Literature DB >> 25312647

Immune cell inhibition by SLAMF7 is mediated by a mechanism requiring src kinases, CD45, and SHIP-1 that is defective in multiple myeloma cells.

Huaijian Guo1, Mario-Ernesto Cruz-Munoz2, Ning Wu3, Michael Robbins4, André Veillette5.   

Abstract

Signaling lymphocytic activation molecule F7 (SLAMF7) is a receptor present on immune cells, including natural killer (NK) cells. It is also expressed on multiple myeloma (MM) cells. This led to development of an anti-SLAMF7 antibody, elotuzumab, showing efficacy against MM. SLAMF7 mediates activating or inhibitory effects in NK cells, depending on whether cells express or do not express the adaptor EAT-2. Since MM cells lack EAT-2, we elucidated the inhibitory effectors of SLAMF7 in EAT-2-negative NK cells and tested whether these effectors were triggered in MM cells. SLAMF7-mediated inhibition in NK cells lacking EAT-2 was mediated by SH2 domain-containing inositol phosphatase 1 (SHIP-1), which was recruited via tyrosine 261 of SLAMF7. Coupling of SLAMF7 to SHIP-1 required Src kinases, which phosphorylated SLAMF7. Although MM cells lack EAT-2, elotuzumab did not induce inhibitory signals in these cells. This was at least partly due to a lack of CD45, a phosphatase required for Src kinase activation. A defect in SLAMF7 function was also observed in CD45-deficient NK cells. Hence, SLAMF7-triggered inhibition is mediated by a mechanism involving Src kinases, CD45, and SHIP-1 that is defective in MM cells. This defect might explain why elotuzumab eliminates MM cells by an indirect mechanism involving the activation of NK cells.
Copyright © 2015, American Society for Microbiology. All Rights Reserved.

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Year:  2014        PMID: 25312647      PMCID: PMC4295394          DOI: 10.1128/MCB.01107-14

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  47 in total

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Authors:  David G T Hesslein; Rayna Takaki; Michelle L Hermiston; Arthur Weiss; Lewis L Lanier
Journal:  Proc Natl Acad Sci U S A       Date:  2006-04-20       Impact factor: 11.205

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Review 3.  Genetic analysis of B cell antigen receptor signaling.

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Journal:  Annu Rev Immunol       Date:  1999       Impact factor: 28.527

4.  CD45 expression by bone marrow plasma cells in multiple myeloma: clinical and biological correlations.

Authors:  S Kumar; S V Rajkumar; T Kimlinger; P R Greipp; T E Witzig
Journal:  Leukemia       Date:  2005-08       Impact factor: 11.528

5.  The cytotoxicity receptor CRACC (CS-1) recruits EAT-2 and activates the PI3K and phospholipase Cgamma signaling pathways in human NK cells.

Authors:  Ilaria Tassi; Marco Colonna
Journal:  J Immunol       Date:  2005-12-15       Impact factor: 5.422

6.  Enhanced generation of NK cells with intact cytotoxic function in CD45 exon 6-deficient mice.

Authors:  H Yamada; K Kishihara; Y Y Kong; K Nomoto
Journal:  J Immunol       Date:  1996-08-15       Impact factor: 5.422

7.  Negative regulation of natural killer cell function by EAT-2, a SAP-related adaptor.

Authors:  Romain Roncagalli; James E R Taylor; Shaohua Zhang; Xiaochu Shi; Riyan Chen; Mario-Ernesto Cruz-Munoz; Luo Yin; Sylvain Latour; André Veillette
Journal:  Nat Immunol       Date:  2005-08-28       Impact factor: 25.606

8.  Ligand-mediated negative regulation of a chimeric transmembrane receptor tyrosine phosphatase.

Authors:  D M Desai; J Sap; J Schlessinger; A Weiss
Journal:  Cell       Date:  1993-05-07       Impact factor: 41.582

9.  The magnitude of Akt/phosphatidylinositol 3'-kinase proliferating signaling is related to CD45 expression in human myeloma cells.

Authors:  Géraldine Descamps; Catherine Pellat-Deceunynck; Yann Szpak; Régis Bataille; Nelly Robillard; Martine Amiot
Journal:  J Immunol       Date:  2004-10-15       Impact factor: 5.422

10.  Molecular and functional characterization of a CS1 (CRACC) splice variant expressed in human NK cells that does not contain immunoreceptor tyrosine-based switch motifs.

Authors:  Jae Kyung Lee; Kent S Boles; Porunelloor A Mathew
Journal:  Eur J Immunol       Date:  2004-10       Impact factor: 5.532
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  32 in total

1.  Elotuzumab in combination with lenalidomide and dexamethasone in patients with relapsed multiple myeloma: final phase 2 results from the randomised, open-label, phase 1b-2 dose-escalation study.

Authors:  Paul G Richardson; Sundar Jagannath; Philippe Moreau; Andrzej J Jakubowiak; Marc S Raab; Thierry Facon; Ravi Vij; Darrell White; Donna E Reece; Lotfi Benboubker; Jeffrey Zonder; L Claire Tsao; Kenneth C Anderson; Eric Bleickardt; Anil K Singhal; Sagar Lonial
Journal:  Lancet Haematol       Date:  2015-11-16       Impact factor: 18.959

2.  Antibody-Dependent Cellular Phagocytosis by Macrophages is a Novel Mechanism of Action of Elotuzumab.

Authors:  Ahmed T Kurdi; Siobhan V Glavey; Natalie A Bezman; Amy Jhatakia; Jennifer L Guerriero; Salomon Manier; Michele Moschetta; Yuji Mishima; Aldo Roccaro; Alexandre Detappe; Chia-Jen Liu; Antonio Sacco; Daisy Huynh; Yu-Tzu Tai; Michael D Robbins; Jamil Azzi; Irene M Ghobrial
Journal:  Mol Cancer Ther       Date:  2018-04-13       Impact factor: 6.261

3.  SLAMF7 Is a Critical Negative Regulator of IFN-α-Mediated CXCL10 Production in Chronic HIV Infection.

Authors:  Patrick O'Connell; Yuliya Pepelyayeva; Maja K Blake; Sean Hyslop; Robert B Crawford; Michael D Rizzo; Cristiane Pereira-Hicks; Sarah Godbehere; Linda Dale; Peter Gulick; Norbert E Kaminski; Andrea Amalfitano; Yasser A Aldhamen
Journal:  J Immunol       Date:  2018-12-10       Impact factor: 5.422

4.  SLAMF7 is critical for phagocytosis of haematopoietic tumour cells via Mac-1 integrin.

Authors:  Jun Chen; Ming-Chao Zhong; Huaijian Guo; Dominique Davidson; Sabrin Mishel; Yan Lu; Inmoo Rhee; Luis-Alberto Pérez-Quintero; Shaohua Zhang; Mario-Ernesto Cruz-Munoz; Ning Wu; Donald C Vinh; Meenal Sinha; Virginie Calderon; Clifford A Lowell; Jayne S Danska; André Veillette
Journal:  Nature       Date:  2017-04-19       Impact factor: 49.962

5.  An Integrated Assessment of the Effects of Immunogenicity on the Pharmacokinetics, Safety, and Efficacy of Elotuzumab.

Authors:  Chaitali Passey; Johanna Mora; Robert Dodge; Leonid Gibiansky; Jennifer Sheng; Amit Roy; Akintunde Bello; Manish Gupta
Journal:  AAPS J       Date:  2017-01-09       Impact factor: 4.009

6.  PD-1 blockade enhances elotuzumab efficacy in mouse tumor models.

Authors:  Natalie A Bezman; Amy Jhatakia; Alper Y Kearney; Ty Brender; Mark Maurer; Karla Henning; Misty R Jenkins; Amy J Rogers; Paul J Neeson; Alan J Korman; Michael D Robbins; Robert F Graziano
Journal:  Blood Adv       Date:  2017-05-08

7.  Elotuzumab with lenalidomide and dexamethasone for Japanese patients with relapsed/refractory multiple myeloma: phase 1 study.

Authors:  Shinsuke Iida; Hirokazu Nagai; Gen Kinoshita; Masafumi Miyoshi; Michael Robbins; Dimple Pandya; Eric Bleickardt; Takaaki Chou
Journal:  Int J Hematol       Date:  2016-11-15       Impact factor: 2.490

Review 8.  Immunotherapy: A New Approach to Treating Multiple Myeloma with Daratumumab and Elotuzumab.

Authors:  Salma Afifi; Angela Michael; Alexander Lesokhin
Journal:  Ann Pharmacother       Date:  2016-04-15       Impact factor: 3.154

9.  Soluble SLAMF7 promotes the growth of myeloma cells via homophilic interaction with surface SLAMF7.

Authors:  Jiro Kikuchi; Mitsuo Hori; Hidekatsu Iha; Noriko Toyama-Sorimachi; Shotaro Hagiwara; Yoshiaki Kuroda; Daisuke Koyama; Tohru Izumi; Hiroshi Yasui; Atsushi Suzuki; Yusuke Furukawa
Journal:  Leukemia       Date:  2019-07-29       Impact factor: 11.528

10.  Enhanced SLAMF7 Homotypic Interactions by Elotuzumab Improves NK Cell Killing of Multiple Myeloma.

Authors:  Tatiana Pazina; Ashley M James; Kimberly B Colby; Yibin Yang; Andrew Gale; Amy Jhatakia; Alper Y Kearney; Robert F Graziano; Natalie A Bezman; Michael D Robbins; Adam D Cohen; Kerry S Campbell
Journal:  Cancer Immunol Res       Date:  2019-08-20       Impact factor: 11.151
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