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Microbial cell factories
Jun 05, 2020;19 (1): 122.

A new generation of recombinant polypeptides combines multiple protein domains for effective antimicrobial activity.

Ramon Roca-Pinilla, Adrià López-Cano, Cristina Saubi, Elena Garcia-Fruitós, Anna Arís
Author Information
  1. Ramon Roca-Pinilla: Department of Ruminant Production, Institute of Agriculture and Food Research (IRTA), 08140, Caldes de Montbui, Spain.
  2. Adrià López-Cano: Department of Ruminant Production, Institute of Agriculture and Food Research (IRTA), 08140, Caldes de Montbui, Spain.
  3. Cristina Saubi: Department of Ruminant Production, Institute of Agriculture and Food Research (IRTA), 08140, Caldes de Montbui, Spain.
  4. Elena Garcia-Fruitós: Department of Ruminant Production, Institute of Agriculture and Food Research (IRTA), 08140, Caldes de Montbui, Spain. elena.garcia@irta.cat. ORCID
  5. Anna Arís: Department of Ruminant Production, Institute of Agriculture and Food Research (IRTA), 08140, Caldes de Montbui, Spain. anna.aris@irta.cat.
PMID: 32503648 DOI: 10.1186/s12934-020-01380-7

Abstract

BACKGROUND: Although most of antimicrobial peptides (AMPs), being relatively short, are produced by chemical synthesis, several AMPs have been produced using recombinant technology. However, AMPs could be cytotoxic to the producer cell, and if small they can be easily degraded. The objective of this study was to produce a multidomain antimicrobial protein based on recombinant protein nanoclusters to increase the yield, stability and effectivity.
RESULTS: A single antimicrobial polypeptide JAMF1 that combines three functional domains based on human α-defensin-5, human XII-A secreted phospholipase A2 (sPLA), and a gelsolin-based bacterial-binding domain along with two aggregation-seeding domains based on leucine zippers was successfully produced with no toxic effects for the producer cell and mainly in a nanocluster structure. Both, the nanocluster and solubilized format of the protein showed a clear antimicrobial effect against a broad spectrum of Gram-negative and Gram-positive bacteria, including multi-resistant strains, with an optimal concentration between 1 and 10 µM.
CONCLUSIONS: Our findings demonstrated that multidomain antimicrobial proteins forming nanoclusters can be efficiently produced in recombinant bacteria, being a novel and valuable strategy to create a versatile, highly stable and easily editable multidomain constructs with a broad-spectrum antimicrobial activity in both soluble and nanostructured format.

Keywords

Antimicrobial peptides Antimicrobial resistance Inclusion bodies Multidomain protein Protein nanoclusters Recombinant production Solubilization

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Grants

  1. IRTA Cutting Edge Research project/IRTA
  2. predoctoral fellowship FI-AGAUR/AGAUR
  3. a post-doctoral fellowship from INIA (DOC-INIA)./INIA

MeSH Term

Anti-Bacterial Agents
Antimicrobial Cationic Peptides
Gelsolin
Gram-Negative Bacteria
Gram-Positive Bacteria
Humans
Phospholipases A2
Protein Domains
Recombinant Proteins
alpha-Defensins

Chemicals

Anti-Bacterial Agents
Antimicrobial Cationic Peptides
DEFA5 protein, human
Gelsolin
Recombinant Proteins
alpha-Defensins
Phospholipases A2
Journal Article
Article has an altmetric score of 4

Word Cloud

Created with Highcharts 10.0.0antimicrobialproteinproducedrecombinantAMPsmultidomainbasednanoclustersdomainspeptidesproducercellcaneasilycombineshumannanoclusterformatbacteriaactivityAntimicrobialBACKGROUND:AlthoughrelativelyshortchemicalsynthesisseveralusingtechnologyHowevercytotoxicsmalldegradedobjectivestudyproduceincreaseyieldstabilityeffectivityRESULTS:singlepolypeptideJAMF1threefunctionalα-defensin-5XII-AsecretedphospholipaseA2sPLAgelsolin-basedbacterial-bindingdomainalongtwoaggregation-seedingleucinezipperssuccessfullytoxiceffectsmainlystructuresolubilizedshowedcleareffectbroadspectrumGram-negativeGram-positiveincludingmulti-resistantstrainsoptimalconcentration110 µMCONCLUSIONS:findingsdemonstratedproteinsformingefficientlynovelvaluablestrategycreateversatilehighlystableeditableconstructsbroad-spectrumsolublenanostructurednewgenerationpolypeptidesmultipleeffectiveresistanceInclusionbodiesMultidomainProteinRecombinantproductionSolubilization

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