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In This Article

  • Summary
  • Abstract
  • Introduction
  • Protocol
  • Representative Results
  • Discussion
  • Acknowledgements
  • Materials
  • References
  • Reprints and Permissions

Summary

In this study, an infectious clone of human adenovirus type 7 (HAdV-7) was constructed, and an E3-deleted HAdV-7 vector system was established by modifying the infectious clone. This strategy used here can be generalized to make gene transfer vectors from other wild-type adenoviruses.

Abstract

Adenoviral vectors have been used as a gene transfer tool in gene therapy for more than three decades. Here, we introduce a protocol to construct an adenoviral vector by manipulating the genomic DNA of wild-type HAdV-7 by using a DNA assembly method. First, an infectious clone of HAdV-7, pKan-Ad7, was generated by fusing the viral genomic DNA with a PCR product from plasmid backbone, comprising of the kanamycin-resistant gene and the origin of replication (Kan-Ori), through DNA assembly. This was done by designing a pair of PCR primers, that contained ~25 nucleotides of the terminal sequence of HAdV-7 inverted terminal repeat (ITR) at the 5' end, a non-cutter restriction enzyme site for HAdV-7 genome in the middle, and a template-specific sequence for PCR priming at the 3' end. Second, an intermediate plasmid-based strategy was employed to replace the E3 region with transgene-expressing elements in the infectious clone to generate an adenoviral vector. Briefly, pKan-Ad7 was digested with dual-cutter restriction enzyme Hpa I, and the fragment containing the E3 region was ligated to another PCR product of plasmid backbone by Gibson assembly to construct an intermediate plasmid pKan-Ad7HpaI. For convenience, restriction-assembly was used to designate the plasmid cloning method of combined restriction digestion and assembly. Using restriction-assembly, the E3 genes in pKan-Ad7HpaI was replaced with a green fluorescent protein (GFP) expression cassette, and the modified E3 region was released from the intermediate plasmid and restored to the infectious clone to generate an adenoviral plasmid pKAd7-E3GFP. Finally, pKAd7-E3GFP was linearized by Pme I digestion and used to transfect HEK293 packaging cells to rescue recombinant HAdV-7 virus. To conclude, a DNA assembly-based strategy was introduced here for constructing adenoviral vectors in general laboratories of molecular biology without the need of specialized materials and instruments.

Introduction

Over the past three decades, recombinant adenoviral vectors have been widely used in vaccine development and gene therapy1,2,3,4 as well as in basic research due to their outstanding biological properties, such as high gene transduction efficiency, non-integration to the host genome, the manipulative viral genome, and the ease of large-scale production.

Currently, the most commonly used adenoviral vectors are constructed based on human adenovirus 5 (HAdV-5)5,

Protocol

NOTE: Adenoviruses are classified as Biosafety Level 2 (BSL-2); all the steps to use the viruses were carried out in a biosafety level 2 laboratory. The wild-type HAdV-7 was isolated in 2017 from the nasopharyngeal aspirate specimen of a 10-month-old infant who was hospitalized with acute respiratory tract infection in Beijing Children's Hospital20. The virus stocks were stored at -80 °C.

1. Extraction of HAdV-7 genomic DNA

  1. Seed 2.0.......

Representative Results

The strategy for the construction of an infectious clone of HAdV-7 is shown in Figure 1 and Figure 2. Two infectious clone plasmids were randomly selected and identified by BstZ17 I, BamH I, and EcoR V, respectively. The results showed that the fragments were consistent with the expected size (Figure 2A), indicating that the plasmids were constructed correctly. Comet-foci could be seen in the cells 12 days after the Pme I-linearized.......

Discussion

Different adenoviruses have various tissue tropisms, and the prevalence of host pre-existing immunity against different adenoviruses can fluctuate intensively in human beings24, which attracts the interest in constructing novel adenoviral vectors for gene therapy or vaccine development. However, the establishment of a new adenoviral vector system remains cumbersome for generic laboratories of molecular biology.

Here, we introduced a protocol for generating vectors from .......

Acknowledgements

This research was funded by Beijing Natural Science foundation (7204258), National Natural Science Foundation of China (82161138001, 82072266), CAMS Innovation Fund for Medical Sciences (2019-I2M-5-026), and the research and application on molecular tracing of essential respiratory pathogens in Beijing, by the Capital Health Development and Research of Special (2021-1G-3012).

....

Materials

NameCompanyCatalog NumberComments
1.5 mL polypropylene microcentrifuge TubeAxygenMCT-150-CStorage of virus
15 mL polypropylene centrifuge tubesCorning430790Storage of virus
150 mm TC-treated culture dishesCorning430599Growth of HEK29E cells
20 K MWCO dialysis cassetteThermoFisher Scientific66005Dialysis of virus
Acetic acidAmresco714Extraction of DNA
Afl IINEBR0520Digestion
AgaroseTakara5260Electrophoresis
Age INEBR0552Digestion
Asc INEBR0558Digestion
BamH INEBR0136Digestion
Benzonase NucleaseSigmaE8263-25KUPurification of virus
BsrG INEBR0575Digestion
Cell lifterCorning3008Scrape off the cells 
CsClSigmaC3032Purification of virus
DNA gel recovery kitZymoD4045Recovery of DNA
Dulbecco’s modified Eagle’s medium (DMEM)CytivaSH30022.01HEK293 cells medium
E.coli TOP10 competent cellsTIANGEN BIOTECH (BEIJING) CO.,LTD.CB-104Transformation of assembly product
EcoR VNEBR3195Digestion
EDTAThermo Fisher ScientificR3104Extraction of DNA
Fetal bovine serum (FBS)CytivaSV30208.02HEK293 cells culture
Genomic DNA Clean and concentrator kitZymoD4065Purification of DNA
GlycerolShanghai Macklin Biochemical Co., LtdG810575Dialysis of virus
HEK293 cellsATCCCRL-1573Amplification of virus
High-Fidelity DNA PolymeraseNEBM0491PCR
Hind IIINEBR3104Digestion
Kanamycin sulfateAmresco408Selection of plasmid
Kpn INEBR3142Digestion
Lambda/HindIII DNA markerTakara3403Electrophoresis
LB brothBD240230LB plate for bacteria
LB mediumSolarbio Life ScienceL1010Medium for bacteria
MgCl2Sigma63068Dialysis of virus
MicrocentrifugeThermo Fisher ScientificSorvall Legend Micro 21RExtraction of DNA
NaClSigmaS5886Dialysis of virus
Nde INEBR0111Digestion
NEBuilder HiFi DNA Assembly Master MixNEBE2621DNA assembly
Nhe INEBR0131Digestion
Phosphate Buffered SalineCytivaSH30256.01Washing of cells
PipetteThermo Fisher ScientificMatrixAspirate the medium
Plasmid Maxprep KitVigorous Biotechnology Beijing Co., Ltd.N001Extraction of DNA
Plasmid Miniprep KitTIANGEN BIOTECH (BEIJING) CO.,LTD.DP103Extraction of DNA
Pme INEBR0560Digestion
Potassium acetateAmresco698Extraction of DNA
Protease KThermo Fisher ScientificAM2542Extraction of DNA
pShuttle-CMVStratagene240007PCR template
RNaseBeyotimeD7089Extraction of DNA
Sal INEBR0138Digestion
Sbf INEBR3642Digestion
SDSAmresco227Extraction of DNA
Swinging-bucket rotorHITACHIS52STPurification of virus
T-25 cell flaskCorning430639Growth of HEK29E cells
T-75 cell flaskCorning430641Growth of HEK29E cells
Transfection reagentPolyplus-transfection114-15Transfection
Transmission electron microscopeFEITECNAI 12Obsevation of virus
Tris-HClAmresco234Dialysis of virus
UltracentrifugeHITACHIHimac CS120GXIIPurification of virus

References

  1. Lasaro, M. O., Ertl, H. C. New insights on adenovirus as vaccine vectors. Molecular Therapy. 17 (8), 1333-1339 (2009).
  2. Fuchs, J. D., et al. Safety and ....

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Adenoviral VectorDNA AssemblyGene TherapyHAdV 7Infectious CloneE3 RegionTransgeneGFPRestriction assemblyHEK293 Cells

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