Spatial patterns of tumour growth impact clonal diversification in a computational model and the TRACERx Renal study

Fu, Xiao; Zhao, Yue; López, José I.; Rowan, Andrew; Au, Lewis; Fendler, Annika; Hazell, Steve; Xu, Hang; Horswell, Stuart; Shepherd, Scott T.C.; Spencer, Charlotte; Spain, Lavinia; Byrne, Fiona; Stamp, Gordon; O’Brien, Tim; Nicol, David; Augustine, Marcellus; Chandra, Ashish; Rudman, Sarah; Toncheva, Antonia; Furness, Andrew; Pickering, Lisa; Kumar, Santosh; Koh, Dow‐Mu; Messiou, Christina; Dafydd, Derfel Ap; Orton, Matthew; Doran, Simon J.; Larkin, James; Swanton, Charles; Sahai, Erik; Litchfield, Kevin; Turajlic, Samra; Challacombe, Ben; Chowdhury, Simon; Drake, William; Fernando, A.; Fotiadis, Nicos; Hatipoglu, Emine; Harrison-Phipps, Karen; Hill, Peter; Horsfield, Catherine; Marafioti, Teresa; Olsburgh, Jonathon; Polson, Alexander; Quezada, Sergio A.; Varia, Mary; Verma, Hema; Bates, Paul A.

doi:10.1038/s41559-021-01586-x

Cited by 32 publications

(47 citation statements)

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“…Increased local tension induces the expression of cancer stem cell markers and modulates cell shape, adhesion, and signaling [14]. Tumor growth and shape, conditioned by mechanical tension and spatial restrictions among other factors, affect the diversification of genetic subclones in clear cell renal carcinoma, demonstrating crosstalk between cellular and architectural intratumor heterogeneity that impacts on cancer evolution [15]. The use of spatial transcriptomics and single-cell RNA sequencing in human pancreatic ductal adenocarcinoma (PDAC) allowed the correlation of transcriptomic signatures and stromal enrichment with spatially isolated architectures within a tumor [16].…”

Section: Open Accessmentioning

confidence: 99%

Tissue architecture in tumor initiation and progression

et al. 2022

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Section: Open Accessmentioning

confidence: 99%

Tissue architecture in tumor initiation and progression

et al. 2022

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“…Phylogenetic reconstruction revealed branched evolutionary tumor growth, demonstrating that sub-clones evolved with tumor progression 29 – 31 . In solid tumors, various immune and stromal cells in TME coevolve with the tumor progression, and the evolution of TME may influence the prognosis and treatment of tumors 11 – 13 . Consequently, trajectory-based differential expression analysis can assist scholars to better understand the evolution of ITH and TME.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, a series of studies showed the deterministic nature of clonal evolution with the progression of tumors, and the evolutionary landscape in ccRCC was dominated by ITH 6 – 10 . Meanwhile, with the change of tumor genome, the tumor microenvironment (TME) may consequently change, and vice versa 11 . The transformation of content and properties of TME caused by the coevolution of tumor and non-tumor cells may have different effects on the prognosis and treatment of RCC 12 , 13 .…”

Section: Introductionmentioning

confidence: 99%

Identification of a differentiation-related prognostic nomogram based on single-cell RNA sequencing in clear cell renal cell carcinoma

Xia

Yao

et al. 2022

Sci Rep

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Renal cell carcinoma (RCC) is a kidney cancer that is originated from the lined proximal convoluted tubule, and its major histological subtype is clear cell RCC (ccRCC). This study aimed to retrospectively analyze single-cell RNA sequencing (scRNA-seq) data from the Gene Expression Omnibus (GEO) database, to explore the correlation among the evolution of tumor microenvironment (TME), clinical outcomes, and potential immunotherapeutic responses in combination with bulk RNA-seq data from The Cancer Genome Atlas (TCGA) database, and to construct a differentiation-related genes (DRG)-based prognostic risk signature (PRS) and a nomogram to predict the prognosis of ccRCC patients. First, scRNA-seq data of ccRCC samples were systematically analyzed, and three subsets with distinct differentiation trajectories were identified. Then, ccRCC samples from TCGA database were divided into four DRG-based molecular subtypes, and it was revealed that the molecular subtypes were significantly correlated with prognosis, clinicopathological features, TME, and the expression levels of immune checkpoint genes (ICGs). A DRG-based PRS was constructed, and it was an independent prognostic factor, which could well predict the prognosis of ccRCC patients. Finally, we constructed a prognostic nomogram based on the PRS and clinicopathological characteristics, which exhibited a high accuracy and a robust predictive performance. This study highlighted the significance of trajectory differentiation of ccRCC cells and TME evolution in predicting clinical outcomes and potential immunotherapeutic responses of ccRCC patients, and the nomogram provided an intuitive and accurate method for predicting the prognosis of such patients.

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“…The tumor periphery may hence represent a spatial niche that harbors tumor cells with an increased fitness or potentially higher aggressiveness. A recent study used computational modeling to suggest that such a “surface growth” pattern could be associated with an enhanced subclonal diversification ( 37 ). While this computational study did not include the microenvironment as a factor that may influence tumor growth, it nevertheless underscores that tumor evolution and growth patterns are very likely connected.…”

Section: Genomic and Functional Intratumoral Heterogeneity (Ith)mentioning

confidence: 99%

Kidney Cancer Models for Pre-Clinical Drug Discovery: Challenges and Opportunities

et al. 2022

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Renal cell carcinoma (RCC) is among the most lethal urological malignancies once metastatic. The introduction of immune checkpoint inhibitors has revolutionized the therapeutic landscape of metastatic RCC, nevertheless, a significant proportion of patients will experience disease progression. Novel treatment options are therefore still needed and in vitro and in vivo model systems are crucial to ultimately improve disease control. At the same time, RCC is characterized by a number of molecular and functional peculiarities that have the potential to limit the utility of pre-clinical model systems. This includes not only the well-known genomic intratumoral heterogeneity (ITH) of RCC but also a remarkable functional ITH that can be shaped by influences of the tumor microenvironment. Importantly, RCC is among the tumor entities, in which a high number of intratumoral cytotoxic T cells is associated with a poor prognosis. In fact, many of these T cells are exhausted, which represents a major challenge for modeling tumor-immune cell interactions. Lastly, pre-clinical drug development commonly relies on using phenotypic screening of 2D or 3D RCC cell culture models, however, the problem of “reverse engineering” can prevent the identification of the precise mode of action of drug candidates thus impeding their translation to the clinic. In conclusion, a holistic approach to model the complex “ecosystem RCC” will likely require not only a combination of model systems but also an integration of concepts and methods using artificial intelligence to further improve pre-clinical drug discovery.

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Spatial patterns of tumour growth impact clonal diversification in a computational model and the TRACERx Renal study

Cited by 32 publications

References 43 publications

Tissue architecture in tumor initiation and progression

Tissue architecture in tumor initiation and progression

Identification of a differentiation-related prognostic nomogram based on single-cell RNA sequencing in clear cell renal cell carcinoma

Kidney Cancer Models for Pre-Clinical Drug Discovery: Challenges and Opportunities

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