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A novel TLR7 agonist as adjuvant to stimulate high quality HBsAg-specific immune responses in an HBV mouse model

Yunlong Hu, Li Tang, Zhengyu Zhu, He Meng, Tingting Chen, Sheng Zhao, Zhenchao Jin, Zhulin Wang, Guangyi Jin

2020Journal of Translational Medicine28 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The global burden of hepatitis B virus (HBV) infection in terms of morbidity and mortality is immense. Novel treatments that can induce a protective immune response are urgently needed to effectively control the HBV epidemic and eventually eradicate chronic HBV infection. METHODS: We designed and evaluated an HBV therapeutic vaccine consisting of a novel Toll-like receptor 7 (TLR7) agonist T7-EA, an Alum adjuvant and a recombinant HBsAg protein. We used RNA-seq, ELISA and hTLR7/8 reporting assays to characterize T7-EA in vitro and real-time PCR to evaluate the tissue-retention characteristics in vivo. To evaluate the adjuvant potential, we administrated T7-EA intraperitoneally in a formulation with an Alum adjuvant and HBsAg in normal and HBV mice, then, we evaluated the HBsAg-specific immune responses by ELISA and Elispot assays. RESULTS: T7-EA acted as an hTLR7-specific agonist and induced a similar gene expression pattern as an unmodified TLR7 ligand when Raw 264.7 cells were exposed to T7-EA; however, T7-EA was more potent than the unmodified TLR7 ligand. In vivo studies showed that T7-EA had tissue-retaining activity with stimulating local cytokine and chemokine expression for up to 7 days. T7-EA could induce Th1-type immune responses, as evidenced by an increased HBsAg-specific IgG2a titer and a T-cell response in normal mice compared to mice received traditional Alum-adjuvant HBV vaccine. Importantly, T7-EA could break immune tolerance and induce persistent HBsAg-specific antibody and T-cell responses in an HBV mouse model. CONCLUSIONS: T7-EA might be a candidate adjuvant in a prophylactic and therapeutic HBV vaccine.

Topics & Concepts

HBsAgAdjuvantImmune systemMedicineImmunologyHepatitis B virusELISPOTAgonistTLR7T cellToll-like receptorReceptorInnate immune systemVirusInternal medicineHepatitis B Virus StudiesVibrio bacteria research studiesHepatitis C virus research