Therapeutic Opportunities with Pharmacological Inhibition of CD38 with Isatuximab

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Abstract

CD38 is a transmembrane glycoprotein with ectoenzymatic activity involved in regulation of migration, signal transduction, and receptor-mediated adhesion. CD38 is highly expressed on various malignant cells, including multiple myeloma (MM), and at relatively low levels in other tissues, making it a suitable target for therapeutic antibodies. Several anti-CD38 therapies have been, or are being, developed for the treatment of MM, including daratumumab and isatuximab (SAR650984), respectively. Studies have shown that anti-CD38 therapies are effective in the treatment of relapsed/refractory MM and are well tolerated, with infusion reactions being the most common side effects. They can be used as monotherapy or in combination with immunomodulatory agents, such as pomalidomide, or proteasome inhibitors to potentiate their activity. Here we examine isatuximab and several anti-CD38 agents in development that were generated using new antibody engineering techniques and that may lead to more effective CD38 targeting. We also summarize trials assessing these antibodies in MM, other malignancies, and solid organ transplantation. Finally, we propose that further research on the mechanisms of resistance to anti-CD38 therapy and the development of biomarkers and new backbone regimens with CD38 antibodies will be important steps in building more personalized treatment for patients with MM.

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Evolution and function of the ADP ribosyl cyclase/CD38 gene family in physiology and pathology.

Fabio Malavasi, Silvia Deaglio, Ada Funaro … (2008)

The membrane proteins CD38 and CD157 belong to an evolutionarily conserved family of enzymes that play crucial roles in human physiology. Expressed in distinct patterns in most tissues, CD38 (and CD157) cleaves NAD(+) and NADP(+), generating cyclic ADP ribose (cADPR), NAADP, and ADPR. These reaction products are essential for the regulation of intracellular Ca(2+), the most ancient and universal cell signaling system. The entire family of enzymes controls complex processes, including egg fertilization, cell activation and proliferation, muscle contraction, hormone secretion, and immune responses. Over the course of evolution, the molecules have developed the ability to interact laterally and frontally with other surface proteins and have acquired receptor-like features. As detailed in this review, the loss of CD38 function is associated with impaired immune responses, metabolic disturbances, and behavioral modifications in mice. CD38 is a powerful disease marker for human leukemias and myelomas, is directly involved in the pathogenesis and outcome of human immunodeficiency virus infection and chronic lymphocytic leukemia, and controls insulin release and the development of diabetes. Here, the data concerning diseases are examined in view of potential clinical applications in diagnosis, prognosis, and therapy. The concluding remarks try to frame all of the currently available information within a unified working model that takes into account both the enzymatic and receptorial functions of the molecules.

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Plasma cells from multiple myeloma patients express B7-H1 (PD-L1) and increase expression after stimulation with IFN-{gamma} and TLR ligands via a MyD88-, TRAF6-, and MEK-dependent pathway.

Jizhong Liu, Abdelbasset Hamrouni, Darius Wolowiec … (2007)

Multiple myeloma (MM) cells inhibit certain T-cell functions. We examined the expression of B7-H1 (PD-L1), a B7-related protein that inhibits T-cell responses, in CD138-purified plasma cells isolated from MM patients, monoclonal gammopathy of undetermined significance patients, and healthy donors. We observed that B7-H1 was expressed in most MM plasma cells, but not cells isolated from monoclonal gammopathy of undetermined significance or healthy donors. This expression was increased or induced by IFN-gamma and Toll-like receptor (TLR) ligands in isolated MM plasma cells. Blocking the MEK/ERK pathway inhibited IFN-gamma-mediated and TLR-mediated expression of B7-H1. Inhibition of the MyD88 and TRAF6 adaptor proteins of the TLR pathway blocked not only B7-H1 expression induced by TLR ligands but also that mediated by IFN-gamma. IFN-gamma-induced STAT1 activation, via MEK/ERK and MyD88/TRAF6, and inhibition of STAT1 reduced B7-H1 expression. MM plasma cells stimulated with IFN-gamma or TLR ligands inhibited cytotoxic T lymphocytes (CTLs) generation and this immunosuppressive effect was inhibited by preincubation with an anti-B7-H1 antibody, the UO126 MEK inhibitor, or by transfection of a dominant-negative mutant of MyD88. Thus, B7-H1 expression by MM cells represents a possible immune escape mechanism that could be targeted therapeutically through inhibition of MyD88/TRAF6 and MEK/ERK/STAT1.

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CD38-mediated immunosuppression as a mechanism of tumor cell escape from PD-1/PD-L1 blockade

Limo Chen, Weiyi Peng, Brett Carter … (2018)

Although treatment with immune checkpoint inhibitors provides promising benefit for cancer patients, optimal use is encumbered by high resistance rates and requires a thorough understanding of resistance mechanisms. We observed that tumors treated with PD-1/PD-L1 blocking antibodies develop resistance through the up-regulation of CD38, which is induced by all-trans retinoic acid (ATRA) and IFN-β in the tumor microenvironment. In vitro and in vivo studies demonstrate that CD38 inhibits CD8 + T cell function via adenosine receptor signaling, and that CD38 or adenosine receptor blockade are effective strategies to overcome the resistance. Large datasets of human tumors reveal expression of CD38 in a subset of tumors with high levels of basal or treatment-induced T cell infiltration, where immune checkpoint therapies are thought to be most effective. These findings provide a novel mechanism of acquired resistance to immune checkpoint therapy and an opportunity to expand their efficacy in cancer treatment.

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Journal

Journal ID (nlm-ta): Cells

Journal ID (iso-abbrev): Cells

Journal ID (publisher-id): cells

Title: Cells

Publisher: MDPI

ISSN (Electronic): 2073-4409

Publication date (Electronic): 26 November 2019

Publication date Collection: December 2019

Volume: 8

Issue: 12

Electronic Location Identifier: 1522

Affiliations

[1 ]Hematology/Oncology, University of California San Francisco, San Francisco, CA 94143-0324, USA; Tom.Martin@ 123456ucsf.edu

[2 ]Sanofi Oncology, Cambridge, MA 02142, USA; Kathryn.Corzo@ 123456sanofi.com (K.C.); Helgi.VandeVelde@ 123456sanofi.com (H.v.d.V.); Giovanni.Abbadessa@ 123456Sanofi.com (G.A.); Frank.Campana@ 123456sanofi.com (F.C.); Malini.Solanki@ 123456sanofi.com (M.S.); Robin.Meng@ 123456sanofi.com (R.M.); Helen.Lee@ 123456sanofi.com (H.L.); Dmitri.Wiederschain@ 123456sanofi.com (D.W.); Chen.Zhu@ 123456sanofi.com (C.Z.)

[3 ]Translational and Experimental Medicine, Sanofi Research & Development, 94403 Vitry-sur-Seine, France; Marielle.Chiron@ 123456sanofi.com

[4 ]Integrated Drug Discovery, Sanofi Research & Development, 94403 Vitry-sur-Seine, France; Alexey.Rak@ 123456sanofi.com

[5 ]Dana-Farber Cancer Institute, Boston, MA 02215, USA

Author notes

[* ]Correspondence: Kenneth_Anderson@ 123456dfci.harvard.edu ; Tel.: +01-617-632-2144

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Chen Zhu https://orcid.org/0000-0001-5302-1233

Article

Publisher ID: cells-08-01522

DOI: 10.3390/cells8121522

PMC ID: 6953105

PubMed ID: 31779273

SO-VID: 725229a3-cd30-4dfe-838c-c694780398fb

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Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

Therapeutic Opportunities with Pharmacological Inhibition of CD38 with Isatuximab

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Gamma Delta T cells

Most cited references 80

Evolution and function of the ADP ribosyl cyclase/CD38 gene family in physiology and pathology.

Plasma cells from multiple myeloma patients express B7-H1 (PD-L1) and increase expression after stimulation with IFN-{gamma} and TLR ligands via a MyD88-, TRAF6-, and MEK-dependent pathway.

CD38-mediated immunosuppression as a mechanism of tumor cell escape from PD-1/PD-L1 blockade

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