Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe Sepsis

Benjamin Morton; Elena Mitsi; Shaun Pennington; Jesus Reine Gutierrez; Angela D. Wright; Robert Parker; Ingeborg D. Welters; John D. Blakey; Gowrisankar Rajam; Edwin W. Ades; Daniela Ferreira; Duolao Wang; Aras Kadioglu; Stephen Gordon

doi:10.1097/shk.0000000000000715

Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe Sepsis

Benjamin Morton
, Elena Mitsi
, Shaun Pennington
, Jesus Reine Gutierrez
, Angela D. Wright
, Robert Parker
, Ingeborg D. Welters
, John D. Blakey
, Gowrisankar Rajam
, Edwin W. Ades
, Daniela Ferreira
, Duolao Wang
, Aras Kadioglu
, Stephen Gordon

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

13 Citations (Scopus)

Abstract

INTRODUCTION

Antimicrobial resistance threatens to undermine treatment for severe infection; new therapeutic strategies are urgently needed. Pre-clinical work shows that augmented passive immunotherapy with P4 peptide increases phagocytic activity and shows promise as a novel therapeutic strategy. Our aim was to determine ex vivo P4 activity in a target population of patients admitted to critical care with severe infection.

METHODS

We prospectively recruited UK critical care unit patients with severe sepsis and observed clinical course (≥3 months post discharge). Blood samples were taken in early (≤ 48hrs post-diagnosis, n = 54), latent (seven days post-diagnosis, n = 39) and convalescent (3-6 months post-diagnosis, n = 18) phases of disease. The primary outcome measure was killing of opsonised S.pneumoniae by neutrophils with and without P4 peptide stimulation. We also used a flow cytometric whole blood phagocytosis assay to determine phagocyte association and oxidation of intraphagosomal reporter beads.

RESULTS

P4 peptide increased neutrophil killing of opsonised pneumococci by 8.6% (C.I. 6.35 - 10.76, p < 0.001) in all phases of sepsis, independent of infection source and microbiological status. This represented a 54.9% increase in bacterial killing compared to unstimulated neutrophils (15.6%) in early phase samples. Similarly, P4 peptide treatment significantly increased neutrophil and monocyte intraphagosomal reporter bead association and oxidation, independent of infection source.

CONCLUSIONS

We have extended pre-clinical work to demonstrate that P4 peptide significantly increases phagocytosis and bacterial killing in samples from a target patient population with severe sepsis. This study supports the rationale for augmented passive immunotherapy as a therapeutic strategy in severe sepsis.

Original language	English
Pages (from-to)	635-641
Number of pages	7
Journal	Shock
Volume	46
Issue number	6
Early online date	2 Aug 2016
DOIs	https://doi.org/10.1097/shk.0000000000000715
Publication status	E-pub ahead of print - 2 Aug 2016

Keywords

Bacterial infection
innate immunity
neutrophil biology

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Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe SepsisAccepted author manuscript, 1.07 MB

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Morton, B., Mitsi, E., Pennington, S., Reine Gutierrez, J., Wright, A. D., Parker, R., Welters, I. D., Blakey, J. D., Rajam, G., Ades, E. W., Ferreira, D., Wang, D., Kadioglu, A., & Gordon, S. (2016). Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe Sepsis. Shock, 46(6), 635-641. Advance online publication. https://doi.org/10.1097/shk.0000000000000715

@article{9a743ce5c84344f1a254d36a3ae3465d,

title = "Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe Sepsis",

abstract = "INTRODUCTIONAntimicrobial resistance threatens to undermine treatment for severe infection; new therapeutic strategies are urgently needed. Pre-clinical work shows that augmented passive immunotherapy with P4 peptide increases phagocytic activity and shows promise as a novel therapeutic strategy. Our aim was to determine ex vivo P4 activity in a target population of patients admitted to critical care with severe infection.METHODSWe prospectively recruited UK critical care unit patients with severe sepsis and observed clinical course (≥3 months post discharge). Blood samples were taken in early (≤ 48hrs post-diagnosis, n = 54), latent (seven days post-diagnosis, n = 39) and convalescent (3-6 months post-diagnosis, n = 18) phases of disease. The primary outcome measure was killing of opsonised S.pneumoniae by neutrophils with and without P4 peptide stimulation. We also used a flow cytometric whole blood phagocytosis assay to determine phagocyte association and oxidation of intraphagosomal reporter beads.RESULTSP4 peptide increased neutrophil killing of opsonised pneumococci by 8.6\% (C.I. 6.35 - 10.76, p < 0.001) in all phases of sepsis, independent of infection source and microbiological status. This represented a 54.9\% increase in bacterial killing compared to unstimulated neutrophils (15.6\%) in early phase samples. Similarly, P4 peptide treatment significantly increased neutrophil and monocyte intraphagosomal reporter bead association and oxidation, independent of infection source.CONCLUSIONSWe have extended pre-clinical work to demonstrate that P4 peptide significantly increases phagocytosis and bacterial killing in samples from a target patient population with severe sepsis. This study supports the rationale for augmented passive immunotherapy as a therapeutic strategy in severe sepsis.",

keywords = "Bacterial infection, innate immunity, neutrophil biology",

author = "Benjamin Morton and Elena Mitsi and Shaun Pennington and \{Reine Gutierrez\}, Jesus and Wright, \{Angela D.\} and Robert Parker and Welters, \{Ingeborg D.\} and Blakey, \{John D.\} and Gowrisankar Rajam and Ades, \{Edwin W.\} and Daniela Ferreira and Duolao Wang and Aras Kadioglu and Stephen Gordon",

year = "2016",

month = aug,

day = "2",

doi = "10.1097/shk.0000000000000715",

language = "English",

volume = "46",

pages = "635--641",

journal = "Shock",

issn = "1073-2322",

publisher = "Lippincott Williams and Wilkins",

number = "6",

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TY - JOUR

T1 - Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe Sepsis

AU - Morton, Benjamin

AU - Mitsi, Elena

AU - Pennington, Shaun

AU - Reine Gutierrez, Jesus

AU - Wright, Angela D.

AU - Parker, Robert

AU - Welters, Ingeborg D.

AU - Blakey, John D.

AU - Rajam, Gowrisankar

AU - Ades, Edwin W.

AU - Ferreira, Daniela

AU - Wang, Duolao

AU - Kadioglu, Aras

AU - Gordon, Stephen

PY - 2016/8/2

Y1 - 2016/8/2

N2 - INTRODUCTIONAntimicrobial resistance threatens to undermine treatment for severe infection; new therapeutic strategies are urgently needed. Pre-clinical work shows that augmented passive immunotherapy with P4 peptide increases phagocytic activity and shows promise as a novel therapeutic strategy. Our aim was to determine ex vivo P4 activity in a target population of patients admitted to critical care with severe infection.METHODSWe prospectively recruited UK critical care unit patients with severe sepsis and observed clinical course (≥3 months post discharge). Blood samples were taken in early (≤ 48hrs post-diagnosis, n = 54), latent (seven days post-diagnosis, n = 39) and convalescent (3-6 months post-diagnosis, n = 18) phases of disease. The primary outcome measure was killing of opsonised S.pneumoniae by neutrophils with and without P4 peptide stimulation. We also used a flow cytometric whole blood phagocytosis assay to determine phagocyte association and oxidation of intraphagosomal reporter beads.RESULTSP4 peptide increased neutrophil killing of opsonised pneumococci by 8.6% (C.I. 6.35 - 10.76, p < 0.001) in all phases of sepsis, independent of infection source and microbiological status. This represented a 54.9% increase in bacterial killing compared to unstimulated neutrophils (15.6%) in early phase samples. Similarly, P4 peptide treatment significantly increased neutrophil and monocyte intraphagosomal reporter bead association and oxidation, independent of infection source.CONCLUSIONSWe have extended pre-clinical work to demonstrate that P4 peptide significantly increases phagocytosis and bacterial killing in samples from a target patient population with severe sepsis. This study supports the rationale for augmented passive immunotherapy as a therapeutic strategy in severe sepsis.

AB - INTRODUCTIONAntimicrobial resistance threatens to undermine treatment for severe infection; new therapeutic strategies are urgently needed. Pre-clinical work shows that augmented passive immunotherapy with P4 peptide increases phagocytic activity and shows promise as a novel therapeutic strategy. Our aim was to determine ex vivo P4 activity in a target population of patients admitted to critical care with severe infection.METHODSWe prospectively recruited UK critical care unit patients with severe sepsis and observed clinical course (≥3 months post discharge). Blood samples were taken in early (≤ 48hrs post-diagnosis, n = 54), latent (seven days post-diagnosis, n = 39) and convalescent (3-6 months post-diagnosis, n = 18) phases of disease. The primary outcome measure was killing of opsonised S.pneumoniae by neutrophils with and without P4 peptide stimulation. We also used a flow cytometric whole blood phagocytosis assay to determine phagocyte association and oxidation of intraphagosomal reporter beads.RESULTSP4 peptide increased neutrophil killing of opsonised pneumococci by 8.6% (C.I. 6.35 - 10.76, p < 0.001) in all phases of sepsis, independent of infection source and microbiological status. This represented a 54.9% increase in bacterial killing compared to unstimulated neutrophils (15.6%) in early phase samples. Similarly, P4 peptide treatment significantly increased neutrophil and monocyte intraphagosomal reporter bead association and oxidation, independent of infection source.CONCLUSIONSWe have extended pre-clinical work to demonstrate that P4 peptide significantly increases phagocytosis and bacterial killing in samples from a target patient population with severe sepsis. This study supports the rationale for augmented passive immunotherapy as a therapeutic strategy in severe sepsis.

KW - Bacterial infection

KW - innate immunity

KW - neutrophil biology

U2 - 10.1097/shk.0000000000000715

DO - 10.1097/shk.0000000000000715

M3 - Article

SN - 1073-2322

VL - 46

SP - 635

EP - 641

JO - Shock

JF - Shock

IS - 6

ER -

Augmented Passive Immunotherapy with P4 Peptide Improves Phagocyte Activity in Severe Sepsis

Abstract

Keywords

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