CTLA4 aptamer delivers STAT3 siRNA to tumor-associated and malignant T cells
Andreas Herrmann, … , Marcin Kortylewski, Hua Yu
Andreas Herrmann, … , Marcin Kortylewski, Hua Yu
Published July 1, 2014; First published June 2, 2014
Citation Information: J Clin Invest. 2014;124(7):2977-2987. https://doi.org/10.1172/JCI73174.
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Category: Technical Advance

CTLA4 aptamer delivers STAT3 siRNA to tumor-associated and malignant T cells

Abstract

Intracellular therapeutic targets that define tumor immunosuppression in both tumor cells and T cells remain intractable. Here, we have shown that administration of a covalently linked siRNA to an aptamer (apt) that selectively binds cytotoxic T lymphocyte–associated antigen 4 (CTLA4apt) allows gene silencing in exhausted CD8+ T cells and Tregs in tumors as well as CTLA4-expressing malignant T cells. CTLA4 expression was upregulated in CD8+ T cells in the tumor milieu; therefore, CTLA4apt fused to a STAT3-targeting siRNA (CTLA4apt–STAT3 siRNA) resulted in internalization into tumor-associated CD8+ T cells and silencing of STAT3, which activated tumor antigen–specific T cells in murine models. Both local and systemic administration of CTLA4apt–STAT3 siRNA dramatically reduced tumor-associated Tregs. Furthermore, CTLA4apt–STAT3 siRNA potently inhibited tumor growth and metastasis in various mouse tumor models. Importantly, CTLA4 expression is observed in T cells of patients with blood malignancies, and CTLA4apt–STAT3 siRNA treatment of immunodeficient mice bearing human T cell lymphomas promoted tumor cell apoptosis and tumor growth inhibition. These data demonstrate that a CTLA4apt-based siRNA delivery strategy allows gene silencing in both tumor-associated T cells and tumor cells and inhibits tumor growth and metastasis.

Authors

Andreas Herrmann, Saul J. Priceman, Maciej Kujawski, Hong Xin, Gregory A. Cherryholmes, Wang Zhang, Chunyan Zhang, Christoph Lahtz, Claudia Kowolik, Steve J. Forman, Marcin Kortylewski, Hua Yu

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Figure 1

CTLA4apt-siRNA uptake and gene silencing in T cells including CD8+ T cells.

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CTLA4apt-siRNA uptake and gene silencing in T cells including CD8+ T cel...
(A) CTLA4apt-siRNAFITC positive and negative CD3+ T cells were isolated by FACS sorting from tumors of mice (pools of n = 4) and treated as indicated. Stat3 mRNA levels were assessed by RT-PCR. SD is shown. ***P < 0.001. (B) Confocal microscopy indicating CTLA4apt–STAT3 siRNA internalization into CD8+ T cells. Scale bar: 5 μm. Insets were generated in silico by a digital zoom of the indicated regions of interest. (C) Uptake of CTLA4apt–STAT3 siRNAFITC by CD8+ cells analyzed by flow cytometry. Gating on CD8+ T cells positive for CTLA4apt–STAT3 siRNAFITC after 2 hours of treatment. (D) Intracellular trafficking of CTLA4apt–STAT3 siRNA through endosomal compartments indicated by EEA-1 staining assessed by confocal analysis of CD8+ T cells treated for time points as indicated. Scale bar: 5 μm. Insets were generated in silico by a digital zoom of the indicated regions of interest. (E) Stat3 knockdown efficiency in vitro in CD8+ T cells by CTLA4apt–STAT3 siRNA. Stat3 expression analyzed by RT-PCR at RNA level or (F) by Western blotting at protein level from CD8+ cell lysates. (G) Upregulation of CTLA4 in CD8+ cells stimulated by IL-6 (upper panel) or in the TDLN (lower panel) as analyzed by flow cytometry. (H) IL-6 potently stimulates CTLA4 accumulation in lipid rafts. Single-cell suspensions were stained for lipid rafts and CTLA4 upon IL-6 stimulation and analyzed by confocal microscopy (left panel). Lipid raft domains and CTLA4 accumulations in lipid rafts upon IL-6 treatment (white arrowheads) shown in intensity coded false colors (red, high intensity; blue, low intensity; right panels). Scale bar: 2 μm.