Protein-protein interaction networks and subnetworks in the biology of disease
Protein-protein interaction networks and subnetworks in the biology of disease
The main goal of systems medicine is to provide predictive models of the patho-physiology of complex diseases as well as define healthy states. The reason is clear--we hope accurate models will ultimately lead to more specific and sensitive markers of disease that will help clinicians better stratify their patient populations and optimize treatment plans. In addition, we expect that these models will define novel targets for combating disease. However, for many complex diseases, particularly at the clinical level, it is becoming increasingly clear that one or a few genomic variations alone (e.g., simple models) cannot adequately explain the multiple phenotypes related to disease states, or the variable risks that attend disease progression. We suggest that models that account for the activities of many interacting proteins will explain a wider range of variability inherent in these phenotypes. These models, which encompass protein interaction networks dysregulated for specific diseases and specific patient sub-populations, will be constructed by integrating protein interaction data with multiple types of other relevant cellular information. Protein interaction databases are thus playing an increasingly important role in systems biology approaches to the study of disease. They present us with a static, but highly functional view of the cellular state, and thus give us a better understanding of not only the normal phenotype, but also the overall disease phenotype at the level of the whole organism when certain interactions become dysregulated.
357-367
Nibbe, Rod K.
c1118664-51dc-4bc3-8251-6b3942b4453c
Chowdhury, Salim A.
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Koyutürk, Mehmet
749aecc7-fa90-489e-85d4-7b512d5de6eb
Ewing, Robert
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Chance, Mark R.
855fab90-5057-490a-887f-d7c1db99faf5
May 2011
Nibbe, Rod K.
c1118664-51dc-4bc3-8251-6b3942b4453c
Chowdhury, Salim A.
0717d8e6-9cba-440d-8602-156276efa2a1
Koyutürk, Mehmet
749aecc7-fa90-489e-85d4-7b512d5de6eb
Ewing, Robert
022c5b04-da20-4e55-8088-44d0dc9935ae
Chance, Mark R.
855fab90-5057-490a-887f-d7c1db99faf5
Nibbe, Rod K., Chowdhury, Salim A., Koyutürk, Mehmet, Ewing, Robert and Chance, Mark R.
(2011)
Protein-protein interaction networks and subnetworks in the biology of disease.
Wiley Interdisciplinary Reviews: Systems Biology and Medicine, 3 (3), .
(doi:10.1002/wsbm.121).
(PMID:20865778)
Abstract
The main goal of systems medicine is to provide predictive models of the patho-physiology of complex diseases as well as define healthy states. The reason is clear--we hope accurate models will ultimately lead to more specific and sensitive markers of disease that will help clinicians better stratify their patient populations and optimize treatment plans. In addition, we expect that these models will define novel targets for combating disease. However, for many complex diseases, particularly at the clinical level, it is becoming increasingly clear that one or a few genomic variations alone (e.g., simple models) cannot adequately explain the multiple phenotypes related to disease states, or the variable risks that attend disease progression. We suggest that models that account for the activities of many interacting proteins will explain a wider range of variability inherent in these phenotypes. These models, which encompass protein interaction networks dysregulated for specific diseases and specific patient sub-populations, will be constructed by integrating protein interaction data with multiple types of other relevant cellular information. Protein interaction databases are thus playing an increasingly important role in systems biology approaches to the study of disease. They present us with a static, but highly functional view of the cellular state, and thus give us a better understanding of not only the normal phenotype, but also the overall disease phenotype at the level of the whole organism when certain interactions become dysregulated.
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Published date: May 2011
Organisations:
Molecular and Cellular
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Local EPrints ID: 355406
URI: http://eprints.soton.ac.uk/id/eprint/355406
PURE UUID: dde86cc0-cbfa-4578-abae-bc9bf6a3de15
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Date deposited: 28 Aug 2013 13:51
Last modified: 15 Mar 2024 03:44
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Author:
Rod K. Nibbe
Author:
Salim A. Chowdhury
Author:
Mehmet Koyutürk
Author:
Mark R. Chance
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