1 / 1

Comparative transcriptome analysis of human and mouse synovial fibroblast responses to TNF

Comparative transcriptome analysis of human and mouse synovial fibroblast responses to TNF. RA vs OA. R 2 = 0,633 R = 0,795. Thomas Häupl 1 , Till Sörensen 1 , Bijana Smiljanovic 1 , Marc Bonin 1 , Andreas Grützkau 2 , Christoforos Nikolaou 3 , George Kollias 3 , Anthony Rowe 4 .

liana
Download Presentation

Comparative transcriptome analysis of human and mouse synovial fibroblast responses to TNF

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Comparative transcriptome analysis of human and mouse synovial fibroblast responses to TNF RA vs OA R2 = 0,633 R = 0,795 Thomas Häupl1, Till Sörensen1, Bijana Smiljanovic1, Marc Bonin1, Andreas Grützkau2, Christoforos Nikolaou3, George Kollias3, Anthony Rowe4. 1 Department of Rheumatology and Clinical Immunology, Charité UniversityHospital, Berlin, Germany, 2German Arthritis Research Center, Berlin, Germany, 3Biomedical Sciences Research Centre „Alexander Fleming“, Institute of Immunology, Vari, 4Janssen Research and Development Background: Methods: Animal models are essential for development of new therapeutics to test their effectiveness and to control for side effects. However, targeted therapies for rheumatoid arthritis (RA), which pass the filter for effectiveness in animal models, may at the end be more suited to prevent arthritis in the model than in human disease. Having still one third or more of the patients not sufficiently responding after switching to biologics, it is suspected that appropriate animal models are needed for each particular subgroup of RA patients. A GEO repository search for compatible data sets on arthritis in human and mouse revealed the Affymetrix based transcriptomes of synovial fibroblasts from rheumatoid arthritis (RA) and osteoarthritis (OA) patients (GEO-accession: GSE13837) and mouse BALBc wt (GSE17160) with similar stimulation (TNF-alpha) and time point after stimulation (12 hours). MAS5 algorithms of signal extraction and pairwise comparison were performed. The BioRetis database was used for group comparisons, candidate gene selection and data sharing. Differentially expressed genes were exported for interspecies comparison in a filemaker database. Affymetrix annotation files were used for mapping of orthologous genes. Objective: Results: In order to characterize such differences and to find models matching with disease subgroups, we started a pilot investigation based on published transcriptomes to develop bioinformatic strategies of interspecies gene expression comparison. The number of differentially expressed genes induced by TNF in synovial fibroblast from RA, OA and BALBc were 1584, 1476 and 503 respectively. Comparison of genes overexpressed in RA and OA revealed up to 70% (1034 genes) overlap. Murine and human response was similar for 197 genes in all three groups, 45 only between BALBc and RA and 24 only between BALBc and OA (figure 1). Ranking the genes by dominance in change call and/or fold change, 7 genes were overlapping between the top 10 of both human cells, OA and RA, and 13 out of the top 20. All overlapping genes in human revealed a high correlation (figure 2A). In contrast, overlap between RA and BALBc SFbl responses revealed only 4 genes out of the top 10 and 5 out of the top 20 in each and a weaker correlation (figure 2B). Pathway tools including IPA may identify TNF as one potential upstream regulator. However, the reference list of expected gene candidates for scoring in IPA seemed to be about 2.5 fold longer in human and to include less than 60% of the murine reference candidates (table 1). Figure 1 Genes identified as induced in synovial fibroblasts after 12h of stimulation with TNFa. 65% / 70% RA OA 1584 1476 837 505 418 197 45 24 15% 44% 15% 48% Conclusion: 237 Interspecies comparison in this defined experiment revealed first insight in common responses but also demonstrates that differences can be observed even in most dominant candidate genes. Therefore, systematic investigations are needed to provide a reliable basis for comparative mapping of the molecular pathomechanisms in mouse models and human disease. 503 BALBc Figure 3 Figure 2 A regulator ranking candidate ranking Figure 2 B RA vs BALBc R2 = 0,153 R = 0,392 Upstream regulators suggested by Ingenuity Pathway Analysis (IPA): 1584 genes induced in RA synovial fibroblasts by TNF alpha were uploaded into IPA and upstream regulators were ranked by the likelyhood to overlap with regulator specific reference genes in IPA. • Table 1: Contacts: Thomas Häupl Department of Rheumatology and Clinical Immunology Charité University Hospital Charitéplatz 1 D-10117 Berlin Germany Tel: +49(0) 30 450 513 291 Fax: +49(0) 30 450 513 968 E-Mail: thomas.haeupl@charite.de Web: www.charite-bioinformatik.de www.charite-bioinformatik.de/Poster/EWRR_2013_Interspecies_Comparison.pdf ArthroMark grant no 01EC1009A Acknowledgement: BTCure IMI grant agreement no. 115142

More Related