Precision Cancer Therapies
Volume 1: Targeting Oncogenic Drivers and Signaling Pathways in Lymphoid Malignancies. From Concept to Practice
1. Edition May 2023
512 Pages, Hardcover
Practical Approach Book
Further versions
Targeting Oncogenic Drivers and Signaling Pathways in Lymphoid Malignancies
A thorough compilation of the many scientific breakthroughs in the ongoing development of precision cancer therapies related to lymphoma
Targeting Oncogenic Drivers and Signaling Pathways in Lymphoid Malignancies: From Concept to Practice focuses on lymphoma, an area which has seen a remarkable number of breakthroughs in the ongoing development of precision cancer therapies. Each section on a specific biology or class of drugs has an introductory chapter written by an authority in the field, exclusively focused on the science and its relevance to cancer biology. This approach addresses the need for scientists, physicians, and the private sector to understand the broader context of the extraordinary advances that have produced such astonishing advances in the disease.
The work primarily focuses on how to understand and translate fundamental principles of basic science into information that can be directly applied to patients - hence the subtitle, From Concept to Practice. To aid in readers' comprehension, the first page of each chapter contains a box entitled 'Take Home Points'. This short text will highlight the major unique points about the information contained within the chapter. Some of the key topics addressed in the work are as follows:
* Biological basis of the lymphoid malignancies: fundamental principles of lymphomagenesis and molecular classification of lymphoid malignancies
* Targeting programmed cell death: principles for understanding the many types of cell death and promising combinations of drugs targeting apoptosis
* Targeting the PI3K pathway: understanding the intricacies of this complex biology and precisely how targeted drugs can be leveraged therapeutically
* Targeting the cancer epigenome: pharmacologic features of drugs targeting the epigenome and future prospects for targeting various aspects of epigenetic control
* Targeting the tumour proteome: understanding the mechanisms of protein degradation in cancer including both older drugs like proteasome inhibitors, and newer PROTAC based approaches
Written primarily for scientists and physicians in both the public and private sectors, Targeting Oncogenic Drivers and Signaling Pathways in Lymphoid Malignancies: From Concept to Practice is a comprehensive reference work for those interested in the growing area of Precision Cancer Therapies. Seamlessly integrating the basic and applied science, this volume will be an indispensable reference for those interested in translating the most important advances in science to innovative novel treatments for patients.
Volume Foreword xxiv
Volume Preface xxvi
Series Preface xxviii
Section I Biological Basis of the Lymphoid Malignancies 1
1 Fundamental Principles of Lymphomagenesis 3
Pierre Sujobert, Philippe Gaulard, and Laurence de Leval
2 Identifying Molecular Drivers of Lymphomagenesis 12
Jennifer Shingleton and Sandeep S. Dave
3 Characterizing the Spectrum of Epigenetic Dysregulation Across Lymphoid Malignancies 25
Sean Harrop, Michael Dickinson, Ricky Johnstone, and Henry Miles Prince
4 Animal Models of Lymphoid Malignancies 40
Anjali Mishra
Section II Targeting the PI3 Kinase-AKT-mTOR Pathway 53
5 Principles of PI3K Biology and Its Role in Lymphoma 55
Ralitsa R. Madsen
6 Pharmacologic Differentiation of Drugs Targeting the PI3K-AKT-mTOR Signaling Pathway 71
Inhye E. Ahn, Jennifer R. Brown, and Matthew S. Davids
7 Clinical Experience with Phosphatidylinositol 3-Kinase Inhibitors in Hematologic Malignancies 86
Alessandro Broccoli and Pier Luigi Zinzani
9 PI3 Kinase, AKT, and mTOR Inhibitors 113
Joel McCay and John G. Gribben
Section III Targeting Programmed Cell Death 131
10 Principles for Understanding Mechanisms of Cell Death and Their Role in Cancer Biology 133
Sarah T. Diepstraten, John E. La Marca, David C.S. Huang, and Gemma L. Kelly
11 Pharmacologic Features of Drugs Targeting BCL2 Family Members 151
Jennifer K. Lue and Owen A. O'Connor
12 Clinical Experience with Pro-Apoptotic Agents 165
Thomas E. Lew and John F. Seymour
13 Promising Combinations of Drugs Targeting Apoptosis 186
William G. Wierda
Section IV Targeting the Cancer Epigenome 197
14 The Role of Epigenetic Dysregulation in Lymphoma Biology 199
Qing Deng and Michael R. Green
15 Quantitating and Characterizing the Effects of Epigenetic Targeted Drugs 209
Emily Gruber, Alexander C. Lewis, and Lev M. Kats
16 Clinical Experience with Epigenetic Drugs in Lymphoid Malignancies 225
Enrica Marchi, Ipsita Pal, and John Sanil Manavalan
17 Future Prospects for Targeting the Epigenome in Lymphomas 236
Yusuke Isshiki and Ari Melnick
Section V Targeting the B-cell Receptor (BCR) 249
18 The Pathologic Role of BCR Dysregulation in Lymphoid Malignancies 251
Jan A. Burger
19 Pharmacologic Features of Drugs Targeting Bruton's Tyrosine Kinase (BTK) 268
Joel McCay and John G. Gribben
20 Clinical Experience with Drugs Targeting Bruton's Tyrosine Kinase (BTK) 278
Julia Aronson, Anthony R. Mato, Catherine C. Coombs, Prioty Islam, Lindsey E. Roeker, and Toby Eyre
21 Promising Combinations of BTK Inhibitors with Other Targeted Agents 287
Nicholas J. Schmidt, Michael E. Williams, and Craig A. Portell
Section VI Protein Degraders and Membrane Transport Inhibitors 301
22 The Biological Basis for Targeting Protein Turnover in Malignant Cells 303
Robert Z. Orlowski
23 Preclinical Overview of Drugs Affecting Protein Turnover in Multiple Myeloma 313
Giada Bianchi, Matthew Ho, and Kenneth C. Anderson
24 Clinical Experience on Proteasome Inhibitors in Cancer 331
Noa Biran, Pooja Phull, and Andre Goy
25 Targeting Nuclear Protein Transport with XPO Inhibitors in Lymphoma 361
Farheen Manji, Kyla Trkulja, Rob C. Laister, and John Kuruvilla
26 Heterobifunctional Degraders for the Treatment of Lymphoid Malignancies 372
Ashwin Gollerkeri, Jared Gollob, and Nello Mainolfi
Section VII Novel Targets and Therapeutic Prospects in Development 381
27 Strategies for Targeting the JAK-STAT Pathway in Lymphoid Malignancies 383
David J. Feith, Johnson Ung, Omar Elghawy, Peibin Yue, James Turkson, and Thomas P. Loughran Jr
28 Strategies for Targeting MYC 402
Jemma Longley and Andrew Davies
29 Targeting NOTCH in Lymphoid Malignancies 411
Deborah Piffaretti, Georgia Alice Galimberti, and Davide Rossi
30 Targeting NF-kappaB in Oncology, an Untapped Therapeutic Potential 428
Matko Kalac
31 Targeting the Cell Cycle and Cyclin-dependent Kinases 444
Chiara Tarantelli and Francesco Bertoni
References 452
Index 457
Stephen M. Ansell, M.D., Ph.D. is the Dorotha W. and Grant L. Sundquist Professor of Hematologic Malignancies Research and the Chair of the Division of Hematology at Mayo Clinic. He received his medical degree from the University of Pretoria, South Africa and then completed a fellowship in Hematology and Medical Oncology at Mayo Clinic. His research focuses on optimizing antitumor immune function in B-cell malignancies. He received the Ernst Beutler Award from the American Society of Hematology in 2021 in recognition of his work.
John F. Seymour MBBS Ph.D. heads the Department of Haematology of the Peter MacCallum Cancer Centre & the Royal Melbourne Hospital and is Professor of Medicine at the University of Melbourne. He completed a translational research fellowship at the MD Anderson Cancer Center in Houston, and has received their Distinguished Alumnus award. His work is focused on new drug development in lymphoid malignancies. He was awarded Membership of the Order of Australia, and elected to the Australian Academy of Health and Medical Sciences for his contributions to the field.
