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292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex

BACKGROUND: The Burkholderia cepacia complex (Bcc) is composed of highly related opportunistic species that establish pulmonary infections in immunodeficient hosts, such as those with cystic fibrosis and chronic granulomatous disease. Due to their innate antibiotic-resistant phenotypes and capacity...

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Autores principales: Mendez, Antonio R, Pybus, Christine A, Greenberg, David E
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10678012/
http://dx.doi.org/10.1093/ofid/ofad500.364
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author Mendez, Antonio R
Pybus, Christine A
Greenberg, David E
author_facet Mendez, Antonio R
Pybus, Christine A
Greenberg, David E
author_sort Mendez, Antonio R
collection PubMed
description BACKGROUND: The Burkholderia cepacia complex (Bcc) is composed of highly related opportunistic species that establish pulmonary infections in immunodeficient hosts, such as those with cystic fibrosis and chronic granulomatous disease. Due to their innate antibiotic-resistant phenotypes and capacity to form biofilm, Bcc infections are difficult to eradicate with traditional antibiotics. Peptide-conjugated phosphorodiamidate morpholino oligomers (PPMOs) offer an alternative therapeutic approach. These nucleotide analogues penetrate the outer membrane, bind specific mRNA, and inhibit translation. Due to high affinity base-pairing dynamics, these molecules can be rapidly modified and deployed to precisely inactivate innumerable bacterial gene targets. Previously, we found PPMOs targeting an acyl carrier protein (AcpP) are bactericidal against planktonic Bcc. It remains unknown whether PPMOs could modulate biofilm formation in these pathogens. Proposed Mechanism of Action of PPMOs [Figure: see text] Inside a bacterial cell, peptide-conjugated phosphorodiamidate morpholino oligomers (PPMOs) targeting the acpP gene bind to mRNA near the Shine-Dalgarno sequence and AUG start site, sterically inhibiting translation. This inhibition disrupts the expression and essential functions of acyl carrier protein (ACP). METHODS: Minimum biofilm eradication concentration assays were used to test two AcpP PPMOs on 24 h biofilms formed on pegs. Viable cells were enumerated. This activity was further evaluated by microscopy and 7-day biofilm kinetic studies. Fluorescein-labeled AcpP PPMO added to B. cenocepacia K56-2 DsRed was imaged over time to evaluate colocalization. PPMO toxicity was assessed over 24 h in A549 cells by LDH release. RESULTS: Treatment (10-40 μM) with AcpP PPMOs demonstrated more than a 3-log reduction (p< 0.0001) in biofilm burden across five clinical isolates of Bcc tested and B. thailandensis E264. PPMO bactericidal activity was visualized with confocal and scanning electron microscopy. Fluorescently labeled AcpP PPMO associated with the membrane of B. cenocepacia K56-2 DsRed in a temporal fashion. Additionally, AcpP PPMOs exhibited low toxicity in human pneumocytes. CONCLUSION: PPMOs are active and bactericidal in established Bcc biofilms; thus, the biofilm setting is not a deterrent against PPMO delivery. This is further supported by the observations that AcpP PPMOs and Bcc cells colocalize in biofilm, resulting in membrane destruction and biomass reduction. Together, these data provide evidence that PPMOs are active in the biofilm setting of Bcc and could be a promising therapeutic strategy for these infections. DISCLOSURES: David E. Greenberg, MD, University of Texas Southwestern Medical Center: Dr. Greenberg has numerous patents on PPMOs
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spelling pubmed-106780122023-11-27 292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex Mendez, Antonio R Pybus, Christine A Greenberg, David E Open Forum Infect Dis Abstract BACKGROUND: The Burkholderia cepacia complex (Bcc) is composed of highly related opportunistic species that establish pulmonary infections in immunodeficient hosts, such as those with cystic fibrosis and chronic granulomatous disease. Due to their innate antibiotic-resistant phenotypes and capacity to form biofilm, Bcc infections are difficult to eradicate with traditional antibiotics. Peptide-conjugated phosphorodiamidate morpholino oligomers (PPMOs) offer an alternative therapeutic approach. These nucleotide analogues penetrate the outer membrane, bind specific mRNA, and inhibit translation. Due to high affinity base-pairing dynamics, these molecules can be rapidly modified and deployed to precisely inactivate innumerable bacterial gene targets. Previously, we found PPMOs targeting an acyl carrier protein (AcpP) are bactericidal against planktonic Bcc. It remains unknown whether PPMOs could modulate biofilm formation in these pathogens. Proposed Mechanism of Action of PPMOs [Figure: see text] Inside a bacterial cell, peptide-conjugated phosphorodiamidate morpholino oligomers (PPMOs) targeting the acpP gene bind to mRNA near the Shine-Dalgarno sequence and AUG start site, sterically inhibiting translation. This inhibition disrupts the expression and essential functions of acyl carrier protein (ACP). METHODS: Minimum biofilm eradication concentration assays were used to test two AcpP PPMOs on 24 h biofilms formed on pegs. Viable cells were enumerated. This activity was further evaluated by microscopy and 7-day biofilm kinetic studies. Fluorescein-labeled AcpP PPMO added to B. cenocepacia K56-2 DsRed was imaged over time to evaluate colocalization. PPMO toxicity was assessed over 24 h in A549 cells by LDH release. RESULTS: Treatment (10-40 μM) with AcpP PPMOs demonstrated more than a 3-log reduction (p< 0.0001) in biofilm burden across five clinical isolates of Bcc tested and B. thailandensis E264. PPMO bactericidal activity was visualized with confocal and scanning electron microscopy. Fluorescently labeled AcpP PPMO associated with the membrane of B. cenocepacia K56-2 DsRed in a temporal fashion. Additionally, AcpP PPMOs exhibited low toxicity in human pneumocytes. CONCLUSION: PPMOs are active and bactericidal in established Bcc biofilms; thus, the biofilm setting is not a deterrent against PPMO delivery. This is further supported by the observations that AcpP PPMOs and Bcc cells colocalize in biofilm, resulting in membrane destruction and biomass reduction. Together, these data provide evidence that PPMOs are active in the biofilm setting of Bcc and could be a promising therapeutic strategy for these infections. DISCLOSURES: David E. Greenberg, MD, University of Texas Southwestern Medical Center: Dr. Greenberg has numerous patents on PPMOs Oxford University Press 2023-11-27 /pmc/articles/PMC10678012/ http://dx.doi.org/10.1093/ofid/ofad500.364 Text en © The Author(s) 2023. Published by Oxford University Press on behalf of Infectious Diseases Society of America. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Abstract
Mendez, Antonio R
Pybus, Christine A
Greenberg, David E
292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex
title 292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex
title_full 292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex
title_fullStr 292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex
title_full_unstemmed 292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex
title_short 292. Phosphorodiamidate Morpholino Oligomers Targeting acpP Reduce the Biofilm Burden in Burkholderia cepacia Complex
title_sort 292. phosphorodiamidate morpholino oligomers targeting acpp reduce the biofilm burden in burkholderia cepacia complex
topic Abstract
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10678012/
http://dx.doi.org/10.1093/ofid/ofad500.364
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