Molecular Therapy: Methods & Clinical Development (Jun 2021)

Generation of macrophages with altered viral sensitivity from genome-edited rhesus macaque iPSCs to model human disease

  • Yoshihiro Iwamoto,
  • Yohei Seki,
  • Kahoru Taya,
  • Masahiro Tanaka,
  • Shoichi Iriguchi,
  • Yasuyuki Miyake,
  • Emi E. Nakayama,
  • Tomoyuki Miura,
  • Tatsuo Shioda,
  • Hirofumi Akari,
  • Akifumi Takaori-Kondo,
  • Shin Kaneko

Journal volume & issue
Vol. 21
pp. 262 – 273

Abstract

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Because of their close biological similarity to humans, non-human primate (NHP) models are very useful for the development of induced pluripotent stem cell (iPSC)-based cell and regenerative organ transplantation therapies. However, knowledge on the establishment, differentiation, and genetic modification of NHP-iPSCs, especially rhesus macaque iPSCs, is limited. We succeeded in establishing iPSCs from the peripheral blood of rhesus macaques (Rh-iPSCs) by combining the Yamanaka reprograming factors and two inhibitors (GSK-3 inhibitor [CHIR 99021] and MEK1/2 inhibitor [PD0325901]) and differentiated the cells into functional macrophages through hematopoietic progenitor cells. To confirm feasibility of the Rh-iPSC-derived macrophages as a platform for bioassays to model diseases, we knocked out TRIM5 gene in Rh-iPSCs by CRISPR-Cas9, which is a species-specific HIV resistance factor. TRIM5 knockout (KO) iPSCs had the same differentiation potential to macrophages as did Rh-iPSCs, but the differentiated macrophages showed a gain of sensitivity to HIV infection in vitro. Our reprogramming, gene editing, and differentiation protocols used to obtain Rh-iPSC-derived macrophages can be applied to other gene mutations, expanding the number of NHP gene therapy models.

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