Estudo e desenvolvimento de lipossomas com potencial para aplicação em base cosmética / Study and development of liposomes with potencial cosmetic application

Farkuh, Laura

04 February 2016

A acne vulgar é uma das doenças cutâneas mais comuns, apresentando como um de seus fatores fisiopatológicos primários a colonização pelo microrganismo Propionibacterium acnes. Atualmente, têm-se buscado terapias alternativas para o combate ao P. acnes, destacando-se alguns ácidos graxos, como o ácido laúrico (LA). O LA é uma molécula pouco solúvel em água, sendo possível sua incorporação em lipossomas. Os lipossomas apresentam capacidade de encapsulação/ liberação de ativos e impedem a desidratação da pele, tornando-se ingredientes inovadores na área de cosméticos. Foram preparados lipossomas de dipalmitoilfosfatidilcolina (DPPC) contendo diferentes concentrações de LA, que variaram de 0 a 50% da concentração total em mol, em quatro pHs: 9,0, 7,4, 5,0 e 3,0. Nestes pHs o estado de protonação do LA muda variando de 0 a -1. Os lipossomas foram extrusados por filtros com poros de 100 nm de diâmetro visando à obtenção de vesículas unilamelares grandes (LUV). As LUV foram caracterizadas quanto a sua estabilidade em condições de prateleira, temperatura de transição de fase da bicamada, encapsulamento no interior aquoso, liberação do LA, difusão das vesículas na pele e seus aspectos morfológicos foram caracterizados por espalhamento de raios-X a baixo ângulo (SAXS) e crio-microscopia eletrônica de transmissão. Estudos de estabilidade mostraram que independentemente da concentração de LA, as formulações são mais estáveis em pHs mais altos, quando LA está em sua maioria na forma de laurato. Os experimentos de DSC revelaram que em pHs 3,0 e 5,0 e concentrações maiores de LA, a interação deste ácido graxo com as bicamadas é favorecida, havendo um aumento da temperatura de transição de fase (Tm) e diminuição da cooperatividade. Análises de taxa de incorporação de sondas hidrofílicas confirmaram a presença de um compartimento aquoso interno para as vesículas de DPPC:LA. O LA conseguiu permear a pele no período avaliado e pouco LA foi liberado das vesículas em condições de temperatura ambiente. A morfologia das LUV se mostrou bem diferente da esperada e se observaram vesículas com mais de uma bicamada e outros formatos que não o esférico. Estes resultados podem auxiliar na otimização das condições para uma formulação que poderá ser usada no tratamento da acne, aumentando a eficácia do LA no sítio alvo. / Acne vulgaris is one of the most common skin diseases, presenting as one of its causes the microorganism Propionibacterium acnes colonization. Currently, it has been sought alternatives therapies against P. acnes, especially some fatty acids, like the lauric acid (LA). LA is a molecule with low water solubility, allowing its incorporation in liposomes. Liposomes have encapsulation/release capacity of drugs and promote skin lipids regeneration, becoming an innovative ingredient in cosmetics area. Dipalmitoylphosphatidylcholine (DPPC) vesicles containing different LA concentrations were prepared at pHs: 9.0, 7.4, 5.0 and 3.0. At these pHs the LA protonation changes and its charge varies from 0 to -1. The vesicles were extruded through filters containing pores of 100 nm to obtain large unilamellar vesicles (LUV) that were characterized for stability in shelf conditions, bilayer phase transition temperature, aqueous internal compartment encapsulation, LA release and in vitro skin permeation. Its morphological features were characterized by small angle X-ray scattering (SAXS) and cryo-electron transmission microscopy. Stability assays showed that, regardless LA concentration, formulations were more long-term stable in higher pHs, when LA is mostly in the form of laurate. The differential scanning calorimetry, DSC, experiments showed that, at pHs 3.0 and 5.0 and higher LA concentrations, the interaction between the bilayer and LA is favored, increasing phase transition temperature (Tm) and reducing cooperativity. Incorporation of hydrophilic probes confirmed the presence of an internal aqueous compartment in DPPC:LA vesicles. The LA managed to permeate the skin on the period evaluated and, in ambient conditions, low LA concentration was released from the vesicles. LUV containing more than one bilayer and non-spherical structures were observed. The obtained results may help in the optimization of the conditions for a formulation that can be used in the treatment of acne and improving the effectiveness of LA delivery to the target site.

Ácido Láurico

Acne vulgar

Acne vulgaris

Large unilamellar vesicles

Lauric acid

Vesículas unilamelares grandes

Estudo e desenvolvimento de lipossomas com potencial para aplicação em base cosmética / Study and development of liposomes with potencial cosmetic application

Laura Farkuh

04 February 2016

A acne vulgar é uma das doenças cutâneas mais comuns, apresentando como um de seus fatores fisiopatológicos primários a colonização pelo microrganismo Propionibacterium acnes. Atualmente, têm-se buscado terapias alternativas para o combate ao P. acnes, destacando-se alguns ácidos graxos, como o ácido laúrico (LA). O LA é uma molécula pouco solúvel em água, sendo possível sua incorporação em lipossomas. Os lipossomas apresentam capacidade de encapsulação/ liberação de ativos e impedem a desidratação da pele, tornando-se ingredientes inovadores na área de cosméticos. Foram preparados lipossomas de dipalmitoilfosfatidilcolina (DPPC) contendo diferentes concentrações de LA, que variaram de 0 a 50% da concentração total em mol, em quatro pHs: 9,0, 7,4, 5,0 e 3,0. Nestes pHs o estado de protonação do LA muda variando de 0 a -1. Os lipossomas foram extrusados por filtros com poros de 100 nm de diâmetro visando à obtenção de vesículas unilamelares grandes (LUV). As LUV foram caracterizadas quanto a sua estabilidade em condições de prateleira, temperatura de transição de fase da bicamada, encapsulamento no interior aquoso, liberação do LA, difusão das vesículas na pele e seus aspectos morfológicos foram caracterizados por espalhamento de raios-X a baixo ângulo (SAXS) e crio-microscopia eletrônica de transmissão. Estudos de estabilidade mostraram que independentemente da concentração de LA, as formulações são mais estáveis em pHs mais altos, quando LA está em sua maioria na forma de laurato. Os experimentos de DSC revelaram que em pHs 3,0 e 5,0 e concentrações maiores de LA, a interação deste ácido graxo com as bicamadas é favorecida, havendo um aumento da temperatura de transição de fase (Tm) e diminuição da cooperatividade. Análises de taxa de incorporação de sondas hidrofílicas confirmaram a presença de um compartimento aquoso interno para as vesículas de DPPC:LA. O LA conseguiu permear a pele no período avaliado e pouco LA foi liberado das vesículas em condições de temperatura ambiente. A morfologia das LUV se mostrou bem diferente da esperada e se observaram vesículas com mais de uma bicamada e outros formatos que não o esférico. Estes resultados podem auxiliar na otimização das condições para uma formulação que poderá ser usada no tratamento da acne, aumentando a eficácia do LA no sítio alvo. / Acne vulgaris is one of the most common skin diseases, presenting as one of its causes the microorganism Propionibacterium acnes colonization. Currently, it has been sought alternatives therapies against P. acnes, especially some fatty acids, like the lauric acid (LA). LA is a molecule with low water solubility, allowing its incorporation in liposomes. Liposomes have encapsulation/release capacity of drugs and promote skin lipids regeneration, becoming an innovative ingredient in cosmetics area. Dipalmitoylphosphatidylcholine (DPPC) vesicles containing different LA concentrations were prepared at pHs: 9.0, 7.4, 5.0 and 3.0. At these pHs the LA protonation changes and its charge varies from 0 to -1. The vesicles were extruded through filters containing pores of 100 nm to obtain large unilamellar vesicles (LUV) that were characterized for stability in shelf conditions, bilayer phase transition temperature, aqueous internal compartment encapsulation, LA release and in vitro skin permeation. Its morphological features were characterized by small angle X-ray scattering (SAXS) and cryo-electron transmission microscopy. Stability assays showed that, regardless LA concentration, formulations were more long-term stable in higher pHs, when LA is mostly in the form of laurate. The differential scanning calorimetry, DSC, experiments showed that, at pHs 3.0 and 5.0 and higher LA concentrations, the interaction between the bilayer and LA is favored, increasing phase transition temperature (Tm) and reducing cooperativity. Incorporation of hydrophilic probes confirmed the presence of an internal aqueous compartment in DPPC:LA vesicles. The LA managed to permeate the skin on the period evaluated and, in ambient conditions, low LA concentration was released from the vesicles. LUV containing more than one bilayer and non-spherical structures were observed. The obtained results may help in the optimization of the conditions for a formulation that can be used in the treatment of acne and improving the effectiveness of LA delivery to the target site.

Ácido Láurico

Acne vulgar

Vesículas unilamelares grandes

Acne vulgaris

Large unilamellar vesicles

Lauric acid

Mechanism of lipopolyamine-induced immunotozin sensitization in cancer cells

Haynes, Elizabeth M.

01 January 2010

Immunotoxins (ITx) represent a new, alternate class of therapeutic agent. ITx is made when the active part of a toxin is conjugated with the binding portion of an antibody that recognizes a cancer-specific antigen. The antibody component makes ITx highly specific, as it will only bind to cells displaying the correct surface antigen. This characteristic lowers the chance of nonspecific cell damage, which causes many of the severe side effects of other chemotherapeutics. The ITx we use is a conjugate of saporin toxin. Saporin is a ribosomal inhibiting protein derived from the plant Saponaria officinales, which kills the cell by inhibiting protein synthesis. ITx enters the cancer cell by binding to the cellular marker it is specific for on the cell surface. From there, it is endocytosed, compartmentalized in an endosome, and eventually escapes to the cytosol where its ribosomal target is located. Increasing the rate of escape to the cytosol is the key to increasing cell death. The mechanism by which saporin escapes the endosome and enters the cytosol is poorly understood. Two potential mechanisms involving the rupture of the endocytic vesicle were examined. Through experiments using large unilamellar vesicles as endosomal mimics, we have been able to characterize the mechanism by which saporin works to burst the endosomal membrane through RET and calcein release. Understanding this process is the key to producing more effective immunotoxin sensitizing drugs.

Microbiology

Molecular Biology

Biophysical studies of peptides with functions in biotechnology and biology

Madani, Fatemeh

January 2012

My thesis concerns spectroscopic studies (NMR, CD and fluorescence) of peptides with functions in biotechnology and biology, and their interactions with a model membrane (large unilamellar phospholipid vesicles). The resorufin-based arsenical hairpin binder (ReAsH) bound to a short peptide is a useful fluorescent tag for genetic labeling of proteins in living cells. A hairpin structure with some resemblance to type II β-turn was determined by NMR structure calculations (Paper I). Cell-penetrating peptides (CPPs) are short (30-35 residues), often rich in basic amino acids such as Arg. They can pass through the cell membrane and deliver bioactive cargoes, making them useful for biotechnical and pharmacological applications. The mechanisms of cellular uptake and membrane translocation are under debate. Understanding the mechanistic aspects of CPPs is the major focus of Papers II, III, and IV. The effect of the pyrenebutyrate (PB) on the cellular uptake, membrane translocation and perturbation of several CPPs from different subgroups was investigated (Paper II). We concluded that both charge and hydrophobicity of the CPP affect the cellular uptake and membrane translocation efficiency. Endosomal escape is a crucial challenge for the CPP applications. We modeled the endosome and endosomal escape for different CPPs to investigate the corresponding molecular mechanisms (Papers III and IV). Hydrophobic CPPs were able to translocate across the model membrane in the presence of a pH gradient, produced by bacteriorhodopsin proton pumping, whereas a smaller effect was observed for hydrophilic CPPs. Dynorphin A (Dyn A) peptide mutations are associated with neurodegenerative disorders, without involvement of the opioid receptors. The non-opioid activities of Dyn A may involve membrane perturbations. Model membrane-perturbations by three Dyn A mutants were investigated (Paper V). The results showed effects to different degrees largely in accordance with their neurotoxic effects. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

Genetic fluorescence label

Biarsenical tetracysteine motif

Cell-penetrating peptides

Large unilamellar vesicles

Pyrenebutyrate

Endosomal escape

Membrane perturbation

Bacteriorhodopsin

Dynorphin