2019
DOI: 10.1073/pnas.1911360117
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Ultrasmall silica nanoparticles directly ligate the T cell receptor complex

Abstract: The impact of ultrasmall nanoparticles (<10-nm diameter) on the immune system is poorly understood. Recently, ultrasmall silica nanoparticles (USSN), which have gained increasing attention for therapeutic applications, were shown to stimulate T lymphocytes directly and at relatively low-exposure doses. Delineating underlying mechanisms and associated cell signaling will hasten therapeutic translation and is reported herein. Using competitive binding assays and molecular modeling, we established that the T c… Show more

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Cited by 19 publications
(8 citation statements)
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“…Elevation in glycolysis is related to an increase in glucose transporter proteins, including GLUT1, which is highly overexpressed in cancer cells [49] In addition, an increase in glycolysis is accompanied by a shunt of central carbon metabolites from the citric acid cycle, including increased expression of pyruvate dehydrogenase kinase 3 (PDK3), which promotes lactate production. A similar phenomenon is called the SAS-NPs moDCs M2 macrophages to M1 phenotype and restored the activity of CD8 + T cells [121] Silica NPs DCs Generating pro-inflammatory cytokines through the P2X7R [118,122] XL-MSNs macrophages Promoting M1 to M2 and inducing pyroptosis [134,135] HA-PEI NPs macrophages Modulating the polarity of macrophages [136,137] TiO2 anatase NPs Macrophages, neutrophils Inducing CD8 + T cell response initiation [140] TiO2, CeO2, and ZnO NPs neutrophil decreasing CD35 but increasing CD66b and CD63 expression [145] siVCAM-1 NPs neutrophil exerting an anti-inflammatory effect [144] SWCNTs neutrophil inhibiting both neutrophil migration and adhesion [146] Nanoparticle-bound NKT NKT activating T cell immune responses [149] USSN T cell receptors promoting T-cell activation, migration, and phenotypic transformation [150] lipid NPs T-cell anti-CD3-conjugated [151] liposomal PHA T-cell mediating T-cell activation [152] LNPs CD4 + cells mediating T-cell activation [155] Warburg effect in cancer cells [50]. Furthermore, pyruvate kinase M2 (PKM2) represents a unique link between aHSCs and cancer cells that promote aerobic glycolysis [51].…”
Section: Engineered Nps Regulated Metabolic Reprogramming-associated ...mentioning
confidence: 99%
“…Elevation in glycolysis is related to an increase in glucose transporter proteins, including GLUT1, which is highly overexpressed in cancer cells [49] In addition, an increase in glycolysis is accompanied by a shunt of central carbon metabolites from the citric acid cycle, including increased expression of pyruvate dehydrogenase kinase 3 (PDK3), which promotes lactate production. A similar phenomenon is called the SAS-NPs moDCs M2 macrophages to M1 phenotype and restored the activity of CD8 + T cells [121] Silica NPs DCs Generating pro-inflammatory cytokines through the P2X7R [118,122] XL-MSNs macrophages Promoting M1 to M2 and inducing pyroptosis [134,135] HA-PEI NPs macrophages Modulating the polarity of macrophages [136,137] TiO2 anatase NPs Macrophages, neutrophils Inducing CD8 + T cell response initiation [140] TiO2, CeO2, and ZnO NPs neutrophil decreasing CD35 but increasing CD66b and CD63 expression [145] siVCAM-1 NPs neutrophil exerting an anti-inflammatory effect [144] SWCNTs neutrophil inhibiting both neutrophil migration and adhesion [146] Nanoparticle-bound NKT NKT activating T cell immune responses [149] USSN T cell receptors promoting T-cell activation, migration, and phenotypic transformation [150] lipid NPs T-cell anti-CD3-conjugated [151] liposomal PHA T-cell mediating T-cell activation [152] LNPs CD4 + cells mediating T-cell activation [155] Warburg effect in cancer cells [50]. Furthermore, pyruvate kinase M2 (PKM2) represents a unique link between aHSCs and cancer cells that promote aerobic glycolysis [51].…”
Section: Engineered Nps Regulated Metabolic Reprogramming-associated ...mentioning
confidence: 99%
“…NP may exert intrinsic T cell stimulatory activity as shown for ultrasmall silica NP (Ø <10 nm) that engaged the T cell receptor and CD3, and thereby induced ζ-chain-associated protein kinase 70 (ZAP70) phosphorylation as well as induction of activation markers (CD25, CD69) ( 20 ). However, T cell proliferation and IL-2 production required the co-application of agonistic CD28 antibody or PMA.…”
Section: T Cell Activationmentioning
confidence: 99%
“…A recent example of this is ultrasmall nanosilica particles, residing within a very specific size range which allows them to bind directly to T Cell receptor (TCR) complexes. The particle binding most likely occurs at the CD3 flanking regions and triggers the 'signal 1' signalling cascade for T cell activation [27,28]. Further examples are likely to emerge for the ligation of additional receptors by ultrasmall nanoparticles.…”
Section: Ultrasmall Nanoparticles and Biomolecule Mimicrymentioning
confidence: 99%