Review

. 2018 Jun 26;11(7):1086.

doi: 10.3390/ma11071086.

Phenotypic Variation during Biofilm Formation: Implications for Anti-Biofilm Therapeutic Design

Marie Beitelshees¹, Andrew Hill^{2

3}, Charles H Jones⁴, Blaine A Pfeifer^{5

6}

Affiliations

¹ Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA. marie.beitelshees@abcombibio.com.
² Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA. andrew.hill@abcombibio.com.
³ Abcombi Biosciences Inc., 1576 Sweet Home Road, Amherst, NY 14228, USA. andrew.hill@abcombibio.com.
⁴ Abcombi Biosciences Inc., 1576 Sweet Home Road, Amherst, NY 14228, USA. charles.jones@abcombibio.com.
⁵ Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA. blainepf@buffalo.edu.
⁶ Department of Biomedical Engineering, University at Buffalo, The State University of New York, Buffalo, New York, NY 14260, USA. blainepf@buffalo.edu.

PMID: 29949876
PMCID: PMC6073711
DOI: 10.3390/ma11071086

Review

Phenotypic Variation during Biofilm Formation: Implications for Anti-Biofilm Therapeutic Design

Marie Beitelshees et al. Materials (Basel). 2018.

. 2018 Jun 26;11(7):1086.

doi: 10.3390/ma11071086.

Authors

Marie Beitelshees¹, Andrew Hill^{2

3}, Charles H Jones⁴, Blaine A Pfeifer^{5

6}

Affiliations

¹ Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA. marie.beitelshees@abcombibio.com.
² Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA. andrew.hill@abcombibio.com.
³ Abcombi Biosciences Inc., 1576 Sweet Home Road, Amherst, NY 14228, USA. andrew.hill@abcombibio.com.
⁴ Abcombi Biosciences Inc., 1576 Sweet Home Road, Amherst, NY 14228, USA. charles.jones@abcombibio.com.
⁵ Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA. blainepf@buffalo.edu.
⁶ Department of Biomedical Engineering, University at Buffalo, The State University of New York, Buffalo, New York, NY 14260, USA. blainepf@buffalo.edu.

PMID: 29949876
PMCID: PMC6073711
DOI: 10.3390/ma11071086

Abstract

Various bacterial species cycle between growth phases and biofilm formation, of which the latter facilitates persistence in inhospitable environments. These phases can be generally characterized by one or more cellular phenotype(s), each with distinct virulence factor functionality. In addition, a variety of phenotypes can often be observed within the phases themselves, which can be dependent on host conditions or the presence of nutrient and oxygen gradients within the biofilm itself (i.e., microenvironments). Currently, most anti-biofilm strategies have targeted a single phenotype; this approach has driven effective, yet incomplete, protection due to the lack of consideration of gene expression dynamics throughout the bacteria’s pathogenesis. As such, this article provides an overview of the distinct phenotypes found within each biofilm development phase and demonstrates the unique anti-biofilm solutions each phase offers. However, we conclude that a combinatorial approach must be taken to provide complete protection against biofilm forming bacterial and their resulting diseases.

Keywords: anti-adhesion; anti-biofilm strategies; bacterial biofilms; bacterial phenotypes; commensal bacteria; dispersion.

PubMed Disclaimer

Conflict of interest statement

C.H.J., A.H. and B.A.P. are co-founders of Abcombi Biosciences Inc., a company focused on vaccine design. M.B. declares that she has no competing interests.

Figures

**Figure 1**
Biofilm formation and therapeutic targets. Schematic drawing of three generalized phases of biofilm formation: bacterial adhesion, biofilm maturation, and dispersion. Characteristics for each phase that represent therapeutic targets or provide opportunities for anti-biofilm strategies are highlighted.

**Figure 2**
Targeting quorum sensing. Schematic of QS in bacteria as well as methods to block this signaling mechanism. AHL dependent QS within biofilms (left) can be blocked using competitive QS inhibition that outcompete AHL for AHL receptors (middle) or quorum quenching enzymes that inactivate AHL signals (right).

See this image and copyright information in PMC

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Phenotypic Variation during Biofilm Formation: Implications for Anti-Biofilm Therapeutic Design

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Phenotypic Variation during Biofilm Formation: Implications for Anti-Biofilm Therapeutic Design

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