Developing Genetic Biotechnologies for Increased Food Animal Production, Including Novel Antimicrobials for Improved Health & Product Safety
Animal Biosciences and Biotechnology Laboratory
Project Number: 1245-31000-103-00
Start Date: Jul 24, 2012
End Date: Jul 23, 2017
OBJECTIVE 1: Develop stem cell techniques for genetic modification and genetic engineering of food animals including pluripotent stem cells, somatic cell nuclear transfer and gene product genetic engineering. 1A. Establish normal, functionally immortal, ungulate iPSC lines that lack genomic integration of either viral vectors or RF genes in the ungulate genome. 1B. Demonstrate the use of bovine iPSC lines for genetic engineering of cattle via chimerism, in vitro transgenesis, and NT.
OBJECTIVE 2: Improve porcine production and product traits through expression of specific gene products via transient allogeneic cell transplantation of genetically engineered porcine cells into newborn pigs. 2A. Determine culture conditions for an immortal porcine cell line that enables the cells to be transplanted into pigs without hyperacute rejection. 2B. Determine the capacity of the cells of an immortal porcine cell line to survive in vivo after allogeneic cell transplantation into neonatal pigs. 2C. Determine if hGH-expressing transplanted cells affect the growth of neonatal pigs.
OBJECTIVE 3: Reduce the emergence of drug resistance in common pathogens of food animals by developing recombinant antimicrobial gene constructs that can be expressed in food animals with in vivo activity via transgenic technology. 3A. Create, identify and test mutant versions of existing triple-acting recombinant antimicrobials for high lytic activity in a milk environment. 3B. Develop eukaryotic expression cassettes for triple-acting bactericidals and test for antimicrobial efficacy in cultured mammary cells and mammary glands of transgenic mice.
The project will develop approaches for expressing new gene products in livestock that can be utilized to improve food animal production/efficiency, enhance traits, maintain strain- or breed-specific genetics, minimize disease susceptibility or improve product safety. The first objective will be the production of porcine and bovine induced pluripotent stem cell (iPSC) cell lines, or other long-lived cell lines, that survive sufficiently long in culture to enable targeted gene replacements to be effected in cattle and pigs. The cell lines may also serve as an immortalized version of cryobanked material for the preservation of breeds. As an alternative to permanently modifying the livestock genome, the second project objective will be to affect the phenotype of pigs via allogeneic transplantation of cultured pig cells that are transgenically modified to secrete specific proteins that confer a benefit to animal production traits, e.g., growth status, and harbor an inducible ‘suicide’ gene for ablation of the cells prior to animal harvest. The third objective will be to develop triple-acting antimicrobial gene constructs as model transgenes to prevent bovine mastitis caused by Staphylococcus aureus. An expansion of prior lysostaphin work, the constructs will be designed with three unique staphylolytic activities as a strategy to reduce the development of resistant bacterial strains. Additionally, a protein transduction domain will be incorporated into the constructs to allow the antimicrobial protein to penetrate mammary cells and eradicate intracellular S. aureus that are typically associated with chronic mastitis infections.