Perturbation-response genes reveal signaling footprints in cancer gene expression

Schubert, Michaël; Klinger, Bertram; Klünemann, Martina; Sieber, Anja; Uhlitz, Florian; Sauer, Sascha; Garnett, Mathew J.; Blüthgen, Nils; Sáez-Rodríguez, Julio

doi:10.1038/s41467-017-02391-6

Cited by 638 publications

(635 citation statements)

References 51 publications

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“…(F) PAS staining showed more prominent mesangial expansion and intratubular protein casts indicative of proteinuria only in hypertensive Foxd1Cre::Pdgfrb +/J mice. (G) Hypertension did not induce mesangial expansion and activation in wt mice, but led to a significant increase in hypertensive PROGENy (Schubert et al, 2018), a tool to estimate pathway activities by evaluating changes in expression levels of genes affected by perturbation of pathways. PROGENy showed the highest activity in the JAK/STAT pathway, but also high activity in other central pathways known to be active in kidney diseases and fibrosis, like TNFa, NFjB, MAPK, p53, and TGFb.…”

Section: Downstream Effects Of Pdgfr-b Activationmentioning

confidence: 99%

Dysregulated mesenchymal PDGFR‐β drives kidney fibrosis

et al. 2020

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Kidney fibrosis is characterized by expansion and activation of platelet‐derived growth factor receptor‐β (PDGFR‐β)‐positive mesenchymal cells. To study the consequences of PDGFR‐β activation, we developed a model of primary renal fibrosis using transgenic mice with PDGFR‐β activation specifically in renal mesenchymal cells, driving their pathological proliferation and phenotypic switch toward myofibroblasts. This resulted in progressive mesangioproliferative glomerulonephritis, mesangial sclerosis, and interstitial fibrosis with progressive anemia due to loss of erythropoietin production by fibroblasts. Fibrosis induced secondary tubular epithelial injury at later stages, coinciding with microinflammation, and aggravated the progression of hypertensive and obstructive nephropathy. Inhibition of PDGFR activation reversed fibrosis more effectively in the tubulointerstitium compared to glomeruli. Gene expression signatures in mice with PDGFR‐β activation resembled those found in patients. In conclusion, PDGFR‐β activation alone is sufficient to induce progressive renal fibrosis and failure, mimicking key aspects of chronic kidney disease in humans. Our data provide direct proof that fibrosis per se can drive chronic organ damage and establish a model of primary fibrosis allowing specific studies targeting fibrosis progression and regression.

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Section: Downstream Effects Of Pdgfr-b Activationmentioning

confidence: 99%

Dysregulated mesenchymal PDGFR‐β drives kidney fibrosis

et al. 2020

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“…(i) First, we compute activities scores for 11 pathways from gene expression of cancer cell lines. It consists in multiplying the transcriptomics data by a loading matrix using PROGENy (12). (ii) We then use Macau algorithm (14) to predict multiple drugs' responses simultaneously by uncovering the common (latent) features that can benefit each individual learning task.…”

Section: Fig 1: Methodsology For Drug Synergy Prediction and Stratifimentioning

confidence: 99%

“…For this, we extend the notion of compound similarity to target similarity: the functional similarity of a pair of target proteins is defined as the correlation between the drug response upon perturbation of those proteins, as a function of the activity of a set of essential pathways. Pathway activities are computed from data-derived gene sets, that have been demonstrated to be more predictive than pathway-based gene sets (11,12). Different cancer types may be driven by different cancer pathways.…”

Section: Introductionmentioning

confidence: 99%

Stratification and prediction of drug synergy based on target functional similarity

Yang

Menden

Jaaks

et al. 2019

Preprint

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“…Direct comparison of ileal CD biopsies between Infliximab responders and non-responders revealed no statistically significant differences. We next assessed pathway level dysregulation between CD biopsies and controls and between Infliximab resistant and sensitive patients using PROGENy (Pathway RespOnsive Genes) ( Figure 1C) (15). PROGENy infers differences in pathway activity based on high confidence signatures of downstream differentially regulated genes indicative of pathway activity rather than other approaches that use expression of pathway members to infer activity (16).…”

Section: The Molecular Characteristics Of Infliximab Resistance Are Tmentioning

confidence: 99%

An Inter-Species Translation Model Implicates Integrin Signaling in Infliximab-Resistant Colonic Crohn’s Disease

Brubaker

Kumar

Vega

et al. 2019

Preprint

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One Sentence Summary: Brubaker et al. implicate dysregulated collagen-binding integrin signaling in resistance to anti-TNF therapy in Crohn's Disease by developing a mouse-proteomic to human-transcriptomic translation model and confirm the associated inter-cellular signaling network using single-cell RNA sequencing. AbstractAnti-TNF therapy resistance is a major clinical challenge in Crohn's Disease (CD), partly due to insufficient understanding of disease-site, protein-level mechanisms of CD and anti-TNF treatment resistance. Although some proteomics data from CD mouse models exists, data type and phenotype discrepancies contribute to confounding attempts to translate between preclinical animal models of disease and human clinical cohorts. To meet this important challenge, we develop and demonstrate here an approach called Translatable Components Regression (TransComp-R) to overcome inter-species and trans-omic discrepancies between CD mouse models and human subjects. TransComp-R combines CD mouse model proteomic data with patient pre-treatment transcriptomic data to identify molecular features discernable in the mouse data predictive of patient response to anti-TNF therapy. Interrogating the TransComp-R models predominantly revealed upregulated integrin pathway signaling via collagen-binding integrin ITGA1 in anti-TNF resistant colonic CD (cCD) patients. Toward validation, we performed single-cell RNA sequencing on biopsies from a cCD patient and analyzed publicly available immune cell proteomics data to characterize the immune and intestinal cell types contributing to anti-TNF resistance. We found that ITGA1 is indeed expressed in colonic T-cell populations and that interactions between collagen-binding integrins on T-cells and colonic cell types expressing secreted collagens are associated with anti-TNF therapy resistance. Biologically, TransComp-R linked previously disparate observations about collagen and ITGA1 signaling to a potential therapeutic avenue for overcoming anti-TNF therapy resistance in cCD. Methodologically, TransComp-R provides a flexible, generalizable framework for addressing inter-species, interomic, and inter-phenotypic discrepancies between animal models and patients to deliver translationally relevant biological insights.

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Perturbation-response genes reveal signaling footprints in cancer gene expression

Cited by 638 publications

References 51 publications

Dysregulated mesenchymal PDGFR‐β drives kidney fibrosis

Dysregulated mesenchymal PDGFR‐β drives kidney fibrosis

Stratification and prediction of drug synergy based on target functional similarity

An Inter-Species Translation Model Implicates Integrin Signaling in Infliximab-Resistant Colonic Crohn’s Disease

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