Literature DB >> 26193078

Microenvironment interactions and B-cell receptor signaling in Chronic Lymphocytic Leukemia: Implications for disease pathogenesis and treatment.

Elisa Ten Hacken1, Jan A Burger2.   

Abstract

Chronic Lymphocytic Leukemia (CLL) is a malignancy of mature B lymphocytes which are highly dependent on interactions with the tissue microenvironment for their survival and proliferation. Critical components of the microenvironment are monocyte-derived nurselike cells (NLCs), mesenchymal stromal cells, T cells and NK cells, which communicate with CLL cells through a complex network of adhesion molecules, chemokine receptors, tumor necrosis factor (TNF) family members, and soluble factors. (Auto-) antigens and/or autonomous mechanisms activate the B-cell receptor (BCR) and its downstream signaling cascade in secondary lymphatic tissues, playing a central pathogenetic role in CLL. Novel small molecule inhibitors, including the Bruton's tyrosine kinase (BTK) inhibitor ibrutinib and the phosphoinositide-3-kinase delta (PI3Kδ) inhibitor idelalisib, target BCR signaling and have become the most successful new therapeutics in this disease. We here review the cellular and molecular characteristics of CLL cells, and discuss the cellular components and key pathways involved in the cross-talk with their microenvironment. We also highlight the relevant novel treatment strategies, focusing on immunomodulatory agents and BCR signaling inhibitors and how these treatments disrupt CLL-microenvironment interactions. This article is part of a Special Issue entitled: Tumor Microenvironment Regulation of Cancer Cell Survival, Metastasis, Inflammation, and Immune Surveillance edited by Peter Ruvolo and Gregg L. Semenza.
Copyright © 2015 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  BCR; BCR signaling; BCR signaling inhibitors; CLL; Nurselike cells; Stromal cells

Mesh:

Substances:

Year:  2015        PMID: 26193078      PMCID: PMC4715999          DOI: 10.1016/j.bbamcr.2015.07.009

Source DB:  PubMed          Journal:  Biochim Biophys Acta        ISSN: 0006-3002


  187 in total

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3.  Safety and activity of ibrutinib plus rituximab for patients with high-risk chronic lymphocytic leukaemia: a single-arm, phase 2 study.

Authors:  Jan A Burger; Michael J Keating; William G Wierda; Elena Hartmann; Julia Hoellenriegel; Nathalie Y Rosin; Iris de Weerdt; Ghayathri Jeyakumar; Alessandra Ferrajoli; Marylou Cardenas-Turanzas; Susan Lerner; Jeffrey L Jorgensen; Graciela M Nogueras-González; Gracy Zacharian; Xuelin Huang; Hagop Kantarjian; Naveen Garg; Andreas Rosenwald; Susan O'Brien
Journal:  Lancet Oncol       Date:  2014-08-20       Impact factor: 41.316

4.  Physical contact with endothelial cells through β1- and β2- integrins rescues chronic lymphocytic leukemia cells from spontaneous and drug-induced apoptosis and induces a peculiar gene expression profile in leukemic cells.

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Journal:  Haematologica       Date:  2011-12-29       Impact factor: 9.941

5.  Many chronic lymphocytic leukemia antibodies recognize apoptotic cells with exposed nonmuscle myosin heavy chain IIA: implications for patient outcome and cell of origin.

Authors:  Charles C Chu; Rosa Catera; Lu Zhang; Sebastien Didier; Briana M Agagnina; Rajendra N Damle; Matthew S Kaufman; Jonathan E Kolitz; Steven L Allen; Kanti R Rai; Nicholas Chiorazzi
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6.  Small peptide inhibitors of the CXCR4 chemokine receptor (CD184) antagonize the activation, migration, and antiapoptotic responses of CXCL12 in chronic lymphocytic leukemia B cells.

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7.  lenalidomide enhances natural killer cell and monocyte-mediated antibody-dependent cellular cytotoxicity of rituximab-treated CD20+ tumor cells.

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Journal:  Clin Cancer Res       Date:  2008-07-15       Impact factor: 12.531

8.  Modeling absolute lymphocyte counts after treatment of chronic lymphocytic leukemia with ibrutinib.

Authors:  David D Smith; Leanne Goldstein; Mei Cheng; Danelle F James; Lori A Kunkel; Maria Fardis; Ahmed Hamdy; Raquel Izumi; Joseph J Buggy; Fong Clow
Journal:  Ann Hematol       Date:  2014-09-03       Impact factor: 3.673

9.  The DLEU2/miR-15a/16-1 cluster controls B cell proliferation and its deletion leads to chronic lymphocytic leukemia.

Authors:  Ulf Klein; Marie Lia; Marta Crespo; Rachael Siegel; Qiong Shen; Tongwei Mo; Alberto Ambesi-Impiombato; Andrea Califano; Anna Migliazza; Govind Bhagat; Riccardo Dalla-Favera
Journal:  Cancer Cell       Date:  2010-01-07       Impact factor: 31.743

10.  Co-culture of primary CLL cells with bone marrow mesenchymal cells, CD40 ligand and CpG ODN promotes proliferation of chemoresistant CLL cells phenotypically comparable to those proliferating in vivo.

Authors:  Noelia Purroy; Pau Abrisqueta; Júlia Carabia; Cecilia Carpio; Carles Palacio; Francesc Bosch; Marta Crespo
Journal:  Oncotarget       Date:  2015-04-10
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  93 in total

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Authors:  Benjamin L Lampson; Haesook T Kim; Matthew S Davids; Jeremy S Abramson; Arnold S Freedman; Caron A Jacobson; Philippe A Armand; Robin M Joyce; Jon E Arnason; Laura Z Rassenti; Thomas J Kipps; Joshua Fein; Stacey M Fernandes; John R Hanna; David C Fisher; Jennifer R Brown
Journal:  Blood Adv       Date:  2019-04-09

Review 2.  The molecular pathogenesis of chronic lymphocytic leukaemia.

Authors:  Giulia Fabbri; Riccardo Dalla-Favera
Journal:  Nat Rev Cancer       Date:  2016-03       Impact factor: 60.716

3.  Clinical outcomes in chronic lymphocytic leukaemia associated with expression of CD5, a negative regulator of B-cell receptor signalling.

Authors:  Daphne R Friedman; Eross Guadalupe; Alicia Volkheimer; Joseph O Moore; J Brice Weinberg
Journal:  Br J Haematol       Date:  2018-11-08       Impact factor: 6.998

Review 4.  Cell Death Pathways in Lymphoid Malignancies.

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Journal:  Curr Oncol Rep       Date:  2020-01-27       Impact factor: 5.075

5.  Oxidative stress as candidate therapeutic target to overcome microenvironmental protection of CLL.

Authors:  Deyan Yordanov Yosifov; Irina Idler; Nupur Bhattacharya; Michaela Reichenzeller; Viola Close; Daria Ezerina; Annika Scheffold; Billy Michael Chelliah Jebaraj; Sabrina Kugler; Johannes Bloehdorn; Jasmin Bahlo; Sandra Robrecht; Barbara Eichhorst; Kirsten Fischer; Anja Weigel; Hauke Busch; Peter Lichter; Hartmut Döhner; Tobias P Dick; Stephan Stilgenbauer; Daniel Mertens
Journal:  Leukemia       Date:  2019-07-12       Impact factor: 11.528

6.  Chronic lymphocytic leukemia: from molecular pathogenesis to novel therapeutic strategies.

Authors:  Julio Delgado; Ferran Nadeu; Dolors Colomer; Elias Campo
Journal:  Haematologica       Date:  2020-07-02       Impact factor: 9.941

7.  Extracellular vesicles released from chronic lymphocytic leukemia cells exhibit a disease relevant mRNA signature and transfer mRNA to bystander cells.

Authors:  Katrin S Reiners; Olga Shatnyeva; Elena Vasyutina; Teresa Bösl; Hinrich P Hansen; Michael Hallek; Marco Herling; Elke Pogge von Strandmann
Journal:  Haematologica       Date:  2016-11-17       Impact factor: 9.941

8.  IRF4 modulates the response to BCR activation in chronic lymphocytic leukemia regulating IKAROS and SYK.

Authors:  Rossana Maffei; Stefania Fiorcari; Stefania Benatti; Claudio Giacinto Atene; Silvia Martinelli; Patrizia Zucchini; Leonardo Potenza; Mario Luppi; Roberto Marasca
Journal:  Leukemia       Date:  2021-02-23       Impact factor: 11.528

9.  The Dual Syk/JAK Inhibitor Cerdulatinib Antagonizes B-cell Receptor and Microenvironmental Signaling in Chronic Lymphocytic Leukemia.

Authors:  Matthew D Blunt; Stefan Koehrer; Rachel C Dobson; Marta Larrayoz; Sarah Wilmore; Alice Hayman; Jack Parnell; Lindsay D Smith; Andrew Davies; Peter W M Johnson; Pamela B Conley; Anjali Pandey; Jonathan C Strefford; Freda K Stevenson; Graham Packham; Francesco Forconi; Greg P Coffey; Jan A Burger; Andrew J Steele
Journal:  Clin Cancer Res       Date:  2016-10-03       Impact factor: 12.531

10.  For CLL cells, there's no place like home.

Authors:  Benjamin L Lampson; Jennifer R Brown
Journal:  Leuk Lymphoma       Date:  2019-08-02
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