Gui-Qiu Hu

Publications (3)8.48 Total impact

• Article: Aptamers targeting rabies virus-infected cells inhibit viral replication both in vitro and in vivo.

  Hong-Ru Liang, Quan Liu, Xue-Xing Zheng, Wei-Wei Gai, Xiang-Hong Xue, Gui-Qiu Hu, Hong-Xia Wu, Hua-Lei Wang, Song-Tao Yang, Xian-Zhu Xia
  [show abstract] [hide abstract]
  ABSTRACT: Rabies is an acute fatal encephalitis disease that affects many warm-blooded mammals. The causative agent of the disease is Rabies virus (RABV). Currently, no approved therapy is available once the clinical signs have appeared. Aptamers, oligonucleotide ligands capable of binding a variety of molecular targets with high affinity and specificity, have recently emerged as promising therapeutic agents. In this study, sixteen high-affinity single-stranded DNA (ssDNA) aptamers were generated by cell-SELEX. Viral titer assays revealed aptamers could specifically inhibit the replication of RABV in cells but did not inhibit the replication of canine distemper virus or canine parvovirus. In addition, the FO21 and FO24 aptamers, with and without PEGylation, were found to effectively protect mice against lethal RABV challenge. When mice were inoculated with aptamers for 24 h prior to inoculation with CVS-11, approximately 87.5% of the mice survived. Here, we report aptamers that could significantly protect the mice from a lethal dose of RABV in vitro and in vivo, as demonstrated by the results for survival rate, weight loss and viral titers. These results indicate that FO21 and FO24 aptamers are a promising agent for specific antiviral against RABV infections.
  Virus Research 01/2013; · 2.94 Impact Factor
• Article: Isolation of ssDNA aptamers that inhibit rabies virus.

  Hong-Ru Liang, Gui-Qiu Hu, Tao Zhang, Yu-Jiao Yang, Li-Li Zhao, Ying-Lin Qi, Hua-Lei Wang, Yu-Wei Gao, Song-Tao Yang, Xian-Zhu Xia
  [show abstract] [hide abstract]
  ABSTRACT: Aptamers, functional nucleic acids, capable of binding a variety of molecular targets with high affinity and specificity, have emerged as promising therapeutic agents. In this study, the cell surface-systematic evolution of ligands by exponential enrichment (Cell-SELEX) strategy was used to generate DNA aptamers which targeted to the intact rabies virus-infected live cells. Through 35 iterative rounds of selection, five high-affinity single-stranded DNA (ssDNA) aptamers were generated by cell-SELEX. Virus titer assay and real-time quantitative reverse transcription PCR (qRT-PCR) assay revealed that all five aptamers could inhibit replication of rabies virus (RABV) in cultured baby hamster kidney (BHK)-21 cells; and T14 and F34 aptamers were most effective. The qRT-PCR also showed a dose-dependent inhibitory effect in BHK-21 cells. Collectively, these data show the feasibility of generating functionally effective aptamers against rabies virus-infected cells by the Cell-SELEX iterative procedure. These aptamers may prove clinically useful as therapeutic molecules with specific antiviral potential against RABV infections.
  International immunopharmacology 07/2012; 14(3):341-7. · 2.21 Impact Factor
• Article: Recombinant canine parvovirus-like particles express foreign epitopes in silkworm pupae.

  Hao Feng, Meng Liang, Hua-lei Wang, Tao Zhang, Ping-sen Zhao, Xing-jia Shen, Ren-zhou Zhang, Gui-qiu Hu, Yu-qei Gao, Cheng-yu Wang, Tie-cheng Wang, Wei Zhang, Song-tao Yang, Xian-zhu Xia
  [show abstract] [hide abstract]
  ABSTRACT: The capsid structural protein VP2 of canine parvovirus (CPV) can self-assemble into highly organized virus-like particles (VLPs) and retain major immunoreactivity. In this study, different recombinant baculoviruses that expressed varying fusion proteins of the CPV VP2 protein with the T cell determinant and/or the linear virus-neutralizing epitope of rabies virus (RV) were generated. Infection with these baculoviruses changed BmN cell morphology and inhibited their proliferation as well as damaged silkworms and pupae. However, infection with these baculoviruses induced high levels of recombinant protein expression in silkworms and pupae. More importantly, these fusion proteins self-assembled VLPs with properties similar to CPV virions and retained their VP2-specific immunoreactivity, but some retained their RV-specific immunoreactivity. Interestingly, only one fusion protein, T-VP2, maintained its haemagglutination activity. These data indicated that these insertions and replacements in the loop 2 of VP2 did not interfere with the formation of VLP, and silkworms and pupae could act as a low-costing bioreactor for the production of heterologous proteins. Therefore, our findings may provide a new framework for the development of subunit vaccines against RV and CPV.
  Veterinary Microbiology 07/2011; 154(1-2):49-57. · 3.33 Impact Factor