Your search keyword '"Hyduke, Daniel"' showing total 21 results

1. Development and validation of a high-throughput transcriptomic biomarker to address 21st century genetic toxicology needs.

Author

Heng-Hong Li, Hyduke, Daniel R., Fornace, Albert J., Renxiang Chen, Williams, Andrew, Yauk, Carole L., Frötschle, Roland, Ellinger-Ziegelbauer, Heidrun, O'Lone, Raegan, and Aubrecht, Jiri

Subjects

*GENETIC toxicology, *GENETIC transcription, *BIOMARKERS, *CANCER treatment, *DNA damage

Abstract

Interpretation of positive genotoxicity findings using the current in vitro testing battery is a major challenge to industry and regulatory agencies. These tests, especially mammalian cell assays, have high sensitivity but suffer from low specificity, leading to high rates of irrelevant positive findings (i.e., positive results in vitro that are not relevant to human cancer hazard). We developed an in vitro transcriptomic biomarker-based approach that provides biological relevance to positive genotoxicity assay data, particularly for in vitro chromosome damage assays and propose its application for assessing the relevance of the in vitro positive results to carcinogenic hazard. The transcriptomic biomarker TGx-DDI (previously known as TGx-28.65) readily distinguishes DNA damage-inducing (DDI) agents from non-DDI agents. In this study, we demonstrated the ability of the biomarker to classify 45 test agents across a broad set of chemical classes as DDI or non-DDI. Furthermore, we assessed the biomarker's utility in derisking known irrelevant positive agents and evaluated its performance across analytical platforms. We correctly classified 90% (9 of 10) of chemicals with irrelevant positive findings in in vitro chromosome damage assays as negative. We developed a standardized experimental and analytical protocol for our transcriptomics biomarker, as well as an enhanced application of TGx-DDI for high-throughput cell-based genotoxicity testing using nCounter technology. This biomarker can be integrated in genetic hazard assessment as a follow-up to positive chromosome damage findings. In addition, we propose how it might be used in chemical screening and assessment. This approach offers an opportunity to significantly improve risk assessment and reduce cost. [ABSTRACT FROM AUTHOR]

Published

2017

2. Exposure to ionizing radiation induced persistent gene expression changes in mouse mammary gland.

Author

Datta, Kamal, Hyduke, Daniel R., Suman, Shubhankar, Bo-Hyun Moon, Johnson, Michael D., and Fornace Jr., Albert J.

Subjects

*IONIZING radiation, *GENE expression, *BREAST cancer, *CELL proliferation, *HEREDITY

Abstract

Background: Breast tissue is among the most sensitive tissues to the carcinogenic actions of ionizing radiation and epidemiological studies have linked radiation exposure to breast cancer. Currently, molecular understanding of radiation carcinogenesis in mammary gland is hindered due to the scarcity of in vivo long-term follow up data. We undertook this study to delineate radiation-induced persistent alterations in gene expression in mouse mammary glands 2-month after radiation exposure. Methods: Six to eight week old female C57BL/6J mice were exposed to 2 Gy of whole body γ radiation and mammary glands were surgically removed 2-month after radiation. RNA was isolated and microarray hybridization performed for gene expression analysis. Ingenuity Pathway Analysis (IPA) was used for biological interpretation of microarray data. Real time quantitative PCR was performed on selected genes to confirm the microarray data. Results: Compared to untreated controls, the mRNA levels of a total of 737 genes were significantly (p<0.05) perturbed above 2-fold of control. More genes (493 genes; 67%) were upregulated than the number of downregulated genes (244 genes; 33%). Functional analysis of the upregulated genes mapped to cell proliferation and cancer related canonical pathways such as 'ERK/MAPK signaling', 'CDK5 signaling', and '14-3-3-mediated signaling'. We also observed upregulation of breast cancer related canonical pathways such as 'breast cancer regulation by Stathmin1', and 'HER-2 signaling in breast cancer' in IPA. Interestingly, the downregulated genes mapped to fewer canonical pathways involved in cell proliferation. We also observed that a number of genes with tumor suppressor function (GPRC5A, ELF1, NAB2, Sema4D, ACPP, MAP2, RUNX1) persistently remained downregulated in response to radiation exposure. Results from qRT-PCR on five selected differentially expressed genes confirmed microarray data. The PCR data on PPP4c, ELF1, MAPK12, PLCG1, and E2F6 showed similar trend in up and downregulation as has been observed with the microarray. Conclusions: Exposure to a clinically relevant radiation dose led to long-term activation of mammary gland genes involved in proliferative and metabolic pathways, which are known to have roles in carcinogenesis. When considered along with downregulation of a number of tumor suppressor genes, our study has implications for breast cancer initiation and progression after therapeutic radiation exposure [ABSTRACT FROM AUTHOR]

Published

2012

3. A community effort towards a knowledge-base and mathematical model of the human pathogen Salmonella Typhimurium LT2.

Author

Thiele, Ines, Hyduke, Daniel R., Steeb, Benjamin, Fankam, Guy, Allen, Douglas K., Bazzani, Susanna, Charusanti, Pep, Feng-Chi Chen, Fleming, Ronan M. T., Hsiung, Chao A., De Keersmaecker, Sigrid C. J., Yu-Chieh Liao, Marchal, Kathleen, Mo, Monica L., Özdemir, Emre, Raghunathan, Anu, Reed, Jennifer L., Sook-Il Shin, Sigurbjörnsdóttir, Sara, and Steinmann, Jonas

Subjects

*SALMONELLA typhimurium, *MATHEMATICAL models, *PATHOGENIC microorganisms, *THERMODYNAMICS, *MULTIDRUG resistance

Abstract

Background: Metabolic reconstructions (MRs) are common denominators in systems biology and represent biochemical, genetic, and genomic (BiGG) knowledge-bases for target organisms by capturing currently available information in a consistent, structured manner. Salmonella enterica subspecies I serovar Typhimurium is a human pathogen, causes various diseases and its increasing antibiotic resistance poses a public health problem. Results: Here, we describe a community-driven effort, in which more than 20 experts in S. Typhimurium biology and systems biology collaborated to reconcile and expand the S. Typhimurium BiGG knowledge-base. The consensus MR was obtained starting from two independently developed MRs for S. Typhimurium. Key results of this reconstruction jamboree include i) development and implementation of a community-based workflow for MR annotation and reconciliation; ii) incorporation of thermodynamic information; and iii) use of the consensus MR to identify potential multi-target drug therapy approaches. Conclusion: Taken together, with the growing number of parallel MRs a structured, community-driven approach will be necessary to maximize quality while increasing adoption of MRs in experimental design and interpretation. [ABSTRACT FROM AUTHOR]

Published

2011

4. Towards genome-scale signalling network reconstructions.

Author

Hyduke, Daniel R., Palsson, Bernhard Ø., and Palsson, Bernhard Ø

Subjects

*DYNAMO (Computer program language), *MITOGEN-activated protein kinases, *CELLULAR signal transduction, *GENETIC transduction, *HYPOTHESIS, *BIOLOGICAL models, *METABOLISM, *BIOINFORMATICS, *GENOMICS, *MOLECULAR structure, *ANIMALS

Abstract

Biological signalling networks allow living organisms to issue an integrated response to current conditions and make limited predictions about future environmental changes. Small-scale dynamic models of signalling cascades, including mitogen-activated protein kinase cascades, have been developed to generate hypotheses about signal transduction. Owing to technical limitations, these models and the hypotheses they generate have focused on a limited subset of signalling molecules. Now that we can simultaneously measure a substantial portion of the molecular components of a cell, we can begin to develop and test systems-level models of cellular signalling and regulatory processes, therefore gaining insights into the 'thought' processes of a cell. [ABSTRACT FROM AUTHOR]

Published

2010

5. Trimming of mammalian transcriptional networks using network component analysis.

Author

Tran, Linh M., Hyduke, Daniel R., and Liao, James C.

Subjects

*MAMMALS, *GENES, *MYELOID leukemia, *RAPAMYCIN, *ELECTRIC network topology, *TISSUES, *ALGORITHMS, *TOPOLOGY

Abstract

Background: Network Component Analysis (NCA) has been used to deduce the activities of transcription factors (TFs) from gene expression data and the TF-gene binding relationship. However, the TF-gene interaction varies in different environmental conditions and tissues, but such information is rarely available and cannot be predicted simply by motif analysis. Thus, it is beneficial to identify key TF-gene interactions under the experimental condition based on transcriptome data. Such information would be useful in identifying key regulatory pathways and gene markers of TFs in further studies. Results: We developed an algorithm to trim network connectivity such that the important regulatory interactions between the TFs and the genes were retained and the regulatory signals were deduced. Theoretical studies demonstrated that the regulatory signals were accurately reconstructed even in the case where only three independent transcriptome datasets were available. At least 80% of the main target genes were correctly predicted in the extreme condition of high noise level and small number of datasets. Our algorithm was tested with transcriptome data taken from mice under rapamycin treatment. The initial network topology from the literature contains 70 TFs, 778 genes, and 1423 edges between the TFs and genes. Our method retained 1074 edges (i.e. 75% of the original edge number) and identified 17 TFs as being significantly perturbed under the experimental condition. Twelve of these TFs are involved in MAPK signaling or myeloid leukemia pathways defined in the KEGG database, or are known to physically interact with each other. Additionally, four of these TFs, which are Hif1a, Cebpb, Nfkb1, and Atf1, are known targets of rapamycin. Furthermore, the trimmed network was able to predict Eno1 as an important target of Hif1a; this key interaction could not be detected without trimming the regulatory network. Conclusions: The advantage of our new algorithm, relative to the original NCA, is that our algorithm can identify the important TF-gene interactions. Identifying the important TF-gene interactions is crucial for understanding the roles of pleiotropic global regulators, such as p53. Also, our algorithm has been developed to overcome NCA's inability to analyze large networks where multiple TFs regulate a single gene. Thus, our algorithm extends the applicability of NCA to the realm of mammalian regulatory network analysis. [ABSTRACT FROM AUTHOR]

Published

2010

6. Determination of the Escherichia coil S-Nitrosoglutathione Response Network Using Integrated Biochemical and Systems Analysis.

Author

Jarboe, Laura R., Hyduke, Daniel R., Tran, Linh M., Chou, Katherine J. V., and Liao, James C.

Subjects

*ESCHERICHIA coli, *BIOCHEMISTRY, *HOMOCYSTEINE, *NITRIC oxide, *METHIONINE

Abstract

During infection or denitrification, bacteria encounter reactive nitrogen species. Although the molecular targets of and defensive response against nitric oxide (NO) in Escherichia coli are well studied, the response elements specific to S-nitrosothiols are less clear. Previously, we employed an integrated systems biology approach to unravel the E. coli NO-response network. Here we use a similar approach to confirm that S-nitrosoglutathione (GSNO) primarily impacts the metabolic and regulatory programs of E. coli in minimal medium by reaction with homocysteine and cysteine and subsequent disruption of the methionine biosynthesis pathway. Targeting of homocysteine and cysteine results in altered regulatory activity of MetJ, MetR, and CysB, activation of the stringent response and growth inhibition. Deletion of metJ or supplementation with methionine strongly attenuated the effect of GSNO on growth and gene expression. Furthermore, GSNO inhibited the ArcAB two-component system. Consistent with the underlying nitrosative and thiol-oxidative chemistry, growth inhibition and the majority of the regulatory perturbations were dependent upon GSNO internalization by the Dpp dipeptide transporter. Contrastingly, perturbation of NsrR appeared to be a result of the submicromolar levels of NO released from GSNO and did not require GSNO internalization. [ABSTRACT FROM AUTHOR]

Published

2008

7. Integrated network analysis identifies nitric oxide response networks and dihydroxyacid dehydratase as a crucial target in Escherichia coli.

Author

Hyduke, Daniel R., Jarboe, Laura R., Tran, Linh M., Chou, Katherine J. V., and Liao, James C.

Subjects

*NITRIC oxide, *NITROGEN compounds, *MAMMALS, *ESCHERICHIA coli, *ESCHERICHIA

Abstract

Nitric oxide (NO) is used by mammalian immune systems to counter microbial invasions and is produced by bacteria during denitrification. As a defense, microorganisms possess a complex network to cope with NO. Here we report a combined transcriptomic, chemical, and phenotypic approach to identify direct NO targets and construct the biochemical response network. In particular, network component analysis was used to identify transcription factors that are perturbed by NO. Such information was screened with potential NO reaction mechanisms and phenotypic data from genetic knockouts to identify active chemistry and direct NO targets in Escherichia coil. This approach identified the comprehensive E. coli NO response network and evinced that NO halts bacterial growth via inhibition of the branched-chain amino acid biosynthesis enzyme dihydroxyacid dehydratase. Because mammals do not synthesize branched-chain amino acids, inhibition of dihydroxyacid dehydratase may have served to foster the role of NO in the immune arsenal. [ABSTRACT FROM AUTHOR]

Published

2007

8. Analysis of nitric oxide donor effectiveness in resistance vessels.

Author

Hyduke, Daniel R. and Liao, James C.

Subjects

*NITRIC oxide, *BIOAVAILABILITY, *PATHOLOGY, *BLOOD vessels, *ERYTHROCYTES

Abstract

Decreased nitric oxide (NO) bioavailability is associated with a number of pathological conditions. Administration of a supplemental source of NO can counter the pathological effects arising from decreased NO bioavailability. A class of NO-nucleophile adducts that spontaneously release NO (NONOates) has been developed, and its members show promise as therapeutic sources of NO. Because the NONOates release NO spontaneously, a significant portion of the NO may be consumed by the myriad of NO reactive species present in the body. Here we develop a model to analyze the efficacy of NO delivery, by membrane- impermeable NONOates, in the resistance arterioles. Our model identifies three features of blood vessels that will enhance NONOate efficacy: 1) the amount of NO delivered to the abluminal region increases with lumen radius; 2) the presence of a flow-induced red blood cell-free zone will augment NO delivery; and 3) extravasation of the NONOate into the interstitial space will increase abluminal NO delivery. These results suggest that NONOates may be more effective in larger vessels and that NONOate efficacy can be altered by modifying permeability to the interstitial space. [ABSTRACT FROM AUTHOR]

Published

2005

9. Nitric oxide reaction with red blood cells and hemoglobin under heterogeneous conditions.

Author

Han, Tae H., Hyduke, Daniel R., Vaugdhn, Mark W., Fukuto, Jon M., and Liao, James C.

Subjects

*NITRIC oxide, *ERYTHROCYTES, *HEMOGLOBINS, *ELECTRON paramagnetic resonance, *OXYHEMOGLOBIN

Abstract

Examines the reaction of nitric oxide (NO) with red blood cells and hemoglobin (Hb) under heterogenous conditions. Use of electron paramagnetic resonance; Dependence of the products of the NO reaction with oxyhemoglobin on local concentrations; Factors affecting the formation of HbFerrous(NO)Nitrogen compound.

Published

2002

10. Exposure to ionizing radiation induced persistent gene expression changes in mouse mammary gland.

Author

Datta, Kamal, Hyduke, Daniel R, Suman, Shubhankar, Moon, Bo-Hyun, Johnson, Michael D, Fornace Jr, Albert J, and Fornace, Albert J Jr

Abstract

Background: Breast tissue is among the most sensitive tissues to the carcinogenic actions of ionizing radiation and epidemiological studies have linked radiation exposure to breast cancer. Currently, molecular understanding of radiation carcinogenesis in mammary gland is hindered due to the scarcity of in vivo long-term follow up data. We undertook this study to delineate radiation-induced persistent alterations in gene expression in mouse mammary glands 2-month after radiation exposure.Methods: Six to eight week old female C57BL/6J mice were exposed to 2 Gy of whole body γ radiation and mammary glands were surgically removed 2-month after radiation. RNA was isolated and microarray hybridization performed for gene expression analysis. Ingenuity Pathway Analysis (IPA) was used for biological interpretation of microarray data. Real time quantitative PCR was performed on selected genes to confirm the microarray data.Results: Compared to untreated controls, the mRNA levels of a total of 737 genes were significantly (p<0.05) perturbed above 2-fold of control. More genes (493 genes; 67%) were upregulated than the number of downregulated genes (244 genes; 33%). Functional analysis of the upregulated genes mapped to cell proliferation and cancer related canonical pathways such as 'ERK/MAPK signaling', 'CDK5 signaling', and '14-3-3-mediated signaling'. We also observed upregulation of breast cancer related canonical pathways such as 'breast cancer regulation by Stathmin1', and 'HER-2 signaling in breast cancer' in IPA. Interestingly, the downregulated genes mapped to fewer canonical pathways involved in cell proliferation. We also observed that a number of genes with tumor suppressor function (GPRC5A, ELF1, NAB2, Sema4D, ACPP, MAP2, RUNX1) persistently remained downregulated in response to radiation exposure. Results from qRT-PCR on five selected differentially expressed genes confirmed microarray data. The PCR data on PPP4c, ELF1, MAPK12, PLCG1, and E2F6 showed similar trend in up and downregulation as has been observed with the microarray.Conclusions: Exposure to a clinically relevant radiation dose led to long-term activation of mammary gland genes involved in proliferative and metabolic pathways, which are known to have roles in carcinogenesis. When considered along with downregulation of a number of tumor suppressor genes, our study has implications for breast cancer initiation and progression after therapeutic radiation exposure. [ABSTRACT FROM AUTHOR]

Published

2012

11. Modulation of nitric oxide bioavailability by erythrocytes.

Author

Kuang-Tse Huang, Han, Tae H., Hyduke, Daniel R., Vaughn, Mark W., Van Herle, Helga, Hein, Travis W., Cuihua Zhang, Lih Kuo, and Liao, James C.

Subjects

*NITRIC oxide, *ERYTHROCYTES

Abstract

Studies the modulation of nitric oxide bioavailability by erythrocytes. Effect of the modification of band 3 on nitric oxide uptake rate; Effect of Heinz Body and metHb binding to cytoskeletal proteins on nitric oxide uptake rate; Functional role of red blood cell in microvascular regulation.

Published

2001

12. THE CHALLENGES OF SYSTEMS BIOLOGY: COMMUNITY EFFORTS TO HARNESS BIOLOGICAL COMPLEXITY. ANNALS OF THE NEW YORK ACADEMY OF SCIENCES, VOLUME 1158.

Author

Hyduke, Daniel R.

Subjects

*SYSTEMS biology, *NONFICTION

Abstract

The article reviews the book "The Challenges of Systems Biology: Community Efforts to Harness Biological Complexity. Annals of the New York Academy of Sciences," vol. 1158, edited by Gustavo Stolovitzky, Pascal Kahlem and Andrea Califano.

Published

2012

13. Comparison of toxicogenomics and traditional approaches to inform mode of action and points of departure in human health risk assessment of benzo[ a]pyrene in drinking water.

Author

Moffat, Ivy, Chepelev, Nikolai L., Labib, Sarah, Bourdon-Lacombe, Julie, Kuo, Byron, Buick, Julie K., Lemieux, France, Williams, Andrew, Halappanavar, Sabina, Malik, Amal I, Luijten, Mirjam, Aubrecht, Jiri, Hyduke, Daniel R., Fornace, Albert J., Swartz, Carol D., Recio, Leslie, and Yauk, Carole L.

Subjects

*TOXICOGENOMICS, *TOXICITY testing, *HEALTH risk assessment, *COMPARATIVE studies, *PHYSIOLOGICAL effects of benzopyrene, *DRINKING water testing

Abstract

Toxicogenomics is proposed to be a useful tool in human health risk assessment. However, a systematic comparison of traditional risk assessment approaches with those applying toxicogenomics has never been done. We conducted a case study to evaluate the utility of toxicogenomics in the risk assessment of benzo[ a]pyrene (BaP), a well-studied carcinogen, for drinking water exposures. Our study was intended to compare methodologies, not to evaluate drinking water safety. We compared traditional (RA1), genomics-informed (RA2) and genomics-only (RA3) approaches. RA2 and RA3 applied toxicogenomics data from human cell cultures and mice exposed to BaP to determine if these data could provide insight into BaP's mode of action (MOA) and derive tissue-specific points of departure (POD). Our global gene expression analysis supported that BaP is genotoxic in mice and allowed the development of a detailed MOA. Toxicogenomics analysis in human lymphoblastoid TK6 cells demonstrated a high degree of consistency in perturbed pathways with animal tissues. Quantitatively, the PODs for traditional and transcriptional approaches were similar (liver 1.2 vs. 1.0 mg/kg-bw/day; lungs 0.8 vs. 3.7 mg/kg-bw/day; forestomach 0.5 vs. 7.4 mg/kg-bw/day). RA3, which applied toxicogenomics in the absence of apical toxicology data, demonstrates that this approach provides useful information in data-poor situations. Overall, our study supports the use of toxicogenomics as a relatively fast and cost-effective tool for hazard identification, preliminary evaluation of potential carcinogens, and carcinogenic potency, in addition to identifying current limitations and practical questions for future work. [ABSTRACT FROM AUTHOR]

Published

2015

14. A Systems Approach to Predict Oncometabolites via Context-Specific Genome-Scale Metabolic Networks.

Author

Nam, Hojung, Campodonico, Miguel, Bordbar, Aarash, Hyduke, Daniel R., Kim, Sangwoo, Zielinski, Daniel C., and Palsson, Bernhard O.

Subjects

*COMPUTATIONAL biology, *GENETIC mutation, *SUCCINATE dehydrogenase, *FUMARATE hydratase, *ISOCITRATE dehydrogenase, *EPIGENETICS

Abstract

Altered metabolism in cancer cells has been viewed as a passive response required for a malignant transformation. However, this view has changed through the recently described metabolic oncogenic factors: mutated isocitrate dehydrogenases (IDH), succinate dehydrogenase (SDH), and fumarate hydratase (FH) that produce oncometabolites that competitively inhibit epigenetic regulation. In this study, we demonstrate in silico predictions of oncometabolites that have the potential to dysregulate epigenetic controls in nine types of cancer by incorporating massive scale genetic mutation information (collected from more than 1,700 cancer genomes), expression profiling data, and deploying Recon 2 to reconstruct context-specific genome-scale metabolic models. Our analysis predicted 15 compounds and 24 substructures of potential oncometabolites that could result from the loss-of-function and gain-of-function mutations of metabolic enzymes, respectively. These results suggest a substantial potential for discovering unidentified oncometabolites in various forms of cancers. [ABSTRACT FROM AUTHOR]

Published

2014

15. GIM3E: condition-specific models of cellular metabolism developed from metabolomics and expression data.

Author

Schmidt, Brian J., Ebrahim, Ali, Metz, Thomas O., Adkins, Joshua N., Palsson, Bernhard Ø., and Hyduke, Daniel R.

Subjects

*CELL metabolism, *METABOLOMICS, *DATA analysis, *GENOMICS, *BIOCHEMISTRY, *BIOINFORMATICS

Abstract

Motivation: Genome-scale metabolic models have been used extensively to investigate alterations in cellular metabolism. The accuracy of these models to represent cellular metabolism in specific conditions has been improved by constraining the model with omics data sources. However, few practical methods for integrating metabolomics data with other omics data sources into genome-scale models of metabolism have been developed.Results: GIM3E (Gene Inactivation Moderated by Metabolism, Metabolomics and Expression) is an algorithm that enables the development of condition-specific models based on an objective function, transcriptomics and cellular metabolomics data. GIM3E establishes metabolite use requirements with metabolomics data, uses model-paired transcriptomics data to find experimentally supported solutions and provides calculations of the turnover (production/consumption) flux of metabolites. GIM3E was used to investigate the effects of integrating additional omics datasets to create increasingly constrained solution spaces of Salmonella Typhimurium metabolism during growth in both rich and virulence media. This integration proved to be informative and resulted in a requirement of additional active reactions (12 in each case) or metabolites (26 or 29, respectively). The addition of constraints from transcriptomics also impacted the allowed solution space, and the cellular metabolites with turnover fluxes that were necessarily altered by the change in conditions increased from 118 to 271 of 1397.Availability: GIM3E has been implemented in Python and requires a COBRApy 0.2.x. The algorithm and sample data described here are freely available at: http://opencobra.sourceforge.net/Contacts: brianjamesschmidt@gmail.com or hyduke@usu.eduSupplementary information: Supplementary information is available at Bioinformatics online. [ABSTRACT FROM PUBLISHER]

Published

2013

16. COBRApy: COnstraints-Based Reconstruction and Analysis for Python.

Author

Ebrahim, Ali, Lerman, Joshua A, Palsson, Bernhard O, and Hyduke, Daniel R

Subjects

*CONSTRAINT programming, *BIOLOGICAL networks, *PROKARYOTE genetics, *EUKARYOTES, *GENETIC software, *CELL metabolism, *GENE expression

Abstract

Background: COnstraint-Based Reconstruction and Analysis (COBRA) methods are widely used for genome-scale modeling of metabolic networks in both prokaryotes and eukaryotes. Due to the successes with metabolism, there is an increasing effort to apply COBRA methods to reconstruct and analyze integrated models of cellular processes. The COBRA Toolbox for MATLAB is a leading software package for genome-scale analysis of metabolism; however, it was not designed to elegantly capture the complexity inherent in integrated biological networks and lacks an integration framework for the multiomics data used in systems biology. The openCOBRA Project is a community effort to promote constraints-based research through the distribution of freely available software. Results: Here, we describe COBRA for Python (COBRApy), a Python package that provides support for basic COBRA methods. COBRApy is designed in an object-oriented fashion that facilitates the representation of the complex biological processes of metabolism and gene expression. COBRApy does not require MATLAB to function; however, it includes an interface to the COBRA Toolbox for MATLAB to facilitate use of legacy codes. For improved performance, COBRApy includes parallel processing support for computationally intensive processes. Conclusion: COBRApy is an object-oriented framework designed to meet the computational challenges associated with the next generation of stoichiometric constraint-based models and high-density omics data sets. [ABSTRACT FROM AUTHOR]

Published

2013

17. Genome-scale models of metabolism and gene expression extend and refine growth phenotype prediction.

Author

O'Brien, Edward J, Lerman, Joshua A, Chang, Roger L, Hyduke, Daniel R, and Palsson, Bernhard Ø

Abstract

Growth is a fundamental process of life. Growth requirements are well-characterized experimentally for many microbes; however,we lack a unified model for cellular growth. Such a model must be predictive of events at the molecular scale and capable of explaining the high-level behavior of the cell as a whole. Here, we construct an ME-Model for Escherichia coli—a genome-scale model that seamlessly integrates metabolic and gene product expression pathways. The model computes ~ 80% of the functional proteome (by mass), which is used by the cell to support growth under a given condition. Metabolism and gene expression are interdependent processes that affect and constrain each other.We formalize these constraints and apply the principle of growth optimization to enable the accurate prediction of multi-scale phenotypes, ranging from coarse-grained (growth rate, nutrient uptake, by-product secretion) to fine-grained (metabolic fluxes, gene expression levels). Our results unify many existing principles developed to describe bacterial growth. [ABSTRACT FROM AUTHOR]

Published

2013

18. Model-driven multi-omic data analysis elucidates metabolic immunomodulators of macrophage activation.

Author

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, and Palsson, Bernhard O

Abstract

Macrophages are central players in immune response, manifesting divergent phenotypes to control inflammation and innate immunity through release of cytokines and other signaling factors. Recently, the focus on metabolism has been reemphasized as critical signaling and regulatory pathways of human pathophysiology, ranging from cancer to aging, often converge on metabolic responses. Here, we used genome-scale modeling and multi-omics (transcriptomics, proteomics, and metabolomics) analysis to assess metabolic features that are critical for macrophage activation. We constructed a genome-scale metabolic network for the RAW 264.7 cell line to determine metabolic modulators of activation. Metabolites well-known to be associated with immunoactivation (glucose and arginine) and immunosuppression (tryptophan and vitamin D3) were among the most critical effectors. Intracellular metabolic mechanisms were assessed, identifying a suppressive role for de-novo nucleotide synthesis. Finally, underlying metabolic mechanisms of macrophage activation are identified by analyzing multi-omic data obtained from LPS-stimulated RAW cells in the context of our flux-based predictions. Our study demonstrates metabolism’s role in regulating activation may be greater than previously anticipated and elucidates underlying connections between activation and metabolic effectors. [ABSTRACT FROM AUTHOR]

Published

2012

19. Regulation of nitric oxide consumption by hypoxic red blood cells.

Author

Han, Tae H., Quamirani, Erion, Nelson, Allyson G., Hyduke, Daniel R., Gautam Chaudhuri, Daniel R., Lih Kuo, and Liao, James C.

Subjects

*NITRIC oxide, *ERYTHROCYTES, *DISEASES, *SEROTONIN

Abstract

The homeostasis of nitric oxide (NO) is attained through a balance between its production and consumption. Shifts in NO bioavailability have been linked to a variety of diseases. Although the regulation of NO production has been well documented, its consumption is largely thought to be unregulated. Here, we have demonstrated that under hypoxic conditions, NO accelerates its own consumption by increasing its entry into RBCs. When RBCs were exposed to NO (1:400 NO/heme ratio)under hypoxic conditions to form HbFe(II)NO, the consumption rate of NO increased significantly. This increase in NO consumption converted the bioactivity of serotonin from a vasodilator to a vasoconstrictor in isolated coronary arterioles. We identified HbFe(II)NO as a potential mediator of accelerated NO consumption. Accelerated NO consumption by HbFe(II)NO-bearing RBCs may contribute to hypoxic pulmonary vasoconstriction and the rebound effect seen on termination of NO inhalation therapy. Furthermore, accelerated NO consumption may exacerbate ischemia-mediated vasospasm and nitrate tolerance. Finally, this phenomenon may be an evolved mechanism to stabilize the vasculature in sepsis. [ABSTRACT FROM AUTHOR]

Published

2003

20. Nitric oxide is consumed, rather than conserved, by reaction with oxyhemoglobin under physiological conditions.

Author

Joshi, Mahesh S., Ferguson Jr., T. Bruce, Han, Tae H., Hyduke, Daniel R., Liao, James C., Rassaf, Tienush, Bryan, Nathan, Feelisch, Martin, and Lancaster Jr., Jack R.

Subjects

*NITRIC oxide, *OXYHEMOGLOBIN

Abstract

Examines the irreversible reaction of nitric oxide with oxyhemoglobin. Formation of multiple hemoglobin species; Influence of hemoglobin concentration in preventing endothelium-derived relaxing factor-dependent relaxation; Consumption of nitric oxide by hemoglobin.

Published

2002

21. Do genome-scale models need exact solvers or clearer standards?

Author

Ebrahim, Ali, Almaas, Eivind, Bauer, Eugen, Bordbar, Aarash, Burgard, Anthony P, Chang, Roger L, Dräger, Andreas, Famili, Iman, Feist, Adam M, Fleming, Ronan MT, Fong, Stephen S, Hatzimanikatis, Vassily, Herrgård, Markus J, Holder, Allen, Hucka, Michael, Hyduke, Daniel, Jamshidi, Neema, Lee, Sang Yup, Le Novère, Nicolas, and Lerman, Joshua A

Subjects

*GENOMES, *STRUCTURAL analysis (Science), *METABOLIC models

Abstract

Recent results obtained by Chindelevitch et al (2014) are challenged by Ebrahim et al, illustrating several issues in the reproducibility of computational biology methods. [ABSTRACT FROM AUTHOR]

Published

2015