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Your search keyword '"Pauling, Josch K."' showing total 23 results
Start Over Author "Pauling, Josch K." Publication Type Academic Journals
23 results on '"Pauling, Josch K."'

1. Target deconvolution of HDAC pharmacopoeia reveals MBLAC2 as common off-target

Author

Lechner, Severin, Malgapo, Martin Ian P., Grätz, Christian, Steimbach, Raphael R., Baron, Agnes, Rüther, Patrick, Nadal, Simon, Stumpf, Carmen, Loos, Christina, Ku, Xin, Prokofeva, Polina, Lautenbacher, Ludwig, Heimburg, Tino, Würf, Vivian, Meng, Chen, Wilhelm, Mathias, Sippl, Wolfgang, Kleigrewe, Karin, Pauling, Josch K., Kramer, Karl, Miller, Aubry K., Pfaffl, Michael W., Linder, Maurine E., Kuster, Bernhard, and Médard, Guillaume

Published
2022
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3. Exclusive enteral nutrition initiates individual protective microbiome changes to induce remission in pediatric Crohn's disease.

Author

Häcker, Deborah, Siebert, Kolja, Smith, Byron J., Köhler, Nikolai, Riva, Alessandra, Mahapatra, Aritra, Heimes, Helena, Nie, Jiatong, Metwaly, Amira, Hölz, Hannes, Manz, Quirin, De Zen, Federica, Heetmeyer, Jeannine, Socas, Katharina, Le Thi, Giang, Meng, Chen, Kleigrewe, Karin, Pauling, Josch K., Neuhaus, Klaus, and List, Markus

Abstract

Exclusive enteral nutrition (EEN) is a first-line therapy for pediatric Crohn's disease (CD), but protective mechanisms remain unknown. We established a prospective pediatric cohort to characterize the function of fecal microbiota and metabolite changes of treatment-naive CD patients in response to EEN (German Clinical Trials DRKS00013306). Integrated multi-omics analysis identified network clusters from individually variable microbiome profiles, with Lachnospiraceae and medium-chain fatty acids as protective features. Bioorthogonal non-canonical amino acid tagging selectively identified bacterial species in response to medium-chain fatty acids. Metagenomic analysis identified high strain-level dynamics in response to EEN. Functional changes in diet-exposed fecal microbiota were further validated using gut chemostat cultures and microbiota transfer into germ-free Il10 -deficient mice. Dietary model conditions induced individual patient-specific strain signatures to prevent or cause inflammatory bowel disease (IBD)-like inflammation in gnotobiotic mice. Hence, we provide evidence that EEN therapy operates through explicit functional changes of temporally and individually variable microbiome profiles. [Display omitted] • EEN induces remission in patients with pediatric Crohn's disease • EEN creates temporally and individually variable microbiome profiles • Medium-chain fatty acids link EEN to changes in the microbiota of CD patients • Protective microbiota functions are validated in chemostat and gnotobiotic models Häcker et al. showed that exclusive enteral nutrition (EEN) in pediatric Crohn's disease (CD) creates temporally and individually variable microbiome profiles. They showed that medium-chain fatty acids link EEN to changes in the microbiota of CD patients. Finally, protective microbiota functions were validated in transfer model systems. [ABSTRACT FROM AUTHOR]

Published
2024
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4. The AIMe registry for artificial intelligence in biomedical research

Author

Matschinske, Julian, Alcaraz, Nicolas, Benis, Arriel, Golebiewski, Martin, Grimm, Dominik G., Heumos, Lukas, Kacprowski, Tim, Lazareva, Olga, List, Markus, Louadi, Zakaria, Pauling, Josch K., Pfeifer, Nico, Röttger, Richard, Schwämmle, Veit, Sturm, Gregor, Traverso, Alberto, Van Steen, Kristel, de Freitas, Martiela Vaz, Villalba Silva, Gerda Cristal, Wee, Leonard, Wenke, Nina K., Zanin, Massimiliano, Zolotareva, Olga, Baumbach, Jan, and Blumenthal, David B.

Published
2021
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6. Author Correction: Target deconvolution of HDAC pharmacopoeia reveals MBLAC2 as common off-target

Author

Lechner, Severin, Malgapo, Martin Ian P., Grätz, Christian, Steimbach, Raphael R., Baron, Agnes, Rüther, Patrick, Nadal, Simon, Stumpf, Carmen, Loos, Christina, Ku, Xin, Prokofeva, Polina, Lautenbacher, Ludwig, Heimburg, Tino, Würf, Vivian, Meng, Chen, Wilhelm, Mathias, Sippl, Wolfgang, Kleigrewe, Karin, Pauling, Josch K., Kramer, Karl, Miller, Aubry K., Pfaffl, Michael W., Linder, Maurine E., Kuster, Bernhard, and Médard, Guillaume

Published
2022
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7. Federated machine learning for a facilitated implementation of Artificial Intelligence in healthcare – a proof of concept study for the prediction of coronary artery calcification scores

Author

Wolff Justus, Matschinske Julian, Baumgart Dietrich, Pytlik Anne, Keck Andreas, Natarajan Arunakiry, von Schacky Claudio E., Pauling Josch K., and Baumbach Jan

Subjects
artificial intelligence, coronary artery calcification, federated machine learning, privacy-preserving data processing, Biotechnology, TP248.13-248.65
Abstract

The implementation of Artificial Intelligence (AI) still faces significant hurdles and one key factor is the access to data. One approach that could support that is federated machine learning (FL) since it allows for privacy preserving data access. For this proof of concept, a prediction model for coronary artery calcification scores (CACS) has been applied. The FL was trained based on the data in the different institutions, while the centralized machine learning model was trained on one allocation of data. Both algorithms predict patients with risk scores ≥5 based on age, biological sex, waist circumference, dyslipidemia and HbA1c. The centralized model yields a sensitivity of c. 66% and a specificity of c. 70%. The FL slightly outperforms that with a sensitivity of 67% while slightly underperforming it with a specificity of 69%. It could be demonstrated that CACS prediction is feasible via both, a centralized and an FL approach, and that both show very comparable accuracy. In order to increase accuracy, additional and a higher volume of patient data is required and for that FL is utterly necessary. The developed “CACulator” serves as proof of concept, is available as research tool and shall support future research to facilitate AI implementation.

Published
2022
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10. An overview of food lipids toward food lipidomics.

Author

Tietel, Zipora, Hammann, Simon, Meckelmann, Sven W., Ziv, Carmit, Pauling, Josch K., Wölk, Michele, Würf, Vivian, Alves, Eliana, Neves, Bruna, and Domingues, M. Rosário

Subjects
LIPIDOMICS, UBIQUINONES, LIPIDS, BETAINE, VITAMIN K, GLYCEROLIPIDS, VITAMIN D receptors
Abstract

Increasing evidence regarding lipids' beneficial effects on human health has changed the common perception of consumers and dietary officials about the role(s) of food lipids in a healthy diet. However, lipids are a wide group of molecules with specific nutritional and bioactive properties. To understand their true nutritional and functional value, robust methods are needed for accurate identification and quantification. Specific analytical strategies are crucial to target specific classes, especially the ones present in trace amounts. Finding a unique and comprehensive methodology to cover the full lipidome of each foodstuff is still a challenge. This review presents an overview of the lipids nutritionally relevant in foods and new trends in food lipid analysis for each type/class of lipids. Food lipid classes are described following the LipidMaps classification, fatty acids, endocannabinoids, waxes, C8 compounds, glycerophospholipids, glycerolipids (i.e., glycolipids, betaine lipids, and triglycerides), sphingolipids, sterols, sercosterols (vitamin D), isoprenoids (i.e., carotenoids and retinoids (vitamin A)), quinones (i.e., coenzyme Q, vitamin K, and vitamin E), terpenes, oxidized lipids, and oxylipin are highlighted. The uniqueness of each food group: oil‐, protein‐, and starch‐rich, as well as marine foods, fruits, and vegetables (water‐rich) regarding its lipid composition, is included. The effect of cooking, food processing, and storage, in addition to the importance of lipidomics in food quality and authenticity, are also discussed. A critical review of challenges and future trends of the analytical approaches and computational methods in global food lipidomics as the basis to increase consumer awareness of the significant role of lipids in food quality and food security worldwide is presented. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Computational Lipidomics and Lipid Bioinformatics: Filling In the Blanks

Author

Pauling Josch K. and Klipp Edda

Subjects
Biotechnology, TP248.13-248.65
Abstract

Lipids are highly diverse metabolites of pronounced importance in health and disease. While metabolomics is a broad field under the omics umbrella that may also relate to lipids, lipidomics is an emerging field which specializes in the identification, quantification and functional interpretation of complex lipidomes. Today, it is possible to identify and distinguish lipids in a high-resolution, high-throughput manner and simultaneously with a lot of structural detail. However, doing so may produce thousands of mass spectra in a single experiment which has created a high demand for specialized computational support to analyze these spectral libraries. The computational biology and bioinformatics community has so far established methodology in genomics, transcriptomics and proteomics but there are many (combinatorial) challenges when it comes to structural diversity of lipids and their identification, quantification and interpretation. This review gives an overview and outlook on lipidomics research and illustrates ongoing computational and bioinformatics efforts. These efforts are important and necessary steps to advance the lipidomics field alongside analytic, biochemistry, biomedical and biology communities and to close the gap in available computational methodology between lipidomics and other omics sub-branches.

Published
2016
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13. The FeatureCloud Platform for Federated Learning in Biomedicine: Unified Approach.

Author

Matschinske, Julian, Späth, Julian, Bakhtiari, Mohammad, Probul, Niklas, Kazemi Majdabadi, Mohammad Mahdi, Nasirigerdeh, Reza, Torkzadehmahani, Reihaneh, Hartebrodt, Anne, Orban, Balazs-Attila, Fejér, Sándor-József, Zolotareva, Olga, Das, Supratim, Baumbach, Linda, Pauling, Josch K, Tomašević, Olivera, Bihari, Béla, Bloice, Marcus, Donner, Nina C, Fdhila, Walid, and Frisch, Tobias

Subjects
MACHINE learning, FEDERATED learning, GENERAL Data Protection Regulation, 2016, DATA privacy, ARTIFICIAL intelligence
Abstract

Background: Machine learning and artificial intelligence have shown promising results in many areas and are driven by the increasing amount of available data. However, these data are often distributed across different institutions and cannot be easily shared owing to strict privacy regulations. Federated learning (FL) allows the training of distributed machine learning models without sharing sensitive data. In addition, the implementation is time-consuming and requires advanced programming skills and complex technical infrastructures. Objective: Various tools and frameworks have been developed to simplify the development of FL algorithms and provide the necessary technical infrastructure. Although there are many high-quality frameworks, most focus only on a single application case or method. To our knowledge, there are no generic frameworks, meaning that the existing solutions are restricted to a particular type of algorithm or application field. Furthermore, most of these frameworks provide an application programming interface that needs programming knowledge. There is no collection of ready-to-use FL algorithms that are extendable and allow users (eg, researchers) without programming knowledge to apply FL. A central FL platform for both FL algorithm developers and users does not exist. This study aimed to address this gap and make FL available to everyone by developing FeatureCloud, an all-in-one platform for FL in biomedicine and beyond. Methods: The FeatureCloud platform consists of 3 main components: a global frontend, a global backend, and a local controller. Our platform uses a Docker to separate the local acting components of the platform from the sensitive data systems. We evaluated our platform using 4 different algorithms on 5 data sets for both accuracy and runtime. Results: FeatureCloud removes the complexity of distributed systems for developers and end users by providing a comprehensive platform for executing multi-institutional FL analyses and implementing FL algorithms. Through its integrated artificial intelligence store, federated algorithms can easily be published and reused by the community. To secure sensitive raw data, FeatureCloud supports privacy-enhancing technologies to secure the shared local models and assures high standards in data privacy to comply with the strict General Data Protection Regulation. Our evaluation shows that applications developed in FeatureCloud can produce highly similar results compared with centralized approaches and scale well for an increasing number of participating sites. Conclusions: FeatureCloud provides a ready-to-use platform that integrates the development and execution of FL algorithms while reducing the complexity to a minimum and removing the hurdles of federated infrastructure. Thus, we believe that it has the potential to greatly increase the accessibility of privacy-preserving and distributed data analyses in biomedicine and beyond. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Lipid network and moiety analysis for revealing enzymatic dysregulation and mechanistic alterations from lipidomics data.

Author

Rose, Tim D, Köhler, Nikolai, Falk, Lisa, Klischat, Lucie, Lazareva, Olga E, and Pauling, Josch K

Subjects
LIPIDOMICS, ENZYMATIC analysis, BIOMASS energy, MOIETIES (Chemistry), GRAPH algorithms, LIPIDS
Abstract

Lipidomics is of growing importance for clinical and biomedical research due to many associations between lipid metabolism and diseases. The discovery of these associations is facilitated by improved lipid identification and quantification. Sophisticated computational methods are advantageous for interpreting such large-scale data for understanding metabolic processes and their underlying (patho)mechanisms. To generate hypothesis about these mechanisms, the combination of metabolic networks and graph algorithms is a powerful option to pinpoint molecular disease drivers and their interactions. Here we present lipid network explorer (LINEX |$^2$|⁠), a lipid network analysis framework that fuels biological interpretation of alterations in lipid compositions. By integrating lipid-metabolic reactions from public databases, we generate dataset-specific lipid interaction networks. To aid interpretation of these networks, we present an enrichment graph algorithm that infers changes in enzymatic activity in the context of their multispecificity from lipidomics data. Our inference method successfully recovered the MBOAT7 enzyme from knock-out data. Furthermore, we mechanistically interpret lipidomic alterations of adipocytes in obesity by leveraging network enrichment and lipid moieties. We address the general lack of lipidomics data mining options to elucidate potential disease mechanisms and make lipidomics more clinically relevant. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Susceptibility to diet-induced obesity at thermoneutral conditions is independent of UCP1.

Author

Dieckmann, Sebastian, Strohmeyer, Akim, Willershäuser, Monja, Maurer, Stefanie F., Wurst, Wolfgang, Marschall, Susan, de Angelis, Martin Hrabe, K€uhn, Ralf, Worthmann, Anna, Fuh, Marceline M., Heeren, Joerg, Köhler, Nikolai, Pauling, Josch K., and Klingenspor, Martin

Subjects
HIGH-fat diet, BROWN adipose tissue, UNCOUPLING proteins, CALORIC expenditure, WESTERN immunoblotting, WEIGHT gain, OBESITY
Abstract

Activation of uncoupling protein 1 (UCP1) in brown adipose tissue (BAT) upon cold stimulation leads to substantial increase in energy expenditure to defend body temperature. Increases in energy expenditure after a high-caloric food intake, termed dietinduced thermogenesis, are also attributed to BAT. These properties render BAT a potential target to combat diet-induced obesity. However, studies investigating the role of UCP1 to protect against diet-induced obesity are controversial and rely on the phenotyping of a single constitutive UCP1-knockout model. To address this issue, we generated a novel UCP1-knockout model by Cre-mediated deletion of exon 2 in the UCP1 gene. We studied the effect of constitutive UCP1 knockout on metabolism and the development of diet-induced obesity. UCP1 knockout and wild-type mice were housed at 30°C and fed a control diet for 4 wk followed by 8 wk of high-fat diet. Body weight and food intake were monitored continuously over the course of the study, and indirect calorimetry was used to determine energy expenditure during both feeding periods. Based on Western blot analysis, thermal imaging and noradrenaline test, we confirmed the lack of functional UCP1 in knockout mice. However, body weight gain, food intake, and energy expenditure were not affected by loss of UCP1 function during both feeding periods. We introduce a novel UCP1-KO mouse enabling the generation of conditional UCP1-knockout mice to scrutinize the contribution of UCP1 to energy metabolism in different cell types or life stages. Our results demonstrate that UCP1 does not protect against diet-induced obesity at thermoneutrality. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Loss of hepatic Mboat7 leads to liver fibrosis.

Author

Thangapandi, Veera Raghavan, Knittelfelder, Oskar, Brosch, Mario, Patsenker, Eleonora, Vvedenskaya, Olga, Buch, Stephan, Hinz, Sebastian, Hendricks, Alexander, Nati, Marina, Herrmann, Alexander, Rekhade, Devavrat Ravindra, Berg, Thomas, Matz-Soja, Madlen, Huse, Klaus, Klipp, Edda, Pauling, Josch K., Wodke, Judith A. H., Ackerman, Jacobo Miranda, von Bonin, Malte, and Aigner, Elmar

Subjects
LIVER histology, FATTY liver, LIVER, FIBROSIS, CHRONIC hepatitis B
Published
2021
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17. Proposal for a common nomenclature for fragment ions in mass spectra of lipids.

Author

Pauling, Josch K., Hermansson, Martin, Hartler, Jürgen, Christiansen, Klaus, Gallego, Sandra F., Peng, Bing, Ahrends, Robert, and Ejsing, Christer S.

Subjects
*MASS spectrometry, *BIOLOGICAL systems, *CATALOGING, *CHEMICAL structure, *IONS
Abstract

Advances in mass spectrometry-based lipidomics have in recent years prompted efforts to standardize the annotation of the vast number of lipid molecules that can be detected in biological systems. These efforts have focused on cataloguing, naming and drawing chemical structures of intact lipid molecules, but have provided no guidelines for annotation of lipid fragment ions detected using tandem and multi-stage mass spectrometry, albeit these fragment ions are mandatory for structural elucidation and high confidence lipid identification, especially in high throughput lipidomics workflows. Here we propose a nomenclature for the annotation of lipid fragment ions, describe its implementation and present a freely available web application, termed ALEX123 lipid calculator, that can be used to query a comprehensive database featuring curated lipid fragmentation information for more than 430,000 potential lipid molecules from 47 lipid classes covering five lipid categories. We note that the nomenclature is generic, extendable to stable isotope-labeled lipid molecules and applicable to automated annotation of fragment ions detected by most contemporary lipidomics platforms, including LC-MS/MS-based routines. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Analysis of the Airway Microbiota of Healthy Individuals and Patients with Chronic Obstructive Pulmonary Disease by T-RFLP and Clone Sequencing.

Author

Zakharkina, Tetyana, Heinzel, Elke, Koczulla, Rembert A., Greulich, Timm, Rentz, Katharina, Pauling, Josch K., Baumbach, Jan, Herrmann, Mathias, Grünewald, Christiane, Dienemann, Hendrik, von Müller, Lutz, and Bals, Robert

Subjects
OBSTRUCTIVE lung diseases patients, RESPIRATORY organ microbiology, GENETIC polymorphisms, NUCLEOTIDE sequence, MICROBIAL ecology, MEDICAL microbiology, RESPIRATORY infections
Abstract

Chronic obstructive pulmonary disease (COPD) is a progressive, inflammatory lung disease that affects a large number of patients and has significant impact. One hallmark of the disease is the presence of bacteria in the lower airways. Objective: The aim of this study was to analyze the detailed structure of microbial communities found in the lungs of healthy individuals and patients with COPD. Nine COPD patients as compared and 9 healthy individuals underwent flexible bronchoscopy and BAL was performed. Bacterial nucleic acids were subjected to terminal restriction fragment (TRF) length polymorphism and clone library analysis. Overall, we identified 326 T-RFLP band, 159 in patients and 167 in healthy controls. The results of the TRF analysis correlated partly with the data obtained from clone sequencing. Although the results of the sequencing showed high diversity, the genera Prevotella, Sphingomonas, Pseudomonas, Acinetobacter, Fusobacterium, Megasphaera, Veillonella, Staphylococcus, and Streptococcus constituted the major part of the core microbiome found in both groups. A TRF band possibly representing Pseudomonas sp. monoinfection was associated with a reduction of the microbial diversity. Non-cultural methods reveal the complexity of the pulmonary microbiome in healthy individuals and in patients with COPD. Alterations of the microbiome in pulmonary diseases are correlated with disease. [ABSTRACT FROM AUTHOR]

Published
2013
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21. Liver Lipids of Patients with Hepatitis B and C and Associated Hepatocellular Carcinoma.

Author

Haberl, Elisabeth M., Weiss, Thomas S., Peschel, Georg, Weigand, Kilian, Köhler, Nikolai, Pauling, Josch K., Wenzel, Jürgen J., Höring, Marcus, Krautbauer, Sabrina, Liebisch, Gerhard, Buechler, Christa, Pallottini, Valentina, Cutone, Antimo, and Segatto, Marco

Subjects
CHRONIC hepatitis B, HEPATITIS B, TUMOR suppressor proteins, HEPATOCELLULAR carcinoma, LIPIDS, LIPID metabolism
Abstract

Hepatocellular carcinoma (HCC) still remains a difficult to cure malignancy. In recent years, the focus has shifted to lipid metabolism for the treatment of HCC. Very little is known about hepatitis B virus (HBV) and C virus (HCV)-related hepatic lipid disturbances in non-malignant and cancer tissues. The present study showed that triacylglycerol and cholesterol concentrations were similar in tumor adjacent HBV and HCV liver, and were not induced in the HCC tissues. Higher levels of free cholesterol, polyunsaturated phospholipids and diacylglycerol species were noted in non-tumorous HBV compared to HCV liver. Moreover, polyunsaturated phospholipids and diacylglycerols, and ceramides declined in tumors of HBV infected patients. All of these lipids remained unchanged in HCV-related HCC. In HCV tumors, polyunsaturated phosphatidylinositol levels were even induced. There were no associations of these lipid classes in non-tumor tissues with hepatic inflammation and fibrosis scores. Moreover, these lipids did not correlate with tumor grade or T-stage in HCC tissues. Lipid reprogramming of the three analysed HBV/HCV related tumors mostly resembled HBV-HCC. Indeed, lipid composition of non-tumorous HCV tissue, HCV tumors, HBV tumors and HBV/HCV tumors was highly similar. The tumor suppressor protein p53 regulates lipid metabolism. The p53 and p53S392 protein levels were induced in the tumors of HBV, HCV and double infected patients, and this was significant in HBV infection. Negative correlation of tumor p53 protein with free cholesterol indicates a role of p53 in cholesterol metabolism. In summary, the current study suggests that therapeutic strategies to target lipid metabolism in chronic viral hepatitis and associated cancers have to consider disease etiology. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Automated, parallel mass spectrometry imaging and structural identification of lipids.

Author

Ellis SR, Paine MRL, Eijkel GB, Pauling JK, Husen P, Jervelund MW, Hermansson M, Ejsing CS, and Heeren RMA

Subjects
Carbohydrate Conformation, Automation, Lipids chemistry, Lipids classification, Mass Spectrometry methods
Abstract

We report a method that enables automated data-dependent acquisition of lipid tandem mass spectrometry data in parallel with a high-resolution mass spectrometry imaging experiment. The method does not increase the total image acquisition time and is combined with automatic structural assignments. This lipidome-per-pixel approach automatically identified and validated 104 unique molecular lipids and their spatial locations from rat cerebellar tissue.

Published
2018
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23. Elucidation of epithelial-mesenchymal transition-related pathways in a triple-negative breast cancer cell line model by multi-omics interactome analysis.

Author

Pauling JK, Christensen AG, Batra R, Alcaraz N, Barbosa E, Larsen MR, Beck HC, Leth-Larsen R, Azevedo V, Ditzel HJ, and Baumbach J

Subjects
Cell Line, Tumor, Computational Biology methods, Female, Genomics methods, Humans, Proteomics methods, Epithelial-Mesenchymal Transition genetics, Gene Expression Regulation, Neoplastic genetics, Phosphorylation genetics, Protein Processing, Post-Translational genetics, Signal Transduction genetics, Triple Negative Breast Neoplasms genetics
Abstract

In life sciences, and particularly biomedical research, linking aberrant pathways exhibiting phenotype-specific alterations to the underlying physical condition or disease is an ongoing challenge. Computationally, a key approach for pathway identification is data enrichment, combined with generation of biological networks. This allows identification of intrinsic patterns in the data and their linkage to a specific context such as cellular compartments, diseases or functions. Identification of aberrant pathways by traditional approaches is often limited to biological networks based on either gene expression, protein expression or post-translational modifications. To overcome single omics analysis, we developed a set of computational methods that allow a combined analysis of data collections from multiple omics fields utilizing hybrid interactome networks. We apply these methods to data obtained from a triple-negative breast cancer cell line model, combining data sets of gene and protein expression as well as protein phosphorylation. We focus on alterations associated with the phenotypical differences arising from epithelial-mesenchymal transition in two breast cancer cell lines exhibiting epithelial-like and mesenchymal-like morphology, respectively. Here we identified altered protein signaling activity in a complex biologically relevant network, related to focal adhesion and migration of breast cancer cells. We found dysregulated functional network modules revealing altered phosphorylation-dependent activity in concordance with the phenotypic traits and migrating potential of the tested model. In addition, we identified Ser267 on zyxin, a protein coupled to actin filament polymerization, as a potential in vivo phosphorylation target of cyclin-dependent kinase 1.

Published
2014
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