Difference between revisions of "Part:BBa K1659001"

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This part contains the sequence for the antimicrobial protein Art-175 with flagellar secretion signal peptide sequence fused to its N-terminus and a Hisx6 tag fused to its C-terminus.
 
This part contains the sequence for the antimicrobial protein Art-175 with flagellar secretion signal peptide sequence fused to its N-terminus and a Hisx6 tag fused to its C-terminus.
  
We have also made parts with Art-175 fused to different secretion signal sequences:
+
Our Art-175 part collection comes in a family of four parts, one being Art-175 by itself and three others being Art-175 fused to different secretion signal sequences:
  
  

Revision as of 20:17, 7 September 2015

Artilysin Art-175 fused at N-terminal with flagellin 26-47 peptide segment


This part contains the sequence for the antimicrobial protein Art-175 with flagellar secretion signal peptide sequence fused to its N-terminus and a Hisx6 tag fused to its C-terminus.

Our Art-175 part collection comes in a family of four parts, one being Art-175 by itself and three others being Art-175 fused to different secretion signal sequences:


Secretion Tag Part Number
None BBa_K1659000
Flagellin 26-47 signal peptide sequence BBa_K1659001
DsbA 2-19 signal peptide sequence BBa_K1659002
YebF BBa_K1659003


Biology

BBa_K1659001 is a composite of artilysin Art-175 (BBa_K1659000) with the 26-47 peptide segment of Salmonella typhimurium flagellin:


1. Art-175

Artilysins are an exciting class of enzyme-based antibacterials. Their name is derived from "artificial endolysin" and they exploit the lytic power of bacteriophage-encoded endolyins. Endolysins are peptidoglycan hydrolases produced at the end of the lytic cycle that pass through the cytoplasmic membrane, degrade the peptidoglycan layer and cause the osmotic lysis of the infected bacterial cell, thus liberating the progeny. Endolysins have a degree of specificity in terms of of the peptidoglycan chemotype which they can break down by means of the structural selectivity of their enzymatically-active domain (EAD) or cell wall binding domain (CBD).

Purified endolysins have been used to kill Gram-positive pathogens. Gram-negative bacteria, however, have a protective outer membrane containing lipopolysaccharide (LPS) that serves as a barrier against the peptidoglycan hydrolytic activity of endolysins from the outside. To overcome this problem, selected polycationic or amphipathic peptides that locally destabilize the LPS layer can be covalently fused to endolysins to transport them past the outer membrane to reach the peptidoglycan layer.

Biers et al. fused the sheep myeloid antimicrobial peptide SMAP-29 to the N-terminus of the endolysin KZ144 to create Artilysin Art-175 [1]. Endolysin KZ144 has previously been shown to selectively exert cell wall lytic activity on the peptidoglycan chemotype A1γ (which Gram-negative bacteria such as P. aeruginosa, E. coli, and Salmonella typhimurium belong to), where the bacterial outer membranes have already been separately permeabilized, by targeting the fully N-acetylated glucosamine units present in that peptidoglycan chemotype [2]. On the other hand, SMAP-29 on its own exhibits broad antimicrobial activity by means of using its N-terminal ampiphathic α-helical region in conjunction with its C-terminal hydrophobic region to disrupt of the outer and inner membranes of bacteria. SMAP-29 on its own, however, is unsuitable for clinical applications because it is also hemolytic towards human erythrocytes [3][4].

Art-175, the product of their linkage, is able to use its SMAP-29 moiety to transport itself past the bacterial outer membrane and exert lytic activity on the peptidoglycan layer. It exhibits strong antibacterial activity against pathogenic P. aeruginosa strains PAO1 and PA14, being able to kill even persister cells effectively as it does not require active bacterial metabolism to exert its lytic activity. However, unlike SMAP-29 by itself, Art-175 cannot kill bacteria using SMAP-29's cell membrane disruption mechanism, and owing to the chemotype selectivity of KZ144 is hence ineffective against bacteria of other peptidoglycan chemotypes, such as S. aureus [1].


2. Flagellin 26-47 secretion signal

Flagellin are the constituent subunits of the helical filament substructure of bacterial flagella. In the flagellar-building process, flagellin are exported out of the cell sequentially by the flagellum-specific export apparatus. F. Vonderviszt et al. demonstrated through their work that the signal sequence responsible for allowing the flagellar export system to identify and export Salmonella flagellin is its 26-47 amino acid residue segment [5].


Usage

We fused the Flagellin 26-47 signal peptide sequence to the N-terminus of Art-175 to with the aim of facilitating the fusion protein's export via the SRP pathway. A hexahistidine tag is also attached onto the C-terminus of the composite to allow for easy purification of the expressed protein via metal-affinity column chromatography.

In view of the fact that the N-terminus of the SMAP-29 is essential for its antibacterial activity, we wish to investigate whether and to what extent will the fusion of an N-terminal signal sequence onto the SMAP-29 moiety of Art-175 affect its antibacterial potency.

Since our project is on the topic of antimicrobial resistance, or more specifically biofilm-related ones, our aim is to use this part to create host organism strains that are capable of secreting Art-175, which is able to kill persister cells, in conjunction with biofilm-degrading enzymes such as DNase (BBa_K1659301) or Dispersin B (BBa_K1659211) to function as effective prophylaxis and/or treatment against undesirable biofilm-protected bacteria in both medical and industrial settings.


References

[1] Briers, Y., Walmagh, M., Grymonprez, B., Biebl, M., Pirnay, J. P., Defraine, V., … Lavigne, R. 2014. Art-175 is a highly efficient antibacterial against multidrug-resistant strains and persisters of Pseudomonas aeruginosa. Antimicrobial Agents and Chemotherapy, 58(7), 3774–3784.

[2] Briers, Y. et al., 2007. Muralytic activity and modular structure of the endolysins of Pseudomonas aeruginosa bacteriophages φKZ and EL. Molecular Microbiology, 65(5), pp.1334–1344.

[3] Skerlavaj, B. et al., 1999. SMAP-29: A potent antibacterial and antifungal peptide from sheep leukocytes. FEBS Letters, 463(1-2), pp.58–62.

[4] Shin, S.Y. et al., 2001. Structure-activity analysis of SMAP-29, a sheep leukocytes-derived antimicrobial peptide. Biochemical and biophysical research communications, 285(4), pp.1046–1051.

[5] Vondervizst, F., Sajó, R., Dobó, J., & Závodszky, P. (2012). The Use of a Flagellar Export Signal for the Secretion of Recombinant Proteins in Salmonella. In: Recombinant Gene Expression - Reviews and Protocols, Methods in Molecular Biology, 824, 131-143.