Association of rituximab with graphene oxide confers direct cytotoxicity for CD20-positive lymphoma cells.

Chengke Luo,Lan Li,Deborah M Stephens,Xinjian Chen,Alexander L Chen,Frederic Clayton,Zhenghao Deng,Martha Glenn,Peter E Jensen,Xiyang Wang,Rodney Miles,Ran Wei

doi:10.18632/oncotarget.7230

Chengke Luo, Lan Li + Show 10 more

Open Access

https://doi.org/10.18632/oncotarget.7230

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Abstract

Non-Hodgkin lymphoma (NHL) is one of the most common hematologic malignancies among adults for which the chimeric monoclonal anti-CD20 antibody (Ab) rituximab (RTX) is used as first-line therapy. As RTX itself is not directly cytotoxic but relies on host immune effector mechanisms or chemotherapeutic agents to attack target cells, its therapeutic capacity may become limited when host effector mechanisms are compromised. Currently, refractory disease and relapse with NHL are still common, highlighting the need for novel anti-CD20 antibody strategies with superior therapeutic efficacy over current protocols. We hypothesized that making RTX directly cytotoxic might improve the therapeutic efficacy. Graphene oxide (GO) has recently emerged as a highly attractive nanomaterial for biomedical applications; and several studies have reported cytotoxic effect of GO on benign and malignant cells in vitro. Herein, we report that RTX can be stably associated with GO, and that GO-associated RTX (RTX/GO) demonstrates remarkably high avidity for CD20. Binding of GO-associated RTX to CD20-positive lymphoma cells induces CD20 capping and target cell death through an actin dependent mechanism. In vivo, GO-associated RTX, but not free RTX, quickly eliminates high-grade lymphomas in the absence of host effector mechanisms in a xenograft lymphoma mouse model. Our findings represent the first demonstration of using GO-associated antibody as effective cytotoxic therapy for human B cell malignancies in the absence of chemotherapy, and these findings could have important clinical implications.

Highlights

Non-Hodgkin lymphoma (NHL) is one of the most common hematologic malignancies among adults, for which the chimeric monoclonal anti-CD20 antibody (Ab) rituximab (RTX) is used as first-line therapy [1]
While the therapeutic mechanism of RTX is a subject of active investigation, there has been convincing evidence showing that RTX does not promote direct killing of target cells, but instead depends on participation of the host immune effector mechanisms such as Ab-dependent cell-mediated cytotoxicity (ADCC), complement-dependent cytotoxicity (CDC), or phagocytosis to attack target cells. [2,3,4]
We studied the non-covalent association between RTX and Graphene oxide (GO), examined the reactivity of GO-associated RTX (RTX/GO), and established the capacity of RTX/GO to eliminate CD20+ lymphomas

Summary

Introduction

Non-Hodgkin lymphoma (NHL) is one of the most common hematologic malignancies among adults, for which the chimeric monoclonal anti-CD20 antibody (Ab) rituximab (RTX) is used as first-line therapy [1]. The lack of direct cytotoxicity may limit therapeutic efficacy of RTX when host effector functions are ineffective, such as in patients whose FcγRs have low affinity for IgG due to genetic polymorphisms [5]. The overall response rate of NHL patients to RTX monotherapy is very low [10, 11], suggesting www.impactjournals.com/oncotarget limited efficacy of the host effector mechanisms in eliminating lymphoma cells. We hypothesized that making RTX cytotoxic with the capacity to directly eliminate lymphoma cells would improve therapeutic efficacy of the antibody. In light of previous reports showing that crosslinking CD20 (CD20XL) with RTX and a second antibody kills malignant B cells in vitro [16, 17], we sought to make RTX cytotoxic by increasing antibody valence through associating the antibody to a nanomaterial, graphene oxide (GO)

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