Cyclobutane Scaffold in Bolaamphiphiles: Effect of Diastereoisomerism and Regiochemistry on Their Surface Activity Aggregate Structure

Pi-Boleda, Bernat; Sorrenti, Alessandro; Sans, Marta; Illa, Ona; Branchadell, Vicenç; Ortuño, Rosa M.

doi:10.1021/acs.langmuir.8b01462

Cited by 8 publications

(7 citation statements)

References 34 publications

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“…50 Surface Tension Measurements. Surface tension was measured using a homemade pendant droplet instrument as described by Pi-Boleda et al 51 Briefly, aqueous (0.5% DMSO) solutions of the peptides were prepared at a concentration of 20 μM. Those solutions were visually inspected to discard the presence of precipitates and were further diluted with 3% DMSO.…”

Section: ■ Experimental Proceduresmentioning

confidence: 99%

Peptide Amphiphilic-Based Supramolecular Structures with Anti-HIV-1 Activity

et al. 2021

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In a previous work, we defined a novel HIV-1 fusion inhibitor peptide (E1P47) with a broad spectrum of activity against viruses from different clades, subtypes, and tropisms. With the aim to enhance its efficacy, in the present work we address the design and synthesis of several peptide amphiphiles (PAs) based on the E1P47 peptide sequence to target the lipid rafts of the cell membrane where the cell–cell fusion process takes place. We report the synthesis of novel PAs having a hydrophobic moiety covalently attached to the peptide sequence through a hydrophilic spacer of polyethylene glycol. Characterization of self-assembly in condensed phase and aqueous solution as well as their interaction with model membranes was analyzed by several biophysical methods. Our results demonstrated that the length of the spacer of polyethylene glycol, the position of the peptide conjugation as well as the type of the hydrophobic residue determine the antiviral activity of the construct. Peptide amphiphiles with one alkyl tail either in C-terminus ( C -PA monoalkyl ) or in N-terminus ( N -PA monoalkyl ) showed the highest anti-HIV-1 activities in the cellular model of TZM-bl cells or in a preclinical model of the human mucosal tissue explants.

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Section: ■ Experimental Proceduresmentioning

confidence: 99%

Peptide Amphiphilic-Based Supramolecular Structures with Anti-HIV-1 Activity

et al. 2021

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“…The droplet contour was taken at the point of maximum slope of the intensity and was fitted to the Laplace-Young equation using a homemade golden section search algorithm. [48] Water was put in the droplet chamber to prevent evaporation.…”

Section: Surfactant Concentration Determinationmentioning

confidence: 99%

MWNTs or PEG as Stability Enhancers for DNA–Cationic Surfactant Gel Particles

Mezei

2021

IJMS

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Cationic surfactants interact with DNA (Deoxyribonucleic acid), forming surfactant-DNA complexes that offer particularly efficient control for encapsulation and release of DNA from DNA gel particles. In the present work, DNA-based particles were prepared using CTAB (Cetyltrimethylammonium bromide) as the cationic surfactant and modified using two different additives: (Multi-Walled Carbon Nanotubes) MWNT or PEG (Poly Ethylene Glycol). The use of both additives to form composites increased the stability of the gel particles. The stability was monitored by the release of DNA and CTAB in different pH solutions. However, not much is known about the influence of pH on DNA–surfactant interaction and the release of DNA and surfactant from gel particles. It was observed that the solubilization of DNA occurs only in very acid media, while that of CTAB does not depend on pH and gets to a plateau after about 8 h. Within 2 h in contact with a pH = 2 solution, about 1% DNA and CTAB was released. Complete destruction for the gel particles was observed in pH = 2 solution after 17 days for PEG and 20 days for MWNT. The composite particles show a considerably enlarged sustained release span compared to the unmodified ones. The dehydration-rehydration studies show that the structure of the composite gel particles, as determined from SAXS (Small-Angle-X-Ray-Scattering) experiments, is similar to that of the unmodified ones. These studies will allow a better knowledge of these particles’ formation and evolution in view of possible applications in drug delivery and release.

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“…40,41 Among amino acids, chiral cyclobutane-containing β-amino acid-based surfactants have shown interesting abilities. They are tuned by the relative cis/trans stereochemistry and by the stereochemical constraints imposed by the cyclobutane ring as well as the positive 42 or negative 43 charge or their nonionic character. 44 All these features confer great versatility to these derivatives as they strongly influence their aggregation properties.…”

Section: ■ Introductionmentioning

confidence: 99%

Efficient DNA Condensation Induced by Chiral β-Amino Acid-Based Cationic Surfactants

Pi-Boleda

Ramisetty

Illa

et al. 2021

ACS Appl. Bio Mater.

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Four cationic chiral amino acid-based surfactants, cis-and trans-1 and cis-and trans-2, have been studied as DNAcondensing agents with enhanced properties and the absence of cell toxicity. The polar head of the surfactant is made of a cyclobutane β-amino acid in which the amino group is a hydrochloride salt and the carboxyl group is involved in an amide bond, allowing the link with hydrophobic C 12 (surfactant 1) or C 16 (surfactant 2) chains. The ability of these surfactants to condense DNA was investigated using a dye exclusion assay, gel electrophoresis, and circular dichroism and compared with the well-studied dodecyltrimethylammonium bromide (DTAB) and cetyltrimethylammonium bromide (CTAB). The surfactant with the longest chain length and the trans stereochemistry (trans-2) was found to be the most efficient in condensing the DNA, including CTAB. Surfactant cis-2 was found to be less efficient, probably due to its poorer solubility. The βamino acid surfactants with the shorter chain length behaved similarly, such that the cis/trans stereochemistry does not seem to play a role in this case. Interestingly, these were also found to induce DNA condensation for the same concentration as trans-2 and CTAB but showed a lower binding cooperativity. Therefore, a longer alkyl chain only slightly improved the effectiveness of these surfactants. Further, atomic force microscopy revealed that they compact DNA into small complexes of about 55−110 nm in diameter.

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Cyclobutane Scaffold in Bolaamphiphiles: Effect of Diastereoisomerism and Regiochemistry on Their Surface Activity Aggregate Structure

Cited by 8 publications

References 34 publications

Peptide Amphiphilic-Based Supramolecular Structures with Anti-HIV-1 Activity

Peptide Amphiphilic-Based Supramolecular Structures with Anti-HIV-1 Activity

MWNTs or PEG as Stability Enhancers for DNA–Cationic Surfactant Gel Particles

Efficient DNA Condensation Induced by Chiral β-Amino Acid-Based Cationic Surfactants

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