PLoS ONE (Jan 2017)

Production of transgenic pig as an Alzheimer's disease model using a multi-cistronic vector system.

  • Seung-Eun Lee,
  • Hyuk Hyun,
  • Mi-Ryung Park,
  • Youngsok Choi,
  • Yeo-Jin Son,
  • Yun-Gwi Park,
  • Sang-Gi Jeong,
  • Min-Young Shin,
  • Hee-Jin Ha,
  • Hyun-Sok Hong,
  • Min-Keyung Choi,
  • Gi-Sun Im,
  • Eung-Woo Park,
  • Young-Ho Kim,
  • Chankyu Park,
  • Eun-Young Kim,
  • Se-Pill Park

DOI
https://doi.org/10.1371/journal.pone.0177933
Journal volume & issue
Vol. 12, no. 6
p. e0177933

Abstract

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Alzheimer's disease (AD) is a progressive neurodegenerative disease associated with memory loss and cognitive impairments. An AD transgenic (Tg) pig model would be useful for preclinical testing of therapeutic agents. We generated an AD Tg pig by somatic cell nuclear transfer (SCNT) using a multi-cistronic vector that harbored three AD-related genes with a total of six well-characterized mutations: hAPP (K670N/M671L, I716V, and V717I), hTau (P301L), and hPS1 (M146V and L286P). Four AD Tg cell lines were established from Jeju black pig ear fibroblasts (JB-PEFs); the resultant JB-PEFAD cells harbored transgene integration, expressed transgene mRNAs, and had normal karyotypes. Tg line #2-1, which expressed high levels of the transgenes, was used for SCNT; cleavage and blastocyst rates of embryos derived from this line were lower than those of Non-Tg. These embryos yielded three piglets (Jeju National University AD-Tg pigs, JNUPIGs) revealed by microsatellite testing to be genetically identical to JB-PEFAD. Transgenes were expressed in multiple tissues, and at especially high levels in brain, and Aβ-40/42, total Tau, and GFAP levels were high in brains of the Tg animals. Five or more copies of transgenes were inserted into chromosome X. This is the first report of an AD Tg pig derived from a multi-cistronic vector.