Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa

Jillian Eisenhauer; Spencer Dublin; Jihae Choi; Abigail R. Trachtman; Jacqueline D. Chu; David Custodio-Zegarra; Suman Bharti; Bhavya Bhardwaj; Shuangyi Bai; William T. Witt; Maria de la Paz Gutierrez; Sarah J. Miller; Kaitlyn Flowers; Trevor R.F. Smith; Bronwyn M. Gunn; Mariette Barbier; Elizabeth M. Parzych; David B. Weiner; Ami Patel

doi:10.3389/fimmu.2025.1618297

Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa

Jillian Eisenhauer
, Spencer Dublin
, Jihae Choi
, Abigail R. Trachtman
, Jacqueline D. Chu
, David Custodio-Zegarra
, Suman Bharti
, Bhavya Bhardwaj
, Shuangyi Bai
, William T. Witt
, Maria de la Paz Gutierrez
, Sarah J. Miller
, Kaitlyn Flowers
, Trevor R.F. Smith
, Bronwyn M. Gunn
, Mariette Barbier
, Elizabeth M. Parzych
, David B. Weiner
, Ami Patel

University of Pennsylvania
Wistar Institute
West Virginia University
Washington State University
Inovio Pharmaceuticals

Research output: Contribution to journal › Article › peer-review

Abstract

Pseudomonas aeruginosa is a high priority multi-drug-resistant (MDR) bacterial pathogen with increasing resistance against broad-spectrum antibiotics. Multiple efforts are ongoing to develop anti-pseudomonal vaccines however achieving meaningful outcomes has been challenging in human clinical trials. Monoclonal antibodies (MAbs) are emerging as promising biologics for targeting P. aeruginosa infections and engineering strategies that bridge engagement with innate immune mechanisms like complement-mediated antibody dependent phagocytosis may be beneficial to improve bacterial clearance. We previously described both protection and long-term expression of synthetic DNA-encoded MAb (DMAb) expressing the anti-PcrV MAb V2L2-MD. Here, we show that modification of DMAb-V2L2-MD with an Fc-point mutation designed to enhance complement engagement demonstrates improved binding to C1q, C3 deposition, and improved opsonophagocytic killing. This Fc-modified DMAb reduced P. aeruginosa bacteria burden in lungs and nasal washes in a lethal acute murine intranasal infection model. These data highlight the importance of tailoring downstream antibody innate effector functions to improve clearance of difficult-to-treat bacteria like MDR P. aeruginosa.

Original language	English
Article number	1618297
Journal	Frontiers in Immunology
Volume	16
DOIs	https://doi.org/10.3389/fimmu.2025.1618297
Publication status	Published - 31 Jul 2025
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

complement system
DNA-encoded monoclonal antibody
PcrV
Pseudomonas aeruginosa
type III secretion system

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10.3389/fimmu.2025.1618297Licence: CC BY

Cite this

Eisenhauer, J., Dublin, S., Choi, J., Trachtman, A. R., Chu, J. D., Custodio-Zegarra, D., Bharti, S., Bhardwaj, B., Bai, S., Witt, W. T., Gutierrez, M. D. L. P., Miller, S. J., Flowers, K., Smith, T. R. F., Gunn, B. M., Barbier, M., Parzych, E. M., Weiner, D. B., & Patel, A. (2025). Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa. Frontiers in Immunology, 16, Article 1618297. https://doi.org/10.3389/fimmu.2025.1618297

@article{30191955d517449196a63b7c355d1daa,

title = "Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa",

abstract = "Pseudomonas aeruginosa is a high priority multi-drug-resistant (MDR) bacterial pathogen with increasing resistance against broad-spectrum antibiotics. Multiple efforts are ongoing to develop anti-pseudomonal vaccines however achieving meaningful outcomes has been challenging in human clinical trials. Monoclonal antibodies (MAbs) are emerging as promising biologics for targeting P. aeruginosa infections and engineering strategies that bridge engagement with innate immune mechanisms like complement-mediated antibody dependent phagocytosis may be beneficial to improve bacterial clearance. We previously described both protection and long-term expression of synthetic DNA-encoded MAb (DMAb) expressing the anti-PcrV MAb V2L2-MD. Here, we show that modification of DMAb-V2L2-MD with an Fc-point mutation designed to enhance complement engagement demonstrates improved binding to C1q, C3 deposition, and improved opsonophagocytic killing. This Fc-modified DMAb reduced P. aeruginosa bacteria burden in lungs and nasal washes in a lethal acute murine intranasal infection model. These data highlight the importance of tailoring downstream antibody innate effector functions to improve clearance of difficult-to-treat bacteria like MDR P. aeruginosa.",

keywords = "complement system, DNA-encoded monoclonal antibody, PcrV, Pseudomonas aeruginosa, type III secretion system",

author = "Jillian Eisenhauer and Spencer Dublin and Jihae Choi and Trachtman, \{Abigail R.\} and Chu, \{Jacqueline D.\} and David Custodio-Zegarra and Suman Bharti and Bhavya Bhardwaj and Shuangyi Bai and Witt, \{William T.\} and Gutierrez, \{Maria de la Paz\} and Miller, \{Sarah J.\} and Kaitlyn Flowers and Smith, \{Trevor R.F.\} and Gunn, \{Bronwyn M.\} and Mariette Barbier and Parzych, \{Elizabeth M.\} and Weiner, \{David B.\} and Ami Patel",

year = "2025",

month = jul,

day = "31",

doi = "10.3389/fimmu.2025.1618297",

language = "English",

volume = "16",

journal = "Frontiers in Immunology",

issn = "1664-3224",

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Eisenhauer, J, Dublin, S, Choi, J, Trachtman, AR, Chu, JD, Custodio-Zegarra, D, Bharti, S, Bhardwaj, B, Bai, S, Witt, WT, Gutierrez, MDLP, Miller, SJ, Flowers, K, Smith, TRF, Gunn, BM, Barbier, M, Parzych, EM, Weiner, DB & Patel, A 2025, 'Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa', Frontiers in Immunology, vol. 16, 1618297. https://doi.org/10.3389/fimmu.2025.1618297

TY - JOUR

T1 - Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa

AU - Eisenhauer, Jillian

AU - Dublin, Spencer

AU - Choi, Jihae

AU - Trachtman, Abigail R.

AU - Chu, Jacqueline D.

AU - Custodio-Zegarra, David

AU - Bharti, Suman

AU - Bhardwaj, Bhavya

AU - Bai, Shuangyi

AU - Witt, William T.

AU - Gutierrez, Maria de la Paz

AU - Miller, Sarah J.

AU - Flowers, Kaitlyn

AU - Smith, Trevor R.F.

AU - Gunn, Bronwyn M.

AU - Barbier, Mariette

AU - Parzych, Elizabeth M.

AU - Weiner, David B.

AU - Patel, Ami

PY - 2025/7/31

Y1 - 2025/7/31

N2 - Pseudomonas aeruginosa is a high priority multi-drug-resistant (MDR) bacterial pathogen with increasing resistance against broad-spectrum antibiotics. Multiple efforts are ongoing to develop anti-pseudomonal vaccines however achieving meaningful outcomes has been challenging in human clinical trials. Monoclonal antibodies (MAbs) are emerging as promising biologics for targeting P. aeruginosa infections and engineering strategies that bridge engagement with innate immune mechanisms like complement-mediated antibody dependent phagocytosis may be beneficial to improve bacterial clearance. We previously described both protection and long-term expression of synthetic DNA-encoded MAb (DMAb) expressing the anti-PcrV MAb V2L2-MD. Here, we show that modification of DMAb-V2L2-MD with an Fc-point mutation designed to enhance complement engagement demonstrates improved binding to C1q, C3 deposition, and improved opsonophagocytic killing. This Fc-modified DMAb reduced P. aeruginosa bacteria burden in lungs and nasal washes in a lethal acute murine intranasal infection model. These data highlight the importance of tailoring downstream antibody innate effector functions to improve clearance of difficult-to-treat bacteria like MDR P. aeruginosa.

AB - Pseudomonas aeruginosa is a high priority multi-drug-resistant (MDR) bacterial pathogen with increasing resistance against broad-spectrum antibiotics. Multiple efforts are ongoing to develop anti-pseudomonal vaccines however achieving meaningful outcomes has been challenging in human clinical trials. Monoclonal antibodies (MAbs) are emerging as promising biologics for targeting P. aeruginosa infections and engineering strategies that bridge engagement with innate immune mechanisms like complement-mediated antibody dependent phagocytosis may be beneficial to improve bacterial clearance. We previously described both protection and long-term expression of synthetic DNA-encoded MAb (DMAb) expressing the anti-PcrV MAb V2L2-MD. Here, we show that modification of DMAb-V2L2-MD with an Fc-point mutation designed to enhance complement engagement demonstrates improved binding to C1q, C3 deposition, and improved opsonophagocytic killing. This Fc-modified DMAb reduced P. aeruginosa bacteria burden in lungs and nasal washes in a lethal acute murine intranasal infection model. These data highlight the importance of tailoring downstream antibody innate effector functions to improve clearance of difficult-to-treat bacteria like MDR P. aeruginosa.

KW - complement system

KW - DNA-encoded monoclonal antibody

KW - PcrV

KW - Pseudomonas aeruginosa

KW - type III secretion system

U2 - 10.3389/fimmu.2025.1618297

DO - 10.3389/fimmu.2025.1618297

M3 - Article

C2 - 40821801

AN - SCOPUS:105013465696

SN - 1664-3224

VL - 16

JO - Frontiers in Immunology

JF - Frontiers in Immunology

M1 - 1618297

ER -

Fc-modification of anti-PcrV gene-encoded antibodies modulates complement-mediated killing of Pseudomonas aeruginosa

Abstract

UN SDGs

Keywords

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