Enhancing the specific T cell immune response against micro- and nanoparticle immobilized antigen

The current study was a part of the project on generating viral particle traps occurring due to covalent immobilization on the interface of recombinant virus-specific polymer-based nano- and microparticles. It is assumed that protein-particle conjugates could be able to bind virions followed by engulfment by immune cells. The study was aimed to examine the effect of polylactic acid (PLA) and PLA block-copolymer with polyethylene glycol (PLA-PEG)-based micro- and nanoparticles on the cellular immune response against polymeric particle-bound antigen. Materials and methods. A recombinant chimeric protein beta-2-microglobulin — green fluorescent protein (β2M-sfGFP) was obtained by affine chromatography. The recombinant protein was immobilized onto the polymer particles, which were further used for mice immunization. Female F1 hybrid mice (CBA x C57BL) in experimental and control groups consisted of 4–6-month-old 15 animals (weighted 20–25 g). Intracellular cytokine staining was used to evaluate the cellular immune response. Results and discussion. It was shown that the nanoparticles of PLA block-copolymer with polyethylene glycol (PLA-PEG) were able to bind 10 microgram protein per 1 mg polymer. The polylactic acid nanoparticles were able to bind 2,3 microgram protein per 1 mg polymer. In experiment, mice in group 1 were immunized with 100 nm PLA-PEG particle-β2M-sfGFP conjugate, in group 2 — with same particles together with soluble β2M-sfGFP. In group 3, mice were immunized with 1400 nm PLA particles-β2M-sfGFP conjugate, and in group 4 — with same particles together with soluble protein. The spleens isolated 2 weeks after the four-time intraperitoneal immunization. Comparison of immune response between groups was assessed by nonparametric Kruskal–Wallis criterion with Tukey correction. It was shown that the number of antigen-specific CD4+ T cells produced to model protein was significantly higher after immunization with particle-β2M-sfGFP conjugate, as compared to control groups, wherein immunization was performed with a mixture of protein and unmodified particles (p < 0.001). It was found that the number of antigen-specific CD8+ T cells formed against β2m-sfGFP did not differ between all groups examined

High Stability of \u3ci\u3ediscosoma\u3c/i\u3e Dsred As Compared to \u3ci\u3eaequorea\u3c/i\u3e EGFP

Comparative analysis of conformational stabilities was performed for two widely used genetic reporters, EGFP and DsRed, proteins exhibiting similar β-can folds, but possessing different oligomeric organization and chromophore structures. Two factors affecting protein stability in vitro, such as elevated temperatures and a chaotropic agent guanidine hydrochloride, were studied. In vivo tolerance of the fluorescence proteins to proteasomal-based degradation was studied in insect and mammalian cells, and in Xenopus embryos. The apparent rate constants of thermal and GdmCl-induced denaturation were several orders of magnitude lower for DsRed than for EGFP. DsRed lifetimes severalfold longer than those of EGFP were observed in cultured cells and in embryos. The remarkable fluorescence stability of DsRed under the all conditions that have been studied is attributed to a significant extent to its tetrameric organization. Therefore, DsRed can be used as a genetic reporter and advanced population marker with a significantly extended intracellular lifespan