Reza Keikha, Ebrahim Balali, Ramona Khadivi, Ali Jebali
{"title":"TLR4和TLR9激动剂与自我扩增的RNA脂质纳米颗粒联合使用可导致对SARS-CoV-2更强大的免疫应答。","authors":"Reza Keikha, Ebrahim Balali, Ramona Khadivi, Ali Jebali","doi":"10.1089/vim.2024.0099","DOIUrl":null,"url":null,"abstract":"<p><p>The aim of this study was to compare immune response against SARS-CoV-2 in Balb/C mice when self-amplifying RNA lipid nanoparticles (saRNA LNPs) combined with TLR4 Agonist (monophosphoryl lipid A) as the adjuvant 1 and TLR9 Agonist (CpG) as the adjuvant 2. Here, we found that the size distribution of saRNA LNPs was 88-165 nm with a mean size of 126 nm. Although TLR4 Agonist (adjuvant 1) and TLR9 Agonist (adjuvant 2) could increase the expression of S-protein in HEK293T/17 cells compared with saRNA LNPs alone, the combination of both adjuvants had a significant effect on the expression of the S-protein. Moreover, combining TLR4 Agonist (adjuvant 1) and TLR9 Agonist (adjuvant 2) increased the antibody (IgG and IgA) titer. Here, the ratio of IgG2a/IgG1 showed a T helper type 1-biased response. ELISpot test showed the mice vaccinated with saRNA LNPs+ TLR4 Agonist and TLR9 Agonist had significantly more secreting cells compared with other vaccinated mice (<i>p</i> < 0.05). The secretion of interleukin (IL)-4 and interferons (IFN)-γ by re-stimulated splenocytes confirmed these data. Significant differences in concentration of IL-4 and IFN-γ produced by activated splenocytes were also seen in the mice vaccinated with saRNA LNPs+ TLR4 Agonist and microparticles compared with other groups (<i>p</i> < 0.05). The highest quantity of S-protein was detected in the blood, followed by the small intestine and spleen. The interesting thing was that no significant difference was seen between the amount of S-protein induced by different formulations and the type of adjuvant did not affect the biodistribution.</p>","PeriodicalId":23665,"journal":{"name":"Viral immunology","volume":" ","pages":"190-202"},"PeriodicalIF":1.5000,"publicationDate":"2025-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The Combination of TLR4 and TLR9 Agonists with Self-Amplifying RNA Lipid Nanoparticles Leads to a More Powerful Immune Response Against SARS-CoV-2.\",\"authors\":\"Reza Keikha, Ebrahim Balali, Ramona Khadivi, Ali Jebali\",\"doi\":\"10.1089/vim.2024.0099\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The aim of this study was to compare immune response against SARS-CoV-2 in Balb/C mice when self-amplifying RNA lipid nanoparticles (saRNA LNPs) combined with TLR4 Agonist (monophosphoryl lipid A) as the adjuvant 1 and TLR9 Agonist (CpG) as the adjuvant 2. Here, we found that the size distribution of saRNA LNPs was 88-165 nm with a mean size of 126 nm. Although TLR4 Agonist (adjuvant 1) and TLR9 Agonist (adjuvant 2) could increase the expression of S-protein in HEK293T/17 cells compared with saRNA LNPs alone, the combination of both adjuvants had a significant effect on the expression of the S-protein. Moreover, combining TLR4 Agonist (adjuvant 1) and TLR9 Agonist (adjuvant 2) increased the antibody (IgG and IgA) titer. Here, the ratio of IgG2a/IgG1 showed a T helper type 1-biased response. ELISpot test showed the mice vaccinated with saRNA LNPs+ TLR4 Agonist and TLR9 Agonist had significantly more secreting cells compared with other vaccinated mice (<i>p</i> < 0.05). The secretion of interleukin (IL)-4 and interferons (IFN)-γ by re-stimulated splenocytes confirmed these data. Significant differences in concentration of IL-4 and IFN-γ produced by activated splenocytes were also seen in the mice vaccinated with saRNA LNPs+ TLR4 Agonist and microparticles compared with other groups (<i>p</i> < 0.05). The highest quantity of S-protein was detected in the blood, followed by the small intestine and spleen. 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The Combination of TLR4 and TLR9 Agonists with Self-Amplifying RNA Lipid Nanoparticles Leads to a More Powerful Immune Response Against SARS-CoV-2.
The aim of this study was to compare immune response against SARS-CoV-2 in Balb/C mice when self-amplifying RNA lipid nanoparticles (saRNA LNPs) combined with TLR4 Agonist (monophosphoryl lipid A) as the adjuvant 1 and TLR9 Agonist (CpG) as the adjuvant 2. Here, we found that the size distribution of saRNA LNPs was 88-165 nm with a mean size of 126 nm. Although TLR4 Agonist (adjuvant 1) and TLR9 Agonist (adjuvant 2) could increase the expression of S-protein in HEK293T/17 cells compared with saRNA LNPs alone, the combination of both adjuvants had a significant effect on the expression of the S-protein. Moreover, combining TLR4 Agonist (adjuvant 1) and TLR9 Agonist (adjuvant 2) increased the antibody (IgG and IgA) titer. Here, the ratio of IgG2a/IgG1 showed a T helper type 1-biased response. ELISpot test showed the mice vaccinated with saRNA LNPs+ TLR4 Agonist and TLR9 Agonist had significantly more secreting cells compared with other vaccinated mice (p < 0.05). The secretion of interleukin (IL)-4 and interferons (IFN)-γ by re-stimulated splenocytes confirmed these data. Significant differences in concentration of IL-4 and IFN-γ produced by activated splenocytes were also seen in the mice vaccinated with saRNA LNPs+ TLR4 Agonist and microparticles compared with other groups (p < 0.05). The highest quantity of S-protein was detected in the blood, followed by the small intestine and spleen. The interesting thing was that no significant difference was seen between the amount of S-protein induced by different formulations and the type of adjuvant did not affect the biodistribution.
期刊介绍:
Viral Immunology delivers cutting-edge peer-reviewed research on rare, emerging, and under-studied viruses, with special focus on analyzing mutual relationships between external viruses and internal immunity. Original research, reviews, and commentaries on relevant viruses are presented in clinical, translational, and basic science articles for researchers in multiple disciplines.
Viral Immunology coverage includes:
Human and animal viral immunology
Research and development of viral vaccines, including field trials
Immunological characterization of viral components
Virus-based immunological diseases, including autoimmune syndromes
Pathogenic mechanisms
Viral diagnostics
Tumor and cancer immunology with virus as the primary factor
Viral immunology methods.
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