Human biomarker discovery and predictive models for disease progression for idiopathic pneumonia syndrome following allogeneic stem cell transplantation
Human biomarker discovery and predictive models for disease progression for idiopathic pneumonia syndrome following allogeneic stem cell transplantation
Allogeneic hematopoietic stem cell transplantation (SCT) is the only curative therapy for many malignant and nonmalignant conditions. Idiopathic pneumonia syndrome (IPS) is a frequently fatal complication that limits successful outcomes. Preclinical models suggest that IPS represents an immune mediated attack on the lung involving elements of both the adaptive and the innate immune system. However, the etiology of IPS in humans is less well understood. To explore the disease pathway and uncover potential biomarkers of disease, we performed two separate label-free, proteomics experiments defining the plasma protein profiles of allogeneic SCT patients with IPS. Samples obtained from SCT recipients without complications served as controls. The initial discovery study, intended to explore the disease pathway in humans, identified a set of 81 IPS-associated proteins. These data revealed similarities between the known IPS pathways in mice and the condition in humans, in particular in the acute phase response. In addition, pattern recognition pathways were judged to be significant as a function of development of IPS, and from this pathway we chose the lipopolysaccaharide-binding protein (LBP) protein as a candidate molecular diagnostic for IPS, and verified its increase as a function of disease using an ELISA assay. In a separately designed study, we identified protein-based classifiers that could predict, at day 0 of SCT, patients who: 1) progress to IPS and 2) respond to cytokine neutralization therapy. Using cross-validation strategies, we built highly predictive classifier models of both disease progression and therapeutic response. In sum, data generated in this report confirm previous clinical and experimental findings, provide new insights into the pathophysiology of IPS, identify potential molecular classifiers of the condition, and uncover a set of markers potentially of interest for patient stratification as a basis for individualized therapy.
M111.015479
Schlatzer, Daniela M.
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Dazard, Jean-Eudes
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Ewing, Rob M.
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Ilchenko, Serguei
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Tomcheko, Sara E.
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Eid, Saada
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Ho, Vincent
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Yanik, Greg
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Chance, Mark R.
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Cooke, Kenneth R.
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1 June 2012
Schlatzer, Daniela M.
4c4f9f8b-0746-4a25-967a-729e41a58b65
Dazard, Jean-Eudes
f8129953-4050-4766-bb43-9d1fcdc59f9f
Ewing, Rob M.
022c5b04-da20-4e55-8088-44d0dc9935ae
Ilchenko, Serguei
076b0e98-8968-4121-89e3-5583be5f4180
Tomcheko, Sara E.
19bc81df-9066-4364-a8ad-56154dbacc08
Eid, Saada
3c7b494d-87ef-4f5f-ba44-b19de3212eac
Ho, Vincent
92a6d740-acab-4ec9-9ed3-9f450c33819e
Yanik, Greg
bca37f3f-7e71-4ffe-9a67-a82a32965055
Chance, Mark R.
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Cooke, Kenneth R.
67e1b62c-f50e-4ea7-ab33-af5d49e5e4af
Schlatzer, Daniela M., Dazard, Jean-Eudes, Ewing, Rob M., Ilchenko, Serguei, Tomcheko, Sara E., Eid, Saada, Ho, Vincent, Yanik, Greg, Chance, Mark R. and Cooke, Kenneth R.
(2012)
Human biomarker discovery and predictive models for disease progression for idiopathic pneumonia syndrome following allogeneic stem cell transplantation.
Molecular & Cellular Proteomics, 11 (6), .
(doi:10.1074/mcp.M111.015479).
(PMID:22337588)
Abstract
Allogeneic hematopoietic stem cell transplantation (SCT) is the only curative therapy for many malignant and nonmalignant conditions. Idiopathic pneumonia syndrome (IPS) is a frequently fatal complication that limits successful outcomes. Preclinical models suggest that IPS represents an immune mediated attack on the lung involving elements of both the adaptive and the innate immune system. However, the etiology of IPS in humans is less well understood. To explore the disease pathway and uncover potential biomarkers of disease, we performed two separate label-free, proteomics experiments defining the plasma protein profiles of allogeneic SCT patients with IPS. Samples obtained from SCT recipients without complications served as controls. The initial discovery study, intended to explore the disease pathway in humans, identified a set of 81 IPS-associated proteins. These data revealed similarities between the known IPS pathways in mice and the condition in humans, in particular in the acute phase response. In addition, pattern recognition pathways were judged to be significant as a function of development of IPS, and from this pathway we chose the lipopolysaccaharide-binding protein (LBP) protein as a candidate molecular diagnostic for IPS, and verified its increase as a function of disease using an ELISA assay. In a separately designed study, we identified protein-based classifiers that could predict, at day 0 of SCT, patients who: 1) progress to IPS and 2) respond to cytokine neutralization therapy. Using cross-validation strategies, we built highly predictive classifier models of both disease progression and therapeutic response. In sum, data generated in this report confirm previous clinical and experimental findings, provide new insights into the pathophysiology of IPS, identify potential molecular classifiers of the condition, and uncover a set of markers potentially of interest for patient stratification as a basis for individualized therapy.
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e-pub ahead of print date: 15 February 2012
Published date: 1 June 2012
Organisations:
Faculty of Natural and Environmental Sciences, Centre for Biological Sciences
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Local EPrints ID: 340681
URI: http://eprints.soton.ac.uk/id/eprint/340681
ISSN: 1535-9476
PURE UUID: b6b5d04b-161f-4e93-a84a-75081110733d
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Date deposited: 29 Jun 2012 09:05
Last modified: 15 Mar 2024 03:44
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Contributors
Author:
Daniela M. Schlatzer
Author:
Jean-Eudes Dazard
Author:
Serguei Ilchenko
Author:
Sara E. Tomcheko
Author:
Saada Eid
Author:
Vincent Ho
Author:
Greg Yanik
Author:
Mark R. Chance
Author:
Kenneth R. Cooke
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