Ana Maria Carmona-Ribeiro scite author profile

Cationic compounds are promising candidates for development of antimicrobial agents. Positive charges attached to surfaces, particles, polymers, peptides or bilayers have been used as antimicrobial agents by themselves or in sophisticated formulations. The main positively charged moieties in these natural or synthetic structures are quaternary ammonium groups, resulting in quaternary ammonium compounds (QACs). The advantage of amphiphilic cationic polymers when compared to small amphiphilic molecules is their enhanced microbicidal activity. Besides, many of these polymeric structures also show low toxicity to human cells; a major requirement for biomedical applications. Determination of the specific elements in polymers, which affect their antimicrobial activity, has been previously difficult due to broad molecular weight distributions and random sequences characteristic of radical polymerization. With the advances in polymerization control, selection of well defined polymers and structures are allowing greater insight into their structure-antimicrobial activity relationship. On the other hand, antimicrobial polymers grafted or self-assembled to inert or non inert vehicles can yield hybrid antimicrobial nanostructures or films, which can act as antimicrobials by themselves or deliver bioactive molecules for a variety of applications, such as wound dressing, photodynamic antimicrobial therapy, food packing and preservation and antifouling applications.

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pH-dependent Interaction of Cytochrome c with Mitochondrial Mimetic Membranes

Kawai

Prado

Nunes

et al. 2005

Journal of Biological Chemistry

104

168

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The interaction of cytochrome c (cyt c) with mitochondrial mimetic vesicles of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine, 1,2-dipalmitoyl-sn-glycero-3-phosphoethanolamine, and heart cardiolipin (PCPECL) was investigated over the 7.4 -6.2 pH range by means of turbidimetry and photon correlation spectroscopy. In the presence of cyt c, the decrease of pH induced an increase in vesicle turbidity and mean diameter resulting from vesicle fusion as determined by a rapid decrease in the excimer/monomer ratio of 2-(10-(1-pyrene)-decanoyl)-phosphatidylcholine (PyPC). N-acetylated cyt c and protamine, a positively charged protein, increased vesicle turbidity in a pH-independent manner, whereas albumin did not affect PCPECL vesicle turbidity. pH-dependent turbidity kinetics revealed a role for cyt c-ionizable groups with a pK a(app) of ϳ7.0. The carbethoxylation of these groups by diethylpyrocarbonate prevented cyt c-induced vesicle fusion, although cyt c association to vesicles remained unaffected. Matrix-assisted laser desorption ionization time-of-flight analysis revealed that Lys-22, Lys-27, His-33, and Lys-87 cyt c residues were the main targets for carbethoxylation performed at low pH values (<7.5). In fact, these amino acid residues belong to clusters of positively charged amino acids that lower the pK a . Thus, at low pH, protonation of these invariant and highly conserved amino acid residues produced a second positively charged region opposite to the Lys-72 and Lys-73 region in the cyt c structure. These two opposing sites allowed two vesicles to be brought together by the same cyt c molecule for fusion. Therefore, a novel pH-dependent site associating cyt c to mitochondrial mimetic membranes was established in this study.

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Synthetic amphiphile vesicles

1992

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Physical Adsorption of Bilayer Membranes on Silica

Rapuano

Carmona-Ribeiro

1997

Journal of Colloid and Interface Science

110

134

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Synthetic bilayer adsorption onto polystyrene microspheres

Carmona-Ribeiro¹,

Midmore²

1992

Langmuir

140

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Supported Bilayers On Silica

Rapuano¹,

Carmona-Ribeiro²

2000

Journal of Colloid and Interface Science

126

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Cationic lipids and surfactants as antifungal agents: mode of action

Vieira

Carmona-Ribeiro

2006

Journal of Antimicrobial Chemotherapy

190

109

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Novel immunoadjuvants based on cationic lipid: Preparation, characterization and activity in vivo

Lincopán

Espíndola

Vaz

et al. 2009

Vaccine

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The interactions between three different protein antigens and dioctadecyldimethylammonium bromide (DODAB) dispersed in aqueous solutions from probe sonication or adsorbed as one bilayer onto particles was comparatively investigated. The three model proteins were bovine serum albumin (BSA), purified 18 kDa/14 kDa antigens from Taenia crassiceps (18/14-Tcra) and a recombinant, heat-shock protein hsp-18 kDa from Mycobacterium leprae. Protein-DODAB complexes in water solution were characterized by dynamic light scattering for sizing and zeta-potential analysis. Cationic complexes (80-100 nm of mean hydrodynamic diameter) displayed sizes similar to those of DODAB bilayer fragments (BF) in aqueous solution and good colloid stability over a range of DODAB and protein concentrations. The amount of cationic lipid required for attaining zero of zeta-potential at a given protein amount depended on protein nature being smaller for 18 kDa/14 kDa antigens than for BSA. Mean diameters for DODAB/protein complexes increased, whereas zeta-potentials decreased with NaCl or protein concentration. In mice, weak IgG production but significant cellular immune responses were induced by the complexes in comparison to antigens alone or carried by aluminum hydroxide as shown from IgG in serum determined by ELISA, delayed type hypersensitivity reaction from footpad swelling tests and cytokines analysis. The novel cationic adjuvant/protein complexes revealed good colloid stability and potential for vaccine design at a reduced DODAB concentration.

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