Your search keyword '"Rye, Inga Hansine"' showing total 9 results

1. Simulated Ablation for Detection of Cells Impacting Paracrine Signalling in Histology Analysis

Author

Taylor-King, Jake P., Baratchart, Etienne, Dhawan, Andrew, Coker, Elizabeth A., Rye, Inga Hansine, Russnes, Hege, Chapman, S. Jon, Basanta, David, and Marusyk, Andriy

Subjects

Quantitative Biology - Cell Behavior, Quantitative Biology - Quantitative Methods, Quantitative Biology - Tissues and Organs

Abstract

Intra-tumour phenotypic heterogeneity limits accuracy of clinical diagnostics and hampers the efficiency of anti-cancer therapies. Dealing with this cellular heterogeneity requires adequate understanding of its sources, which is extremely difficult, as phenotypes of tumour cells integrate hardwired (epi)mutational differences with the dynamic responses to microenvironmental cues. The later come in form of both direct physical interactions, as well as inputs from gradients of secreted signalling molecules. Furthermore, tumour cells can not only receive microenvironmental cues, but also produce them. Despite high biological and clinical importance of understanding spatial aspects of paracrine signaling, adequate research tools are largely lacking. Here, a partial differential equation (PDE) based mathematical model is developed that mimics the process of cell ablation. This model suggests how each cell might contribute to the microenvironment by either absorbing or secreting diffusible factors, and quantifies the extent to which observed intensities can be explained via diffusion mediated signalling. The model allows for the separation of phenotypic responses to signalling gradients within tumour microenvironments from the combined influence of responses mediated by direct physical contact and hardwired (epi)genetic differences. The differential equation is solved around cell membrane outlines using a finite element method (FEM). The method is applied to a multi-channel immunofluorescence in situ hybridization (iFISH) stained breast cancer histological specimen and correlations are investigated between: HER2 gene amplification; HER2 protein expression; and cell interaction with the diffusible microenvironment. This approach allows partial deconvolution of the complex inputs..., Comment: 17 pages, 5 figures

Published

2017

2. The Tumor Immune Microenvironment in Breast Cancer Progression

Author

Otterlei Fjørtoft, Marit, primary, Huse, Kanutte, additional, and Rye, Inga Hansine, additional

Published

2024

3. Breast cancer metastasis: immune profiling of lymph nodes reveals exhaustion of effector T cells and immunosuppression.

Author

Rye, Inga Hansine, Huse, Kanutte, Josefsson, Sarah E., Kildal, Wanja, Danielsen, Håvard E., Schlichting, Ellen, Garred, Øystein, Riis, Margit L., OSBREAC, Lingjærde, Ole Christian, Myklebust, June H., and Russnes, Hege G.

Abstract

Sentinel lymph nodes are the first nodes draining the lymph from a breast and could reveal early changes in the host immune system upon dissemination of breast cancer cells. To investigate this, we performed single‐cell immune profiling of lymph nodes with and without metastatic cells. Whereas no significant changes were observed for B‐cell and natural killer (NK)‐cell subsets, metastatic lymph nodes had a significantly increased frequency of CD8 T cells and a skewing toward an effector/memory phenotype of CD4 and CD8 T cells, suggesting an ongoing immune response. Additionally, metastatic lymph nodes had an increased frequency of TIGIT (T‐cell immunoreceptor with Ig and ITIM domains)‐positive T cells with suppressed TCR signaling compared with non‐metastatic nodes, indicating exhaustion of effector T cells, and an increased frequency of regulatory T cells (Tregs) with an activated phenotype. T‐cell alterations correlated with the percentage of metastatic tumor cells, reflecting the presence of metastatic tumor cells driving T effector cells toward exhaustion and promoting immunosuppression by recruitment or increased differentiation toward Tregs. These results show that immune suppression occurs already in early stages of tumor progression. [ABSTRACT FROM AUTHOR]

Published

2022

4. Simulated ablation for detection of cells impacting paracrine signalling in histology analysis

Author

Taylor–King, Jake P, primary, Baratchart, Etienne, additional, Dhawan, Andrew, additional, Coker, Elizabeth A, additional, Rye, Inga Hansine, additional, Russnes, Hege, additional, Chapman, S Jon, additional, Basanta, David, additional, and Marusyk, Andriy, additional

Published

2018

5. Erratum: Corrigendum: A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers

Author

Glodzik, Dominik, primary, Morganella, Sandro, additional, Davies, Helen, additional, Simpson, Peter T, additional, Li, Yilong, additional, Zou, Xueqing, additional, Diez-Perez, Javier, additional, Staaf, Johan, additional, Alexandrov, Ludmil B, additional, Smid, Marcel, additional, Brinkman, Arie B, additional, Rye, Inga Hansine, additional, Russnes, Hege, additional, Raine, Keiran, additional, Purdie, Colin A, additional, Lakhani, Sunil R, additional, Thompson, Alastair M, additional, Birney, Ewan, additional, Stunnenberg, Hendrik G, additional, van de Vijver, Marc J, additional, Martens, John W M, additional, Børresen-Dale, Anne-Lise, additional, Richardson, Andrea L, additional, Kong, Gu, additional, Viari, Alain, additional, Easton, Douglas, additional, Evan, Gerard, additional, Campbell, Peter J, additional, Stratton, Michael R, additional, and Nik-Zainal, Serena, additional

Published

2017

6. A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers

Author

Glodzik, Dominik, primary, Morganella, Sandro, additional, Davies, Helen, additional, Simpson, Peter T, additional, Li, Yilong, additional, Zou, Xueqing, additional, Diez-Perez, Javier, additional, Staaf, Johan, additional, Alexandrov, Ludmil B, additional, Smid, Marcel, additional, Brinkman, Arie B, additional, Rye, Inga Hansine, additional, Russnes, Hege, additional, Raine, Keiran, additional, Purdie, Colin A, additional, Lakhani, Sunil R, additional, Thompson, Alastair M, additional, Birney, Ewan, additional, Stunnenberg, Hendrik G, additional, van de Vijver, Marc J, additional, Martens, John W M, additional, Børresen-Dale, Anne-Lise, additional, Richardson, Andrea L, additional, Kong, Gu, additional, Viari, Alain, additional, Easton, Douglas, additional, Evan, Gerard, additional, Campbell, Peter J, additional, Stratton, Michael R, additional, and Nik-Zainal, Serena, additional

Published

2017

7. Simulated ablation for detection of cells impacting paracrine signalling in histology analysis.

Author

Taylor–King, Jake P, Baratchart, Etienne, Dhawan, Andrew, Coker, Elizabeth A, Rye, Inga Hansine, Russnes, Hege, Chapman, S Jon, Basanta, David, and Marusyk, Andriy

Subjects

GENE amplification, CELLS

Abstract

Intra-tumour phenotypic heterogeneity limits accuracy of clinical diagnostics and hampers the efficiency of anti-cancer therapies. Dealing with this cellular heterogeneity requires adequate understanding of its sources, which is extremely difficult, as phenotypes of tumour cells integrate hardwired (epi)mutational differences with the dynamic responses to microenvironmental cues. The later comes in form of both direct physical interactions, as well as inputs from gradients of secreted signalling molecules. Furthermore, tumour cells can not only receive microenvironmental cues, but also produce them. Despite high biological and clinical importance of understanding spatial aspects of paracrine signaling, adequate research tools are largely lacking. Here, a partial differential equation (PDE)–based mathematical model is developed that mimics the process of cell ablation. This model suggests how each cell might contribute to the microenvironment by either absorbing or secreting diffusible factors, and quantifies the extent to which observed intensities can be explained via diffusion-mediated signalling. The model allows for the separation of phenotypic responses to signalling gradients within tumour microenvironments from the combined influence of responses mediated by direct physical contact and hardwired (epi)genetic differences. The method is applied to a multi-channel immunofluorescence in situ hybridisation (iFISH)–stained breast cancer histological specimen, and correlations are investigated between: HER2 gene amplification, HER2 protein expression and cell interaction with the diffusible microenvironment. This approach allows partial deconvolution of the complex inputs that shape phenotypic heterogeneity of tumour cells and identifies cells that significantly impact gradients of signalling molecules. [ABSTRACT FROM AUTHOR]

Published

2019

8. Abstract 4850: Paired-end RNA-sequencing based identification of 24 novel fusion genes in breast cancer

Author

Edgren, Henrik, primary, Murumägi, Astrid, additional, Kangaspeska, Sara, additional, Nicorici, Daniel, additional, Hongisto, Vesa, additional, Kleivi, Kristine, additional, Rye, Inga Hansine, additional, Wolf, Maija, additional, Børresen-Dale, Anne-Lise, additional, and Kallioniemi, Olli, additional

Published

2011

9. Corrigendum: A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers

Author

Glodzik, Dominik, Morganella, Sandro, Davies, Helen, Simpson, Peter T, Li, Yilong, Zou, Xueqing, Diez-Perez, Javier, Staaf, Johan, Alexandrov, Ludmil B, Smid, Marcel, Brinkman, Arie B, Rye, Inga Hansine, Russnes, Hege, Raine, Keiran, Purdie, Colin A, Lakhani, Sunil R, Thompson, Alastair M, Birney, Ewan, Stunnenberg, Hendrik G, van de Vijver, Marc J, Martens, John W M, Børresen-Dale, Anne-Lise, Richardson, Andrea L, Kong, Gu, Viari, Alain, Easton, Douglas, Evan, Gerard, Campbell, Peter J, Stratton, Michael R, and Nik-Zainal, Serena

Abstract

This corrects the article DOI: 10.1038/ng.3771

Published

2017