Abstract

The current PPG is focused on three different preclinical animal models pertinent to developing gene therapy treatment strategies for hemophilia. These animal models are critical towards developing translational strategies for hemophilia gene therapy. The Animal Core will serve as an integral component of the UNC PPG. Activities to support PPG members will include colony breeding, maintenance and genotyping as well as vector construction, administration and characterization in the context of with the ultimate goal of developing clinically relevant gene therapy modalities. Each ofthe mouse strains required by Projects 1 through 4 will be bred and maintained by the Animal Core to facilitate rapid and efficient dissemination to individual projects. Project 3 is focused on evaluating l.A. prevention of hemarthropathy in dogs. All canine model studies will be carried out at the Frances Owen Blood Research Lab and Canine model facility at UNC. Project 4 is focused on developing a non-human primate model of hemophilia B that can be utilized for the study of factor IX deficiency as well as allow for the preclinicaltesting of therapeutic approaches for the treatment of patients with factor IX deficiency. All primate model studies will be carried out at the primate facility at UC Davis.

Public Health Relevance

The current PPG is focused on three different preclinical animal models pertinent to developing gene therapy treatment strategies for hemophilia. These animal models are critical towards developing translational strategies for hemophilia gene therapy. The Animal Core will serve as an integral component of the UNC PPG.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
5P01HL112761-02
Application #
8616797
Study Section
Heart, Lung, and Blood Program Project Review Committee (HLBP)
Project Start
Project End
Budget Start
2014-02-01
Budget End
2015-01-31
Support Year
2
Fiscal Year
2014
Total Cost
Indirect Cost

  Institution

Name
University of North Carolina Chapel Hill
Department
Type
DUNS #
City
Chapel Hill
State
NC
Country
United States
Zip Code

  Publications

Chai, Zheng; Samulski, R Jude; Li, Chengwen (2018) Nab Escaping AAV Mutants Isolated from Mouse Muscles. Bio Protoc 8:
Sun, Junjiang; Shao, Wenwei; Chen, Xiaojing et al. (2018) An Observational Study from Long-Term AAV Re-administration in Two Hemophilia Dogs. Mol Ther Methods Clin Dev 10:257-267
Chai, Zheng; Zhang, Xintao; Rigsbee, Kelly Michelle et al. (2018) Cryoprecipitate augments the global transduction of the adeno-associated virus serotype 9 after a systemic administration. J Control Release 286:415-424
Tse, Longping V; Moller-Tank, Sven; Meganck, Rita M et al. (2018) Mapping and Engineering Functional Domains of the Assembly-Activating Protein of Adeno-associated Viruses. J Virol 92:
Albright, Blake H; Storey, Claire M; Murlidharan, Giridhar et al. (2018) Mapping the Structural Determinants Required for AAVrh.10 Transport across the Blood-Brain Barrier. Mol Ther 26:510-523
Wang, M; Sun, J; Crosby, A et al. (2017) Direct interaction of human serum proteins with AAV virions to enhance AAV transduction: immediate impact on clinical applications. Gene Ther 24:49-59
Chai, Zheng; Sun, Junjiang; Rigsbee, Kelly Michelle et al. (2017) Application of polyploid adeno-associated virus vectors for transduction enhancement and neutralizing antibody evasion. J Control Release 262:348-356
Berry, Garrett E; Tse, Longping V (2017) Virus Binding and Internalization Assay for Adeno-associated Virus. Bio Protoc 7:
Tse, Longping Victor; Klinc, Kelli A; Madigan, Victoria J et al. (2017) Structure-guided evolution of antigenically distinct adeno-associated virus variants for immune evasion. Proc Natl Acad Sci U S A 114:E4812-E4821
Liang, Katharine J; Woodard, Kenton T; Weaver, Mark A et al. (2017) AAV-Nrf2 Promotes Protection and Recovery in Animal Models of Oxidative Stress. Mol Ther 25:765-779

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