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Shifting gear in antimicrobial and anticancer peptides biophysical studies : from vesicles to cells
Publication . Freire, João M.; Gaspar, Diana; Veiga, Ana Salomé; Castanho, Miguel A. R. B.
Despite the intensive study on the mechanism of action of membrane-activemolecules such as antimicrobial and anticancer peptides, most of the biophysical work has been performed using artificial model systems, mainly lipid vesicles. The use of these systems allows full control of the experimental parameters, and to obtain molecular-level detail on the action of peptides, the correlation with biological action is intangible. Recently, several biophysicalmethodologies have been translated to studies using bacterial and cancer cells. Here, we review biophysical studies on the mechanism of action of antimicrobial and anticancer peptides performed directly on cells. The data in these studies allow to correlate vesicle-based and cell-based studies and fill the vesicle-cell interdisciplinary gap.
Nucleic acid delivery by cell penetrating peptides derived from dengue virus capsid protein : design and mechanism of action
Publication . Freire, João M.; Veiga, Ana Salomé; Figueiredo, Inês Rego de; Torre, Beatriz G. de la; Santos, Nuno C.; Andreu, David; Poian, Andrea T. da; Castanho, Miguel A. R. B.
Cell penetrating peptides (CPPs) can be used as drug delivery systems for different therapeutic molecules. In this work two novel CPPs, pepR and pepM, designed from two domains of the dengue virus (DENV) capsid protein, were studied for their ability to deliver nucleic acids into cells as non-covalently bound cargo. Translocation studies were performed by confocal microscopy in HepG2, BHK and HEK cell lineages, astrocytes and peripheral blood mononuclear cells. Combined studies in HepG2 cells, astrocytes and BHK cells, at 4 and 37 °C or using specific endocytosis inhibitors, revealed that pepR and pepM use distinct internalization routes: pepM translocates lipid membranes directly, while pepR uses an endocytic pathway. To confirm these results, a methodology was developed to monitor the translocation kinetics of both peptides by real-time flow cytometry. Kinetic constants were determined, and the amount of nucleic acids delivered was estimated. Additional studies were performed in order to understand the molecular bases of the peptide-mediated translocation. Peptide–nucleic acid and peptide–lipid membrane interactions were studied quantitatively based on the intrinsic fluorescence of the peptides. pepR and pepM bound ssDNA to the same extent. Partition studies revealed that both peptides bind preferentially to anionic lipid membranes, adopting an α-helical conformation. However, fluorescence quenching studies suggest that pepM is deeply inserted into the lipid bilayer, in contrast with pepR. Moreover, only pepM is able to promote the fusion and aggregation of vesicles composed of zwitterionic lipids. Altogether, the results show that DENV capsid protein derived peptides serve as good templates for novel CPP-based nucleic acid delivery strategies, defining different routes for cell entry.
Monitoring antibacterial permeabilization in real time using time-resolved flow cytometry
Publication . Freire, João Miguel; Gaspar, Diana; Torre, Beatriz Garcia de la; Veiga, Ana Salomé; Andreu, David; Castanho, Miguel A. R. B.
Despite the intensive study of antibiotic-induced bacterial permeabilization, its kinetics and molecular mechanism remain largely elusive. A new methodology that extends the concept of the live–dead assay in flow cytometry to real time-resolved detection was used to overcome these limitations. The antimicrobial activity of pepR was monitored in time-resolved flow cytometry for three bacterial strains: Escherichia coli (ATCC 25922), E. coli K-12 (CGSC Strain 4401) and E. coli JW3596-1 (CGSC Strain 11805). The latter strain has truncated lipopolysaccharides (LPS) in the outer membrane. This new methodology provided information on the efficacy of the antibiotics and sheds light on their mode of action atmembrane-level. Kinetic data regarding antibiotic binding and lytic actionwere retrieved.Membrane interaction and permeabilization events differ significantly among strains. The truncation of LPS moieties does not hamper AMP binding but compromises membrane disruption and bacterial killing. We demonstrated the usefulness of time-resolved flow cytometry to study antimicrobial-induced permeabilization by collecting kinetic data that contribute to characterize the action of antibiotics directly on bacteria.
Correlation between membrane translocation and analgesic efficacy in kyotorphin derivatives
Publication . Serrano, Isa D.; Ramu, Vasanthakumar G.; Pinto, Antónia R. T.; Freire, João M.; Tavares, Isaura; Heras, Montserrat; Bardaji, Eduard R.; Castanho, Miguel A. R. B.
Amidated kyotorphin (L-Tyr-L-Arg-NH2; KTP-NH2) causes analgesia when systemically administered. The lipophilic ibuprofen-conjugated derivative of KTP-NH2 has improved analgesic efficacy. However, fast degradation by peptidases impacts negatively in the pharmacodynamics of these drugs. In this work, selected derivatives of KTP and KTP-NH2 were synthesized to combine lipophilicity and resistance to enzymatic degradation. Eight novel structural modifications were tested for the potential to transverse lipid membranes and to evaluate their efficacy in vivo. The rationale behind the design of the pool of the eight selected molecules consisted in the addition of individual group atthe N-terminus, namely the tert-butyloxycarbonyl (Boc), -aminobutyric acid (GABA), acetyl, butanoyl, and propanoyl or in the substitution of the tyrosine residue by an indole moiety and in the replacement of the peptidic bond by a urea-like bond in some cases. All the drugs used in the study are intrinsically fluorescent, which enables the use of spectrofluorimetry to sample the drugs in the permeation assays. The results show that the BOC and indolyl derivatives of KTP-NH2 have maximal ability to permeate membranes with concomitant maximal analgesic power. Overall, the results demonstrate that membrane permeation is correlated with analgesic efficacy. However, this is not the only factor accounting for analgesia. KTP-NH2 for instance has low passive permeation but is known to have central action. In this case, hypothetical transcytosis over the blood-brain barrier seems to depend on dipeptide transporters.
The mechanisms and quantification of the selective permeability in transport across biological barriers : the example of kyotorphin
Publication . Serrano, Isa D.; Freire, João M.; Carvalho, Miguel V.; Neves, Mafalda; Melo, Manuel N.; Castanho, Miguel A. R. B.
This paper addresses the mechanisms behind selective endothelial permeability and their regulations. The singular properties of each of the seven blood-tissues barriers. Then, it further revisits the physical, quantitative meaning of permeability, and the way it should be measured based on sound physical chemistry reasoning and methodologies. Despite the relevance of permeability studies one often comes across inaccurate determinations, mostly from oversimplified data analyses. To worsen matters, the exact meaning of permeability is being lost along with this loss of accuracy. The importance of proper permeability calculation is illustrated with a family of derivatives of kyotorphin, an analgesic dipeptide.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
SFRH
Funding Award Number
SFRH/BD/70423/2010