Nature Communications (Mar 2024)

A let-7 microRNA-RALB axis links the immune properties of iPSC-derived megakaryocytes with platelet producibility

  • Si Jing Chen,
  • Kazuya Hashimoto,
  • Kosuke Fujio,
  • Karin Hayashi,
  • Sudip Kumar Paul,
  • Akinori Yuzuriha,
  • Wei-Yin Qiu,
  • Emiri Nakamura,
  • Maria Alejandra Kanashiro,
  • Mio Kabata,
  • Sou Nakamura,
  • Naoshi Sugimoto,
  • Atsushi Kaneda,
  • Takuya Yamamoto,
  • Hirohide Saito,
  • Naoya Takayama,
  • Koji Eto

DOI
https://doi.org/10.1038/s41467-024-46605-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract We recently achieved the first-in-human transfusion of induced pluripotent stem cell-derived platelets (iPSC-PLTs) as an alternative to standard transfusions, which are dependent on donors and therefore variable in supply. However, heterogeneity characterized by thrombopoiesis-biased or immune-biased megakaryocytes (MKs) continues to pose a bottleneck against the standardization of iPSC-PLT manufacturing. To address this problem, here we employ microRNA (miRNA) switch biotechnology to distinguish subpopulations of imMKCLs, the MK cell lines producing iPSC-PLTs. Upon miRNA switch-based screening, we find imMKCLs with lower let-7 activity exhibit an immune-skewed transcriptional signature. Notably, the low activity of let-7a-5p results in the upregulation of RAS like proto-oncogene B (RALB) expression, which is crucial for the lineage determination of immune-biased imMKCL subpopulations and leads to the activation of interferon-dependent signaling. The dysregulation of immune properties/subpopulations, along with the secretion of inflammatory cytokines, contributes to a decline in the quality of the whole imMKCL population.