1,3,5-Triazine as Branching Connector for the Construction of Novel Antimicrobial Peptide Dendrimers: Synthesis and Biological Characterization.

Peptides displaying antimicrobial properties are being regarded as useful tools to evade and combat antimicrobial resistance, a major public health challenge. Here we have addressed dendrimers, attractive molecules in pharmaceutical innovation and development displaying broad biological activity. Triazine-based dendrimers were fully synthesized in the solid phase, and their antimicrobial activity and some insights into their mechanisms of action were explored. Triazine is present in a large number of compounds with highly diverse biological targets with broad biological activities and could be an excellent branching unit to accommodate peptides. Our results show that the novel peptide dendrimers synthesized have remarkable antimicrobial activity against Gram-negative bacteria (E. coli and P. aeruginosa) and suggest that they may be useful in neutralizing the effect of efflux machinery on resistance.

Naturally Occurring Oxazole-Containing Peptides.

Oxazole-containing peptides are mostly of marine origin and they form an intriguing family with a broad range of biological activities. Here we classify these peptides on the basis of their chemical structure and discuss a number of representatives of each class that reflect the extraordinary potential of this family as a source of new drugs.

Formation of Nα-terminal 2-dialkyl amino oxazoles from guanidinated derivatives under mild conditions.

Oxazole-containing peptides are an important class of molecules in medicinal chemistry programs. Here we describe a convenient solid-phase synthesis of Nα-terminal oxazole peptides. The strategy took advantage of an intramolecular rearrangement side reaction that occurred during the guanidination of the Nα-amino function of a peptide still anchored on the solid-support. The substitution map of the N,N-dialkylamino oxazole obtained using this strategy differed completely from the one achieved through the heterocyclization of the Ser or Thr side chain with the preceding carbonyl group, which is a common approach for the preparation of these compounds. This unexpected reaction was observed with N-terminal aromatic and aliphatic amino acids that have a Gly as the last before residue in both short as well as long peptides; however, it does not form the oxazole ring if Gly was substituted with other amino acids.

Antimicrobial Peptide Synergies for Fighting Infectious Diseases.

Antimicrobial peptides (AMPs) are essential elements of thehost defense system. Characterized by heterogenous structures and broad-spectrumaction, they are promising candidates for combating multidrug resistance. Thecombined use of AMPs with other antimicrobial agents provides a new arsenal ofdrugs with synergistic action, thereby overcoming the drawback of monotherapiesduring infections. AMPs kill microbes via pore formation, thus inhibitingintracellular functions. This mechanism of action by AMPs is an advantage overantibiotics as it hinders the development of drug resistance. The synergisticeffect of AMPs will allow the repurposing of conventional antimicrobials andenhance their clinical outcomes, reduce toxicity, and, most significantly,prevent the development of resistance. In this review, various synergies ofAMPs with antimicrobials and miscellaneous agents are discussed. The effect ofstructural diversity and chemical modification on AMP properties is firstaddressed and then different combinations that can lead to synergistic action,whether this combination is between AMPs and antimicrobials, or AMPs andmiscellaneous compounds, are attended. This review can serve as guidance whenredesigning and repurposing the use of AMPs in combination with other antimicrobialagents for enhanced clinical outcomes.

Novel CA(1-7)M(2-9) Analogs: Synthesis, Characterization, and Antibacterial Evaluation.

Hybrid peptides from cecropin A and melittin have attracted the interest of the research community for decades. Here we synthesized several new analogs of the pentadecapeptide CA(1-7)M(2-9) and studied their antibacterial and hemolytic activity and tryptic stability. Single substitution of the Lys residues by Arg did not have a significant impact on the antibacterial activity of these analogs, but the substitution of the five Lys residues by Arg resulted in an increment in hemolytic activity. In contrast, the substitution of Lys residues by Orn conserved the antibacterial activity, with even lower hemolysis, and improved the enzymatic stability. The disulfide cyclic version of CA(1-7)M(2-9) was obtained by adding a Cys residue to each end of the peptide and carrying out a chemoselective thiol-disulfide interchange using sec-isoamylmecaptan as protecting group of one of these residues. This cyclic peptide showed good antibacterial activity with low hemolysis and improved enzymatic stability.

Synthesis and application of cationised cellulose for removal of Cr(VI) from acid mine-drainage contaminated water.

Background: Acid mine drainage (AMD) leads to contamination of surface and ground water by high levels of toxic metals including chromium. In many cases, these waters are sources of drinking water for communities, and treatment is therefore required before consumption to prevent negative health effects. Methods: Cationised hemp cellulose was prepared by etherification with two quaternary ammonium salts: 3-chloro-2-hydroxypropyl trimethyl ammonium chloride (CHPTAC) and glycidyltrimethylammonium chloride (GTMAC) and examined for (i) the efficiency of Cr(VI) removal under acid mine-drainage (AMD) conditions, and (ii) antibacterial activity. Adsorbents were characterised by electron microscopy, Fourier transform infrared (FTIR), CP-MAS 13C nuclear magnetic resonance (NMR) spectroscopy, elemental composition and surface charge. Results: FTIR and solid state 13C NMR confirmed the introduction of quaternary ammonium moieties on cellulose. 13C NMR also showed that cationisation decreased the degree of crystallisation and lateral dimensions of cellulose fibrils. Nevertheless, 47 %  - 72 % of Cr(VI) ions were removed from solutions at pH 4, by 0.1 g of CHPTAC and GTMAC-cationised cellulose, respectively. Adsorption kinetics followed the pseudo-second order model and isotherms were best described by the Freundlich and Dubinin-Radushkevich models. When GTMAC-modified cellulose was applied to AMD contaminated water (pH 2.7); however, Cr(VI) removal decreased to 22% likely due to competition from Al and Fe ions. Cationised materials displayed considerable antibacterial effects, reducing the viability of Escherichia coli by up to 45 % after just 3 hours of exposure. Conclusions: Together, these results suggest that cationised cellulose can be applied in the treatment of Cr(VI)-contaminated mine water particularly if pre-treatments to reduce Fe and Al concentrations are applied.