Tumor Immunology and Immunotherapy - Integrated Methods Part B | Buch | 978-0-12-820667-6 | sack.de

Buch, Englisch, 406 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 770 g

Tumor Immunology and Immunotherapy - Integrated Methods Part B


Erscheinungsjahr 2020
ISBN: 978-0-12-820667-6
Verlag: William Andrew Publishing

Buch, Englisch, 406 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 770 g

ISBN: 978-0-12-820667-6
Verlag: William Andrew Publishing

Tumor Immunology and Immunotherapy - Integrated Methods Part B, Volume 636 in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. Chapters in this update include Quantification methods of Transforming Growth Factor beta (TGF?ß) activity in the setting of cancer immunotherapy, Decoding cancer cell death-driven immune cell recruitment: An in vivo method for site-of-vaccination analyses, Tracking and interrogating tissue-resident and recruited microglia in brain tumors, Metabolomics and lipidomics of the tumor microenvironment, Monitoring abscopal responses to radiation in mice, and much more.
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Zielgruppe

<p>This volume is addressed to experts in the field who may want to expand their technical horizons and to newcomers who need detailed introductions to basic techniques</p>

Autoren/Hrsg.

Fachgebiete

Weitere Infos & Material

1. A comprehensive approach to gene expression profiling in immune cells Sabrina Carpentier, François Romagné and Eric Vivier 2. DIY: Visualizing the immune landscape of tumors using transcriptome and methylome data Steven F. Gameiro, Farhad Ghasemi, John W. Barrett, James Koropatnick, Anthony C. Nichols, Joe S. Mymryk and Saman Maleki Vareki 3. Using epigenetic data to estimate immune composition in admixed samples Ankur Chakravarthy and Daniel De Carvalho 4. Metabolomic approaches to study the tumor microenvironment Giuseppe Astarita, Suraj Dhungana, Bindesh Shrestha and Evagelia C. Laiakis 5. Immunoscore assay for the immune classification of solid tumors: Technical aspects, improvements and clinical perspectives Florence Marliot, Lucie Lafontaine and Jérôme Galon 6. Transforming growth factor beta (TGF-ß) activity in immune-oncology studies Gabriel Gallo-Oller, Marianna Di Scala, Fernando Aranda and Javier Dotor 7. Isolation of DNA from exosomes Sheila Spada, Nils Rudqvist and Erik Wennerberg 8. Decoding cancer cell death-driven immune cell recruitment: An in vivo method for site-of-vaccination analyses Shentong Fang, Patrizia Agostinis, Petri Salven and Abhishek D. Garg 9. Computational methods in tumor immunology Bhavneet Bhinder and Olivier Elemento 10. Deconvoluting tumor-infiltrating immune cells from RNA-seq data using quanTIseq Christina Plattner, Francesca Finotello and Dietmar Rieder 11. Concurrent in situ analysis of point mutations and immune infiltrate in FFPE cancers Ann-Marie Baker and Trevor A. Graham 12. RNA interference screening methods to identify proliferation determinants and mechanisms of resistance to immune attack Yong-Wei Zhang, Rochelle E. Nasto, Sandra A. Jablonski, Ilya G. Serebriiskii, Rishi Surana, Joseph Murray, Michael Johnson, Rebecca B. Riggins, Robert Clarke, Erica A. Golemis and Louis M. Weiner 13. An altered miTRAP method for miRNA affinity purification with its pros and cons Simon Jasinski-Bergner, Christoforos Vaxevanis, Nadine Heimer, Maria-Filothei Lazaridou, Michael Friedrich and Barbara Seliger 14. Identification of immunomodulatory RNA-binding proteins in tumors Michael Friedrich, Maria-Filothei Lazaridou, Jette Rahn, Christoforos Vaxevanis, Nadine Heimer, Simon Jasinski-Bergner and Barbara Seliger 15. Techniques for the generation of humanized mouse models for immuno-oncology Chun I. Yu, Florentina Marches, Te-Chia Wu, Jan Martinek and Karolina Palucka

Rudqvist, Nils-Petter
Nils-Petter Rudqvist received his M.Sc. (Physics, 2009) and Ph.D. (Medical Science, 2015) from the University of Gothenburg, Sweden. He decided to pursue an academic career and continue with his postdoctoral training in US. He first joined the Center for Radiological Research at Columbia University in New York where he studied gene signatures of radiation exposure. He then moved to Weill Cornell Medicine to join the program in radiation and immunity under the mentorship of Dr. Demaria. His current research is focused on investigating which neoantigens are key targets of the radiation-induced anti-tumor T cell response in mice and in patients treated with radiotherapy and immune checkpoint blockade. He recently demonstrated in a mouse model that radiation therapy diversifies the TCR repertoire of tumor infiltrating lymphocytes, an effect crucial for its synergy with immune checkpoint blockade treatment. Nils-Petter has also defined unique patters of expansion of TCR clonotypes in patients who respond or not to treatment with radiotherapy and ipilimumab. He has published 20 articles in peer-reviewed scientific journals and 60+ scientific conference abstracts.

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