-1 e o efluxo de colesterol em macrófagos tratados com albumina modificada por glicação avançada / Inhibition of endoplasmic reticulum stress restores the ABCA-1 protein level and cholesterol efflux in advanced glycated albumin-treated macrophages

Gabriela Castilho

14 August 2012

Produtos de glicação avançada (AGE) prejudicam o metabolismo de lipoproteínas e o transporte reverso de colesterol, o que contribui para a aterosclerose no diabete melito (DM). Em particular, a albumina modificada por AGE (albumina-AGE) reduz a remoção de colesterol por diminuir o conteúdo do receptor ABCA-1 em macrófagos. Isto se vincula ao insulto oxidativo e inflamatório, os quais são indutores do estresse do retículo endoplasmático (RE). O objetivo do presente estudo foi avaliar, em macrófagos, os efeitos do tratamento com albumina-AGE sobre o estresse do RE e suas vias adaptativas (UPR), relacionando-os com o prejuízo na expressão do ABCA-1 e efluxo de colesterol celular. Albumina-AGE foi produzida pela incubação de albumina isenta em ácidos graxos com glicolaldeído 10 mM e, albumina controle (albumina-C) com PBS apenas. Albumina foi isolada do soro de pacientes portadores de DM com controle glicêmico inadequado (albumina-DM) ou indivíduos controles (albumina não- DM) por cromatografia para separação rápida de proteínas seguida por purificação alcoólica. Macrófagos de peritônio de camundongos ou macrófagos da linhagem J774 foram tratados com os diferentes tipos de albumina na presença ou ausência de ácido fenil butírico (PBA; chaperona química que alivia o estresse do RE) ou MG-132 (inibidor do sistema proteasomal) por diferentes intervalos de tempo. A expressão de marcadores do estresse do RE, UPR, proteína dissulfeto isomerase (PDI), calreticulina e ubiquitina foi determinada por imunoblot e o conteúdo de ABCA-1, por citometria de fluxo e imunocitoquímica. O efluxo de 14Ccolesterol foi avaliado, utilizando-se apoA-I como aceptora de colesterol. A albumina-AGE induziu aumento tempo-dependente na expressão das chaperonas marcadoras do estresse do RE - Gr78 e Grp94 - e de proteínas da UPR (ATF6 e eIF2-P) em comparação à albumina-C. O conteúdo de ABCA-1 e o efluxo de colesterol foram reduzidos em, respectivamente, 33% e 47% e ambos foram restaurados pelo tratamento com PBA, o qual também reduziu o estresse do RE. A associação entre estresse de RE e redução de ABCA-1 foi confirmada pelo uso da tunicamicina (indutor clássico de estresse do RE), que diminuiu em 61% o conteúdo de ABCA-1, prejudicando em 82% o efluxo de colesterol. A albumina-AGE aumentou o conteúdo total de ubiquitina. A inibição do sistema proteasomal não foi capaz de restaurar o conteúdo de ABCA-1 em células tratadas com albumina-AGE. Em macrófagos expostos à albumina-DM evidenciou-se maior expressão da PDI e calreticulina, com tendência à maior expressão da Grp94. A albumina-AGE (produzida in vitro ou isolada de portadores de DM) induz estresse de RE, o qual se vincula à redução no conteúdo de ABCA-1 e efluxo de colesterol. Estes eventos podem contribuir para a aterosclerose no DM. Chaperonas químicas, que aliviam o estresse do RE, podem ser ferramentas úteis na prevenção e tratamento da aterosclerose / Advanced glycation end products (AGE) disturb lipoprotein metabolism and reverse cholesterol transport, contributing to atherosclerosis in diabetes mellitus (DM). Particularly, advanced glycated albumin (AGE-albumin) reduces cell cholesterol removal by impairing the expression of ABCA-1 in macrophages. This is ascribed to the oxidative and inflammatory stress, conditions that elicit endoplasmic reticulum (ER) stress. In this study it was investigated the effect of AGE-albumin on ER stress and adaptative pathways (UPR) development in macrophages, and its relationship to the reduction in ABCA-1 expression and cholesterol efflux. AGE-albumin was prepared by incubating fatty acid free albumin with 10 mM glycolaldehyde and control albumin (C-albumin) with PBS only. Albumin was isolated from poorly controlled DM patients (DM-albumin) and control individuals (nonDMalbumin) by fast liquid chromatography and purified by alchoolic extraction. Mouse peritoneal macrophages or J774 cells were treated along time with the different types of albumin in the absence or presence of phenyl butiric acic (PBA; a chaperone that aleviates ER stress) or MG132 (a proteasomal inhibitor). The expression of ER stress and UPR markers, protein disulfide isomerase (PDI), calreticulin and ubiquitin was determined by immunoblot and ABCA-1 protein level, by flow cytometry and imunocytochemistry. 14Ccholesterol efflux was evaluated utilizing apo A-I as cholesterol acceptor. AGE-albumin induced a time-dependent increase in the expression of ER stress chaperone markers - Gr78 and Grp94 - and UPR proteins (ATF6 and eIF2-P) in comparison to C-albumin. ABCA-1 content and cholesterol efflux were diminished by, respectively, 33% and 47% and both were recovered by the treatment with PBA. The association between ER stress and ABCA-1 reduction was confirmed by the reduction, induced by tunicanycin (a classical ER stress inductior) in ABCA-1 protein level (61%) and cholesterol efflux (82%). AGE-albumin increased the amount of cellular total ubiquitin. The inhibiton of proteasomal system was unable to restore ABCA-1 protein level in cells treated with AGE-albumin. In macrophages exposed to DM-albumin a higher expression of PDI and calreticulin was observed together with a trend of enhanced Grp94 expression. In conclusion, AGE-albumin (produced in vitro or isolated from DM patients) induces ER stress which is related to the reduction in ABCA-1 level and cholesterol efflux in macrophages. These events can contribute to atherosclerosis in DM. Chemical chaperones that alleviate ER stress may be useful in the prevention and treatment of atherosclerosis

Albumina sérica colesterol

Diabetes mellitus

Estresse do retículo endoplasmático

Produtos finais de glicação

ABC transporters

Advanced glycation end products

Diabetes mellitus

Endoplasmic reticulum stress

Serum albumin cholesterol

Liquorveränderungen bei Meningeosis neoplastica - eine retrospektive Studie (2001-2012) - / Cerebrospinal fluid abnormalities in meningeosis neoplastica: a retrospective 12-year analysis

Trimmel, Ralf

02 May 2018

No description available.

610

Meningeosis neoplastica

Meningeosis carcinomatosa

Meningeosis lymphomatosa

Laktat

Carcinoembryonic antigen(CEA)

Albumin-Liquor/Serum-Quotient

Meningeosis neoplastica

Meningeosis carcinomatosa

Meningeosis lymphomatosa

Lactate

Carcinoembryonic antigen (CEA)

CSF/serum albumin ratio

GOK-MEDIZIN

Design of New Up-conversion Systems for Anticancer Therapies

Anaya González, Cristina

19 July 2021

[ES] El cáncer es una de las principales causas de muerte a nivel mundial. Los tratamientos anticancerígenos generalmente usados tienen diversos efectos secundarios producidos por su baja especificidad. Esta es una de las razones por las que se sigue en continua búsqueda de nuevos tratamientos. Dentro de estas nuevas investigaciones se encuentra el extenso campo de la nanomedicina, es decir, el estudio de nuevos materiales a escala nanométrica. Esta permite reducir dichos efectos secundarios aumentando la selectividad y especificidad de los tratamientos. Dentro de los nanomateriales se encuentran las nanopartículas de upconversion que son capaces de absorber luz en el infrarrojo cercano y emitirla en la región ultravioleta-visible. Por otro lado, desde el principio de la historia de la medicina la luz se ha empleado como forma de tratamiento teniendo un rol muy importante. Un inconveniente para dichos tratamientos suele ser la necesidad de emplear luz de la región ultravioleta-visible, pues las biomoléculas son capaces de absorber y produce daño celular. En este contexto, la presente Tesis Doctoral se centra en el estudio de nuevas formas de tratamiento anticancerígeno combinando nanomedicina y luz. Para ello se han desarrollado nuevos fármacos fototóxicos y nuevos materiales capaces de ser activados mediante luz infrarroja cercana. En primer lugar, se sintetizaron nuevas fluoroquinolonas para explorar sus propiedades fototóxicas para su uso en fotoquimioterapia (Capítulo 3 de la Tesis). Se estudiaron las características fotofísicas y fotoquímicas de los nuevos compuestos, además de su capacidad para producir mayor fototoxicidad en las células en comparación con las fluoroquinolonas como la lomefloxacina mediante la aplicación de luz ultravioleta. En base a los resultados obtenidos se realizó un estudio para determinar las diferencias entre las interacciones de algunas fluoroquinolonas dihalogenadas, incluidas las comentadas anteriormente, y biomoléculas como ADN y proteínas. La reactividad de sus intermedios fotogenerados también se estudió en el Capítulo 4. Tras conocer en profundidad la capacidad fototóxica de los nuevos fármacos, en el Capítulo 5 se llevó a cabo el diseño de un nanosistema compuesto por fluoroquinolonas y nanopartículas de conversión ascendente. Se demostró la alta capacidad fototóxica de este nuevo nanosistema. De esta manera, se generó actividad fototóxica a partir de una fluoroquinolona sin el uso de luz ultravioleta Por otro lado, la formación de profármacos abre la puerta a la administración selectiva de fármacos contra el cáncer. Los profármacos consisten en la unión fotolábil de una molécula capaz de ser activada por la luz y el fármaco de interés. Sin embargo, un conocimiento profundo de las propiedades fotofísicas y fotoquímicas del fotodisparador y de los potenciales redox de ambos miembros de la diada puede ser crucial para obtener la fotoliberación deseada. Así, en el Capítulo 6, se destacó la relevancia de estos datos utilizando un profármaco formado por un derivado de cumarina como molécula fotoactivable y colchicina como fármaco. Finalmente, en el Capítulo 7 se exploró la síntesis de un nuevo nanosistema que contiene un profármaco formado por un derivado de cumarina unido al fármaco contra el cáncer clorambucilo y nanopartículas biocomatibles de conversión ascendente. La adición de albúmina de suero humano como recubrimiento de las nanopartículas cumple la doble función de obtener nanopartículas biocompatibles y ser el lugar de carga del profármaco. / [CA] El càncer és una de les principals causes de mort a nivell mundial. Els tractaments anticancerígens generalment usats tenen diversos efectes secundaris produïts per la seva baixa especificitat. Aquesta és una de les raons per les que se segueix en contínua recerca de nous tractaments. Dins d'aquestes noves investigacions es troba l'extens camp de la nanomedicina, és a dir, l'estudi de nous materials a escala nanomètrica. Aquesta permet reduir aquests efectes secundaris augmentant la selectivitat i especificitat dels tractaments. Dins dels nanomaterials es troben les nanopartícules de upconversion que són capaços d'absorbir llum en l'infraroig proper i emetre-la en la regió ultraviolada-visible. D'altra banda, des del principi de la història de la medicina la llum s'ha emprat com a forma de tractament tenint un paper molt important. Un inconvenient per aquests tractaments sol ser la necessitat d'emprar llum de la regió ultraviolada-visible, ja que les biomolècules són capaços d'absorbir-la i produïr dany cel·lular. En aquest context, la present Tesi Doctoral es centra en l'estudi de noves formes de tractament anticancerigen combinant nanomedicina i llum. Per això s'han desenvolupat nous fàrmacs fototòxics i nous materials capaços de ser activats mitjançant llum infraroja propera. En primer lloc, es van sintetitzar noves fluoroquinolones per explorar les seves propietats fototòxiques per al seu ús en fotoquimioteràpia (Capítol 3 de la Tesi). Es van estudiar les característiques fotofísiques i fotoquímiques dels nous compostos, a més de la seva capacitat per produir major fototoxicitat en les cèl·lules en comparació amb les fluoroquinolones com la lomefloxacina mitjançant l'aplicació de llum ultraviolada. En base als resultats obtinguts es va realitzar un estudi per determinar les diferències entre les interaccions d'algunes fluoroquinolones dihalogenades, incloses les comentades anteriorment, i biomolècules com ADN i proteïnes. La reactivitat de les seves intermedis fotogenerats també es va estudiar en el Capítol 4. Després de conèixer en profunditat la capacitat fototòxica dels nous fàrmacs, en el Capítol 5 es va dur a terme el disseny d'un nanosistema compost per fluoroquinolones i nanopartícules de upconversion. Es va demostrar l'alta capacitat fototòxica d'aquest nou nanosistema. D'aquesta manera, es va generar activitat fototòxica a partir d'una fluoroquinolona sense l'ús de llum ultraviolada D'altra banda, la formació de profàrmacs obre la porta a l'administració selectiva de fàrmacs contra el càncer. Els profàrmacs consisteixen en la unió fotolábil d'una molècula capaç de ser activada per la llum i el fàrmac d'interès. No obstant això, un coneixement profund de les propietats fotofísiques i fotoquímiques del fotodisparador i dels potencials redox de tots dos membres de la diada pot ser crucial per obtenir el fotoalliberament desitjada. Així, en el Capítol 6, es va destacar la rellevància d'aquestes dades utilitzant un profàrmac format per un derivat de cumarina com a molècula fotoactivable i colquicina com a fàrmac. Finalment, en el Capítol 7 es va explorar la síntesi d'un nou nanosistema que conté un profàrmac format per un derivat de cumarina unit a l'fàrmac contra el càncer clorambucilo i nanopartícules biocomatibles de upconversion. L'addició d'albúmina de sèrum humà com a recobriment de les nanopartícules compleix la doble funció d'obtenir nanopartícules biocompatibles i ser el lloc de càrrega del profàrmac. / [EN] Cancer is one of the leading causes of death worldwide. Generally used anticancer treatments have various side effects produced by their low specificity. This is one of the reasons why the search for new treatments continues. Within these new investigations is the extensive field of nanomedicine, which can be explained as the study of new materials on a nanometric scale. It can be translated in the reduction of these side effects by increasing the selectivity and specificity of the treatments. Among the nanomaterials are upconversion nanoparticles that are capable of absorbing light in the near infrared and emit it in the ultraviolet-visible region. On the other hand, since the beginning of the history of medicine, light has been used as a form of treatment, having a very important role. A drawback for such treatments is sometimes the need to use light from the ultraviolet-visible region since biomolecules are capable of absorbing and causing cell damage. In this context, this Doctoral Thesis focuses on the study of new forms of anticancer treatment combining nanomedicine and light. For this, new phototoxic drugs and new materials capable of being activated by near infrared light have been developed. First, new fluoroquinolones were synthesized to explore their phototoxic properties for using in photochemotherapy (Chapter 3 of the Thesis). The photophysical and photochemical characteristics of the new compounds were studied, in addition to their ability to produce greater phototoxicity in cells than fluoroquinolones such as lomefloxacin by applying ultraviolet light. Based on the results obtained, a study was carried out to determine the differences between the interactions of some dihalogenated fluoroquinolones including the above commented, and biomolecules such as DNA and proteins. The reactivity of their photo-generated intermediates was also studied in Chapter 4. After a deep knowledge of the phototoxic capacity of the new drugs, design of a nanosystem composed of fluoroquinolones and upconversion nanoparticles was carried out in Chapter 5. The high phototoxic capacity of this new nanosystem was demonstrated. In this way phototoxic activity was generated from a fluoroquinolone without the use of ultraviolet light. On the other hand, the formation of prodrugs opens a door to the selective administration of anticancer drugs. Prodrugs consist of the photolabile binding of a molecule capable of being activated by light and the drug of interest. However, a knowledge of the photophysical and photochemical properties of the phototrigger as well as the redox potentials of both members of the dyad can be crucial to obtain the desired photorelease. Thus, in Chapter 6, the relevance of these data was highlighted using a prodrug formed by a coumarin derivative as a photoactivatable molecule and colchicine as a drug. Finally, in Chapter 7 the synthesis of a new nanosystem containing a prodrug formed by a derivative of coumarin linked to the anticancer drug chlorambucil, and upconversion biocompatible nanoparticles was explored. The addition of human serum albumin as a coating for the nanoparticles fulfills the dual function of obtaining biocompatible nanoparticles and being the loading site for the prodrug. / Anaya González, C. (2021). Design of New Up-conversion Systems for Anticancer Therapies [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/172665 / TESIS

Fluoroquinolona

Cumarina

Colchicina

Clorambucilo

Profármaco

Fototoxicidad

Albúmina de suero humano (HSA)

Nanosistemas biocompatibles

Liberación de fármacos

Fluoroquinolone

Coumarin

Colchicine

Chlorambucil

Prodrug

Upconversion nanoparticles

Phototoxicity

Human Serum Albumin (HSA)

Biocompatible nanosystem

Drug release

QUIMICA ORGANICA

In Vitro Adsorption of Heavy Metals Using Metal-Organic Frameworks

Ngule, Chrispus M., Jr

17 August 2020

No description available.

Chemistry

Materials Science

Toxicology

Therapy

Environmental Science

Environmental Management

Environmental Health