The capsid structures of particles of Rice dwarf virus that consisted of different components, na... more The capsid structures of particles of Rice dwarf virus that consisted of different components, namely, intact particles, empty particles lacking the 12 segments of double-stranded RNA (dsRNA), and virus-like particles composed of only the P3 core and P8 outer capsid proteins, generated with a baculovirus gene-expression system, were determined by cryo-electron microscopy. Combining the results with those of biochemical analysis, we assigned proteins of the transcriptional machinery and dsRNA to density clusters around the 5-fold axes and along the radial concentric layers, respectively. P7 protein, a component of the transcriptional machinery, was assigned to the outermost region of the density clusters. The density connecting the transcription complex to the outermost RNA densities implied interactions between the dsRNA and the P7 protein. Our structural analysis and the non-specific nucleic acid-binding activity of P7 explain the spiral organization of dsRNA around the 5-fold axis.
Ex vivo programming of T cells can be efficacious but is complex and expensive; therefore, the de... more Ex vivo programming of T cells can be efficacious but is complex and expensive; therefore, the development of methods to transfect T cells in situ is important. We developed and optimized anti-CD3-targeted lipid nanoparticles (aCD3-LNPs) to deliver tightly packed, reporter gene mRNA specifically to T cells. In vitro, targeted LNPs efficiently delivered mCherry mRNA to Jurkat T cells, and T-cell activation and depletion were associated with aCD3 antibody coating on the surface of LNPs. aCD3-LNPs, but not non-targeted LNPs, accumulated within the spleen following systemic injection, with mCherry and Fluc signals visible within 30 minutes after injection. At 24 h after aCD3-LNP injection, 2-4% of all splenic T cells and 2-7% of all circulating T cells expressed mCherry, and this was dependent on aCD3 coating density. Targeting and transfection were accompanied by systemic CD25+, OX40+, and CD69+ T-cell activation with temporary CD3e ligand loss and depletion of splenic and circulating subsets. Migration of splenic CD8a+ T cells from the white-pulp to red-pulp, and differentiation from naïve to memory and effector phenotypes, followed upon aCD3-LNP delivery. Additionally, aCD3-LNP injection stimulated the secretion of myeloid-derived chemokines and T-helper cytokines into plasma. Lastly, we administered aCD3-LNPs to tumor bearing mice and found that transfected T cells localized within tumors and tumor-draining lymph nodes following immunotherapy treatment. In summary, we show that CD3-targeted transfection is feasible, yet associated with complex immunological consequences that must be further studied for potential therapeutic applications.
The capsid structures of particles of Rice dwarf virus that consisted of different components, na... more The capsid structures of particles of Rice dwarf virus that consisted of different components, namely, intact particles, empty particles lacking the 12 segments of double-stranded RNA (dsRNA), and virus-like particles composed of only the P3 core and P8 outer capsid proteins, generated with a baculovirus gene-expression system, were determined by cryo-electron microscopy. Combining the results with those of biochemical analysis, we assigned proteins of the transcriptional machinery and dsRNA to density clusters around the 5-fold axes and along the radial concentric layers, respectively. P7 protein, a component of the transcriptional machinery, was assigned to the outermost region of the density clusters. The density connecting the transcription complex to the outermost RNA densities implied interactions between the dsRNA and the P7 protein. Our structural analysis and the non-specific nucleic acid-binding activity of P7 explain the spiral organization of dsRNA around the 5-fold axis.
Ex vivo programming of T cells can be efficacious but is complex and expensive; therefore, the de... more Ex vivo programming of T cells can be efficacious but is complex and expensive; therefore, the development of methods to transfect T cells in situ is important. We developed and optimized anti-CD3-targeted lipid nanoparticles (aCD3-LNPs) to deliver tightly packed, reporter gene mRNA specifically to T cells. In vitro, targeted LNPs efficiently delivered mCherry mRNA to Jurkat T cells, and T-cell activation and depletion were associated with aCD3 antibody coating on the surface of LNPs. aCD3-LNPs, but not non-targeted LNPs, accumulated within the spleen following systemic injection, with mCherry and Fluc signals visible within 30 minutes after injection. At 24 h after aCD3-LNP injection, 2-4% of all splenic T cells and 2-7% of all circulating T cells expressed mCherry, and this was dependent on aCD3 coating density. Targeting and transfection were accompanied by systemic CD25+, OX40+, and CD69+ T-cell activation with temporary CD3e ligand loss and depletion of splenic and circulating subsets. Migration of splenic CD8a+ T cells from the white-pulp to red-pulp, and differentiation from naïve to memory and effector phenotypes, followed upon aCD3-LNP delivery. Additionally, aCD3-LNP injection stimulated the secretion of myeloid-derived chemokines and T-helper cytokines into plasma. Lastly, we administered aCD3-LNPs to tumor bearing mice and found that transfected T cells localized within tumors and tumor-draining lymph nodes following immunotherapy treatment. In summary, we show that CD3-targeted transfection is feasible, yet associated with complex immunological consequences that must be further studied for potential therapeutic applications.
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