Aptamer-targeted inhibition of mTOR in T cells enhances antitumor immunity

Berezhnoy, Alexey; Castro, Iris; Levay, Agata; Malek, Thomas R.; Gilboa, Eli

doi:10.1172/jci69856

Cited by 112 publications

(107 citation statements)

References 59 publications

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“…11 Conjugation of siRNA cargos to aptamers often compromises activity of conjugated siRNA. Here, we used an algorithm whereby siRNAs with reduced melting temperature (TM) are chosen for conjugation to aptamers, which was shown to significantly increase the success of identifying siRNAs that retain bioactivity upon conjugation to aptamer.…”

Section: Resultsmentioning

confidence: 99%

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Aptamer-Targeted Attenuation of IL-2 Signaling in CD8 + T Cells Enhances Antitumor Immunity

et al. 2017

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Immune responses elicited against cancer using existing therapies such as vaccines or immune stimulatory antibodies are often not curative. One way to potentiate antitumor immunity is to enhance the long-term persistence of anti-tumor CD8 + T cells. Studies have shown that the persistence of activated CD8 + T cells is negatively impacted by the strength of interleukin 2 (IL-2) signaling. Here, we used small interfering RNAs (siRNAs) against CD25 (IL-2Ra) to attenuate IL-2 signaling in CD8 + T cells. The siRNAs were targeted to 4-1BB-expressing CD8 + T cells by conjugation to a 4-1BB-binding oligonucleotide aptamer. Systemic administration of the 4-1BB aptamer-CD25 siRNA conjugate downregulated CD25 mRNA only in 4-1BB-expressing CD8 + T cells promoting their differentiation into memory cells. Treatment with the 4-1BB aptamer-CD25 siRNA conjugates enhanced the antitumor response of a cellular vaccine or local radiation therapy. Indicative of the generality of this approach, 4-1BB aptamer-targeted delivery of an Axin-1 siRNA, a rate-limiting component of the b-catenin destruction complex, enhanced CD8 + T cell memory development and antitumor activity. These findings show that aptamer-targeted siRNA therapeutics can be used to modulate the function of circulating CD8 + T cells, skewing their development into longlasting memory CD8 + T cells, and thereby potentiating antitumor immunity.

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Section: Resultsmentioning

confidence: 99%

“…11 As shown in Figure S4A, targeted inhibition of Axin-1 was more effective than that of raptor, and inhibition of Axin-1 or CD25 exhibited a comparable antitumor effect ( Figure S4B). …”

Section: -1bb Aptamer-targeted Inhibition Of Axin-1 Improves Survivamentioning

confidence: 88%

Aptamer-Targeted Attenuation of IL-2 Signaling in CD8 + T Cells Enhances Antitumor Immunity

et al. 2017

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“…Systemic administration of the 4-1BB aptamer-RPTOR siRNA conjugates to mice via the tail vein downregulated mTORC1, but not mTORC2, activity in circulating 4-1BB-expressing CD8 þ T cells, led to the generation of potent memory CD8 þ T-cell responses, and enhanced vaccine-induced protective immunity in tumor-bearing mice. In contrast, although nontargeted administration of the general mTOR inhibitor rapamycin also enhanced antigen-activated CD8 þ T-cell memory, both mTORC1 and mTORC2 were downregulated in the CD8 þ T cells, the cytotoxic effector functions of the reactivated memory cells were reduced, alloreactivity of splenic DCs was diminished, and mice failed to reject a tumor challenge (21). Enhancing CD8 þ T-cell memory and protective immunity in vivo is predicated on the efficient delivery of siRNA to a sizable proportion of the circulating CD8 þ T cells.…”

Section: Prolonging Immune Responses With Aptamer-sirna Conjugatesmentioning

confidence: 95%

“…Yet, unlike delivery to hepatocytes or tumors, delivery of siRNA to normal or malignant hematopoietic cells has been notoriously difficult and inefficient (22). Systemic administration of the 4-1BB aptamer-targeted RPTOR siRNA conjugates via the tail vein was remarkably efficient, leading to the downregulation of RPTOR RNA and mTORC1 activity in more than 60% of the circulating 4-1BB þ CD8 þ T cells (21). Preliminary studies suggest that siRNA knockdown of CD25, Axin-1, Smad3, or Smad4 in CD8 þ T cells is equally efficient (E. Gilboa, unpublished data).…”

Section: Prolonging Immune Responses With Aptamer-sirna Conjugatesmentioning

confidence: 99%

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Reducing Toxicity of Immune Therapy Using Aptamer-Targeted Drug Delivery

Gilboa

Berezhnoy

Schrand

2015

Cancer Immunology Research

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Modulating the function of immune receptors with antibodies is ushering in a new era in cancer immunotherapy. With the notable exception of PD-1 blockade used as monotherapy, immune modulation can be associated with significant toxicities that are expected to escalate with the development of increasingly potent immune therapies. A general way to reduce toxicity is to target immune potentiating drugs to the tumor or immune cells of the patient. This Crossroads article discusses a new class of nucleic acid-based immune-modulatory drugs that are targeted to the tumor or to the immune system by conjugation to oligonucleotide aptamer ligands. Cell-free chemically synthesized short oligonucleotide aptamers represent a novel and emerging platform technology for generating ligands with desired specificity that offer exceptional versatility and feasibility in terms of development, manufacture, and conjugation to an oligonucleotide cargo. In proof-of-concept studies, aptamer ligands were used to target immune-modulatory siRNAs or aptamers to induce neoantigens in the tumor cells, limit costimulation to the tumor lesion, or enhance the persistence of vaccine-induced immunity. Using increasingly relevant murine models, the aptamer-targeted immune-modulatory drugs engendered protective antitumor immunity that was superior to that of current "gold-standard" therapies in terms of efficacy and lack of toxicity or reduced toxicity. To overcome immune exhaustion aptamer-targeted siRNA conjugates could be used to downregulate intracellular mediators of exhaustion that integrate signals from multiple inhibitory receptors. Recent advances in aptamer development and second-generation aptamer-drug conjugates suggest that we have only scratched the surface.

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mTOR Signaling pathway as a master regulator of memory CD8⁺ T‐cells, Th17, and NK cells development and their functional properties

Rostamzadeh

Yousefi

Haghshenas

et al. 2019

Journal Cellular Physiology

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The mammalian target of rapamycin (mTOR) is a member of the evolutionary phosphatidylinositol kinase‐related kinases (PIKKs). mTOR plays a pivotal role in the regulation of diverse aspects of cellular physiology such as body metabolism, cell growth, protein synthesis, cell size, autophagy, and cell differentiation. Immunologically, mTOR has a fundamental part in controlling and shaping diverse functions of innate and adaptive immune cells, in particular, T‐cell subsets differentiation, survival, and metabolic reprogramming to ultimately regulate the fate of diverse immune cell types. Researchers report that rapamycin, a selective mTOR inhibitor, and immunosuppressive agent, has surprising immunostimulatory effects on inducing both quantitative and qualitative aspects of virus‐specific memory CD8+ T‐cells differentiation and homeostasis in a T‐cell‐intrinsic manner. The mTOR signaling pathway also plays a critical role in dictating the outcome of regulatory T cells (Treg), T helper 17 (Th17) cells, and natural killer (NK) cells proliferation and maturation, as well as the effector functions and cytotoxic properties of NK cells. Manipulation of mTOR activity is a critical therapeutic approach for pharmacological agents that seek to inhibit mTOR. This approach should enhance specific memory CD8 + T‐cells responses and induce fully functional effector properties of NK cells to provoke their antitumor and antiviral activities.

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Aptamer-targeted inhibition of mTOR in T cells enhances antitumor immunity

Cited by 112 publications

References 59 publications

Aptamer-Targeted Attenuation of IL-2 Signaling in CD8 + T Cells Enhances Antitumor Immunity

Aptamer-Targeted Attenuation of IL-2 Signaling in CD8 + T Cells Enhances Antitumor Immunity

Reducing Toxicity of Immune Therapy Using Aptamer-Targeted Drug Delivery

mTOR Signaling pathway as a master regulator of memory CD8⁺ T‐cells, Th17, and NK cells development and their functional properties

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Aptamer-targeted inhibition of mTOR in T cells enhances antitumor immunity

Cited by 112 publications

References 59 publications

Aptamer-Targeted Attenuation of IL-2 Signaling in CD8 + T Cells Enhances Antitumor Immunity

Aptamer-Targeted Attenuation of IL-2 Signaling in CD8 + T Cells Enhances Antitumor Immunity

Reducing Toxicity of Immune Therapy Using Aptamer-Targeted Drug Delivery

mTOR Signaling pathway as a master regulator of memory CD8+ T‐cells, Th17, and NK cells development and their functional properties

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mTOR Signaling pathway as a master regulator of memory CD8⁺ T‐cells, Th17, and NK cells development and their functional properties