Penetration and Accumulation of Dendrons with Different Peripheral Composition in Biofilms.

Penetration and Accumulation of Dendrons with Different Peripheral Composition in Biofilms.

Rozenbaum, René T;Andrén, Oliver C J;van der Mei, Henny C;Woudstra, Willem;Busscher, Henk J;Malkoch, Michael;Sharma, Prashant K;
Nano letters 2019 Vol. 19 pp. 4327-4333
252
rozenbaum2019penetrationnano

Abstract

Multidrug resistant bacterial infections threaten to become the number one cause of death by the year 2050. Development of antimicrobial dendritic polymers is considered promising as an alternative infection control strategy. For antimicrobial dendritic polymers to effectively kill bacteria residing in infectious biofilms, they have to penetrate and accumulate deep into biofilms. Biofilms are often recalcitrant to antimicrobial penetration and accumulation. Therefore, this work aims to determine the role of compact dendrons with different peripheral composition in their penetration into biofilms. Red fluorescently labeled dendrons with pH-responsive NH peripheral groups initially penetrated faster from a buffer suspension at pH 7.0 into the acidic environment of biofilms than dendrons with OH or COO groups at their periphery. In addition, dendrons with NH peripheral groups accumulated near the top of the biofilm due to electrostatic double-layer attraction with negatively charged biofilm components. However, accumulation of dendrons with OH and COO peripheral groups was more evenly distributed across the depth of the biofilms than NH composed dendrons and exceeded accumulation of NH composed dendrons after 10 min of exposure. Unlike dendrons with NH groups at their periphery, dendrons with OH or COO peripheral groups, lacking strong electrostatic double-layer attraction with biofilm components, were largely washed-out during exposure to PBS without dendrons. Thus, penetration and accumulation of dendrons into biofilms is controlled by their peripheral composition through electrostatic double-layer interactions, which is an important finding for the further development of new antimicrobial or antimicrobial-carrying dendritic polymers.

Citation

ID: 33346
Ref Key: rozenbaum2019penetrationnano
Use this key to autocite in SciMatic or Thesis Manager

References

Blockchain Verification

Account:
NFT Contract Address:
0x95644003c57E6F55A65596E3D9Eac6813e3566dA
Article ID:
33346
Unique Identifier:
10.1021/acs.nanolett.9b00838
Network:
Scimatic Chain (ID: 481)
Loading...
Blockchain Readiness Checklist
Authors
Abstract
Journal Name
Year
Title
5/5
Creates 1,000,000 NFT tokens for this article
Token Features:
  • ERC-1155 Standard NFT
  • 1 Million Supply per Article
  • Transferable via MetaMask
  • Permanent Blockchain Record
Blockchain QR Code
Scan with Saymatik Web3.0 Wallet

Saymatik Web3.0 Wallet