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A3-APO

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A3-APO is an antimicrobial peptide produced by Synthetic construct. It has antibacterial activity.

Category
Functional Peptides
Catalog number
BAT-013191
Synonyms
(H-Chex-Arg-Pro-Asp-Lys-Pro-Arg-Pro-Tyr-Leu-Pro-Arg-Pro-Arg-Pro-Pro-Arg-Pro-Val-Arg)2-Dab-NH2 (where Chex is 1-amino-cyclohexane carboxylic acid and Dab is 2,4-diamino-butyric acid)
Purity
97%
Sequence
RPDKPRPYLPRPRPPRPVR
Storage
Store at -20°C
1. The antibacterial effect of a proline-rich antibacterial peptide A3-APO
F Rozgonyi, D Szabo, B Kocsis, E Ostorházi, G Abbadessa, M Cassone, J D Wade, L Otvos Jr Curr Med Chem. 2009;16(30):3996-4002. doi: 10.2174/092986709789352295.
Antimicrobial resistance is an emerging worldwide concern in light of the widespread antimicrobial drug use in humans, livestock and companion animals. The treatment of life-threatening infections is especially problematic because clinical strains rapidly acquire multiple-drug resistance. Antimicrobial peptides have long been considered to be viable alternatives to small molecule antibiotics. However, the peptides' parenteral use is frequently hampered by inadequate safety margins and rapid renal clearance leaving them suitable only for topical applications. The proline-rich peptide A3-APO represents a family of a new class of synthetic dimers that kill bacteria by a dual mode of action and carry domains for interaction with both the bacterial membrane and an intracellular target. From a series of designer antibacterial peptides, A3-APO emerged as a viable preclinical candidate by virtue of its superior ability to disintegrate the bacterial membrane, inhibit the 70-kDa heat shock protein DnaK alone or in synergy with small molecule antibiotics, lack of eukaryotic toxicity and withstand proteolytic degradation in body fluids. As many other proline-rich peptides, A3-APO binds to the C-terminal helical lid of bacterial DnaK and inhibits chaperone-assisted protein folding in bacteria but not in mammalian Hsp70. In this review, the structure, pharmacokinetic properties, antimicrobial spectrum of peptide A3-APO and its in vivo metabolite are summarized and the in vitro and in vivo antimicrobial effects (antimicrobial susceptibilities, postantibiotic effects, resistance induction) are discussed in detail.
2. Preclinical advantages of intramuscularly administered peptide A3-APO over existing therapies in Acinetobacter baumannii wound infections
Eszter Ostorhazi, et al. J Antimicrob Chemother. 2010 Nov;65(11):2416-22. doi: 10.1093/jac/dkq337. Epub 2010 Sep 1.
Objectives: The designer antibacterial peptide A3-APO is efficacious in mouse models of Escherichia coli and Acinetobacter baumannii systemic infections. Here we compare the efficacy of the peptide with that of imipenem and colistin in A. baumannii wound infections after burn injury. Methods: CD-1 mice were inflicted with burn wounds and different inocula of A. baumannii, isolated from an injured soldier, were placed into the wound sites. The antibiotics were given intramuscularly (im) one to five times. Available free peptide in the blood and the systemic toxicity of colistin and A3-APO were studied in healthy mice. Results: While toxicity of colistin was observed at 25 mg/kg bolus drug administration, the lowest toxic dose of A3-APO was 75 mg/kg. In the A. baumannii blast injury models, 5 mg/kg A3-APO improved survival and reduced bacterial counts in the blood as well as in the wounds and improved wound appearance significantly better than any other antibiotic treatment. The free peptide concentration in the blood did not reach 1 µg/mL. Conclusions: Peptide A3-APO, with an intramuscular therapeutic index of 15, is more efficacious and less toxic than any existing burn injury infection therapy modality against multidrug-resistant Gram-negative pathogens. A3-APO administered by the im route probably binds to a biopolymer that promotes the peptide's biodistribution.
3. Intramuscularly administered peptide A3-APO is effective against carbapenem-resistant Acinetobacter baumannii in mouse models of systemic infections
Eszter Ostorhazi, et al. Biopolymers. 2011;96(2):126-9. doi: 10.1002/bip.21443.
Most antibacterial peptides exhibit low therapeutic indices in vivo. Peptide A3-APO was shown to exhibit high potency against Escherichia coli bacteremia when added intraperitoneally. To extend the studies to systemic infections against multidrug-resistant organisms, we studied the efficacy of A3-APO in mouse models of carbapenem-resistant Acinetobacter baumannii infection. When administered either intravenously at 2.5 mg/kg or intramuscularly (im) at 5 mg/kg twice or three times to mice infected with a carbapenem-resistant A. baumannii strain, peptide A3-APO reduced the bacterial counts by at least two log10 units and increased the survival rate compared with untreated animals or mice treated with 40 mg/kg imipenem. Unlike after intraperitoneal or intravenous administration, A3-APO did not show toxic effects at 60 mg/kg dose im.
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