Antimicrobial and immunomodulatory properties of PGLa-AM1, CPF-AM1, and magainin-AM1: Potent activity against oral pathogens

Cationic amphipathic α-helical peptides are intensively studied classes of host defence peptides (HDPs). Three peptides, peptide glycine-leucine-amide (PGLa-AM1), caerulein-precursor fragment (CPF-AM1) and magainin-AM1, originally isolated from norepinephrine-stimulated skin secretions of the African volcano frog Xenopus amieti (Pipidae), were studied for their antimicrobial and immunomodulatory activities against oral and respiratory pathogens. Minimal effective concentrations (MECs), determined by radial diffusion assay, were generally lower than minimal inhibitory concentrations (MICs) determined by microbroth dilution. PGLa-AM1 and CPF-AM1 were particularly active against Streptococcus mutans and all three peptides were effective against Fusobacterium nucleatum, whereas Enterococcus faecalis and Candida albicans proved to be relatively resistant micro-organisms. A type strain of Pseudomonas aeruginosa was shown to be more susceptible than the clinical isolate studied. PGLa-AM1 displayed the greatest propensity to bind lipopolysaccharide (LPS) from Escherichia coli, P. aeruginosa and Porphyromonas gingivalis. All three peptides showed less binding to P. gingivalis LPS than to LPS from the other species studied. Oral fibroblast viability was unaffected by 50. μM peptide treatments. Production of the pro-inflammatory cytokine IL-8 by oral fibroblasts was significantly increased following treatment with 1 or 10. μM magainin-AM1 but not following treatment with PGLa-AM1 or CPF-AM1. In conclusion, as well as possessing potent antimicrobial actions, the X. amieti peptides bound to LPS from three human pathogens and had no effect on oral fibroblast viability. CPF-AM1 and PGLa-AM1 show promise as templates for the design of novel analogues for the treatment of oral and dental diseases associated with bacteria or fungi.

The influence of reusing ‘Formtex’ controlled permeability

The effects of the reuse of ‘Formtex’ Controlled Permeability Formwork (CPF) liner on strength and durability properties of concrete were investigated at two different water-cement ratios and the results are reported in this paper. Test blocks were cast using the CPF on one side and impermeable formwork (IF) on the opposite side of the mould so that direct comparisons could be made between the two. The strength was assessed using the Limpet pulloff tester and both the air permeability and the water absorption (sorptivity) were measured using the Autoclam Permeability System. Both these instruments measured the ‘covercrete’ properties. In addition, cores cut from the test specimens were subjected to an accelerated carbonation test and a chloride exposure test. The results showed that the ‘Formtex’ CPF increases the surface strength and the durability of concrete compared to the IF. There was an almost complete elimination of blowholes. The permeability of concrete decreased and its resistance to the ingress of both carbon dioxide and chlorides increased when CPF was used. The beneficial effects of the Formtex CPF were most evident in concrete of higher water-cement ratio. With the reuse of the Formtex liner twice, that is a total of three uses, the performance of the CPF to improve the properties of concrete remained almost the same. In this research the CPF liner was cleaned thoroughly between each use, which must be adhered to for site applications for reproducing the beneficial effects observed in the laboratory.

EFFECTS OF 3 DURABILITY ENHANCING PRODUCTS ON SOME PHYSICAL-PROPERTIES OF NEAR-SURFACE CONCRETE

This paper investigates the influence of three fundamentally different durability enhancing products, viz. microsilica, controlled permeability formwork and silane, on some of the physical proper ties of near surface concrete. Microsilica (silica fume) is a pozzolan, controlled permeability formwork (CPF) is used to provide a free draining surface to a concrete form, while silane is a surface treatment applied to hardened concrete to reduce the ingress of water. Comparisons are made between the products when used individually and used in conjunction with each other, with a view to assessing whether the use of combinations of products may be desirable to improve the durability of concrete in certain circumstances. The effect of these materials on various durability parameters, such as freeze-thaw deterioration, carbonation resistance and chloride ingress, is considered in terms of their effect on permeation properties and surface strength. The results indicated that a combination of silane and CPF produces concrete with very low air permeability and sorptivity values. The influence of microsilica was more pronounced in increasing the surface strength of concrete.

Antibacterial Activity of Peptides from the African Volcano Frog

Introduction: Cationic, α- helical antimicrobial peptides found in skin secretions of the African Volcano Frog, Xenopus amieti include magainin-AM1, peptide glycine-leucine-amide (PGLa-AM1) and caerulein-precursor fragment (CPF-AM1). Objectives: The principle objective of this study was to determine the antibacterial activity of these peptides against a range of aerobic and anaerobic and oral pathogens. Secondary objectives were to establish their lipopolysaccharide (LPS) binding activity and determine potential cytotoxic effects against host cells. Methods: Magainin-AM1, PGLa-AM1 and CPF-AM1 were assessed for their antimicrobial activity against Fusobacteriim nucleatum, Streptococcus mutans, Lactobacillus acidophilus, Enterococcus faecalis and Streptococcus milleri using a double layer radial diffusion assay. The propensity for each peptide to bind LPS was determined using an indirect ELISA. The potential cytotoxicity of the peptides against human pulp cells in vitro was determined using the 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. Results: Magainin-AM1, PGLa-AM1 and CPF-AM1 displayed potent antimicrobial activity against all the bacterial pathogens tested, with Magainin-AM1 being the least effective. PGLa-AM1 was most potent against S. mutans, with a minimum inhibitory concentration (MIC) of 1.2 μM. PGLa-AM1 and CPF-AM1 were both very active against F. nucleatum with MIC values of 1.5 μM and 2.2 μM respectively. The LPS binding ability of the peptides varied depending on the bacterial source of the LPS, with PGLa-AM-1 being the most effective at binding LPS. Cytotoxicity studies revealed all three peptides lacked cytotoxic effects at the concentrations tested. Conclusions: The peptides magainin-AM1, PGLa-AM1 and CPF-AM1 from the African Volcano Frog, Xenopus amieti displayed potent antimicrobial activity and LPS binding activity against a range of oral pathogens with little cytotoxic effects. These peptides merit further studies for the development of novel therapeutics to combat common oral bacterial infections.