Metabolically re-modeling the drug pipeline

被引：24

作者：

Oberhardt, Matthew A. ^{[1
,2
]}

Yizhak, Keren ^{[1
,2
]}

Ruppin, Eytan ^{[1
,2
]}

机构：

[1] Tel Aviv Univ, Sch Comp Sci, IL-69978 Tel Aviv, Israel

[2] Tel Aviv Univ, Sackler Sch Med, IL-69978 Tel Aviv, Israel

来源：

CURRENT OPINION IN PHARMACOLOGY | 2013年 / 13卷 / 05期

关键词：

ESCHERICHIA-COLI; NETWORK ANALYSIS; GLOBAL RECONSTRUCTION; GENOME; EVOLUTION; TARGETS; OPTIMIZATION; PREDICTION; DISCOVERY; FRAMEWORK;

D O I：

10.1016/j.coph.2013.05.006

中图分类号：

R9 [药学];

学科分类号：

1007 ;

摘要：

Costs for drug development have soared, exposing a clear need for new R&D strategies. Systems biology has meanwhile emerged as an attractive vehicle for integrating omics data and other post-genomic technologies into the drug pipeline. One of the emerging areas of computational systems biology is constraint-based modeling (CBM), which uses genome-scale metabolic models (GSMMs) as platforms for integrating and interpreting diverse omics datasets. Here we review current uses of GSMMs in drug discovery, focusing on prediction of novel drug targets and promising lead compounds. We then expand our discussion to prediction of toxicity and selectivity of potential drug targets. We discuss successes as well as limitations of GSMMs in these areas. Finally, we suggest new ways in which GSMMs may contribute to drug discovery, offering our vision of how GSMMs may re-model the drug pipeline in years to come.

引用

页码：778 / 785

页数：8

共 69 条

[1] Reconstruction of Genome-Scale Active Metabolic Networks for 69 Human Cell Types and 16 Cancer Types Using INIT [J].

Agren, Rasmus ;

Bordel, Sergio ;

Mardinoglu, Adil ;

Pornputtapong, Natapol ;

Nookaew, Intawat ;

Nielsen, Jens .

PLOS COMPUTATIONAL BIOLOGY, 2012, 8 (05)

[2] Using the reconstructed genome-scale human metabolic network to study physiology and pathology [J].

Bordbar, A. ;

Palsson, B. O. .

JOURNAL OF INTERNAL MEDICINE, 2012, 271 (02) :131-141

[3] Model-driven multi-omic data analysis elucidates metabolic immunomodulators of macrophage activation [J].

Bordbar, Aarash ;

Mo, Monica L. ;

Nakayasu, Ernesto S. ;

Schrimpe-Rutledge, Alexandra C. ;

Kim, Young-Mo ;

Metz, Thomas O. ;

Jones, Marcus B. ;

Frank, Bryan C. ;

Smith, Richard D. ;

Peterson, Scott N. ;

Hyduke, Daniel R. ;

Adkins, Joshua N. ;

Palsson, Bernhard O. .

MOLECULAR SYSTEMS BIOLOGY, 2012, 8

[4] Insight into human alveolar macrophage and M. tuberculosis interactions via metabolic reconstructions [J].

Bordbar, Aarash ;

Lewis, Nathan E. ;

Schellenberger, Jan ;

Palsson, Bernhard O. ;

Jamshidi, Neema .

MOLECULAR SYSTEMS BIOLOGY, 2010, 6

[5] Bad Bugs, No Drugs: No ESKAPE! An Update from the Infectious Diseases Society of America [J].

Boucher, Helen W. ;

Talbot, George H. ;

Bradley, John S. ;

Edwards, John E., Jr. ;

Gilbert, David ;

Rice, Louis B. ;

Scheld, Michael ;

Spellberg, Brad ;

Bartlett, John .

CLINICAL INFECTIOUS DISEASES, 2009, 48 (01) :1-12

[6] Potentiating antibacterial activity by predictably enhancing endogenous microbial ROS production [J].

Brynildsen, Mark P. ;

Winkler, Jonathan A. ;

Spina, Catherine S. ;

MacDonald, I. Cody ;

Collins, James J. .

NATURE BIOTECHNOLOGY, 2013, 31 (02) :160-165

[7] Getting pharmaceutical R&D back on target [J].

Bunnage, Mark E. .

NATURE CHEMICAL BIOLOGY, 2011, 7 (06) :335-339

[8] Optimization-based framework for inferring and testing hypothesized metabolic objective functions [J].

Burgard, AP ;

Maranas, CD .

BIOTECHNOLOGY AND BIOENGINEERING, 2003, 82 (06) :670-677

[9] Comparative multi-goal tradeoffs in systems engineering of microbial metabolism [J].

Byrne, David ;

Dumitriu, Alexandra ;

Segre, Daniel .

BMC SYSTEMS BIOLOGY, 2012, 6

[10] Probabilistic integrative modeling of genome-scale metabolic and regulatory networks in Escherichia coli and Mycobacterium tuberculosis [J].

Chandrasekaran, Sriram ;

Price, Nathan D. .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2010, 107 (41) :17845-17850

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