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  2. Multiparametric Phenotypic Screening System for Profiling Bioactive Compounds Using Human Fetal Hippocampal Neural Stem/Progenitor Cells

Multiparametric Phenotypic Screening System for Profiling Bioactive Compounds Using Human Fetal Hippocampal Neural Stem/Progenitor Cells

  • J Biomol Screen. 2015 Oct;20(9):1074-83. doi: 10.1177/1087057115598119.
Yoshikuni Tabata 1 Norio Murai 1 Takeo Sasaki 2 Sachie Taniguchi 1 Shuichi Suzuki 1 Kazuto Yamazaki 3 Masashi Ito 1
Affiliations

Affiliations

  • 1 Next Generation Systems CFU, Eisai Product Creation Systems, Eisai Co., Ltd., Tokodai, Tsukuba, Ibaraki, Japan.
  • 2 Global Discovery Research, Neuroscience and General Medicine PCU, Eisai Product Creation Systems, Eisai Co., Ltd., Tokodai, Tsukuba, Ibaraki, Japan.
  • 3 Next Generation Systems CFU, Eisai Product Creation Systems, Eisai Co., Ltd., Tokodai, Tsukuba, Ibaraki, Japan k5-yamazaki@hhc.eisai.co.jp.
Abstract

Stem cell research has been progressing rapidly, contributing to regenerative biology and regenerative medicine. In this field, small-molecule compounds affecting stem cell proliferation/differentiation have been explored to understand stem Cell Biology and support regenerative medicine. In this study, we established a multiparametric screening system to detect bioactive compounds affecting the cell fate of human neural stem/progenitor cells (NSCs/NPCs), using human fetal hippocampal NSCs/NPCs, HIP-009 cells. We examined effects of 410 compounds, which were collected based on mechanisms of action (MOAs) and chemotypes, on HIP-009's cell fate (self-renewal, neuronal and astrocytic differentiation) and morphology by automated multiparametric assays and profiled induced cellular phenotypes. We found that this screening classified compounds with the same MOAs into subgroups according to additional pharmacological effects (e.g., mammalian target of rapamycin complex 1 [mTORC1] inhibitors and mTORC1/mTORC2 dual inhibitors among mTOR inhibitors). Moreover, it identified compounds that have off-target effects under matrix analyses of MOAs and structure similarities (e.g., neurotropic effects of amitriptyline among tri- and tetracyclic compounds). Therefore, this automated, medium-throughput and multiparametric screening system is useful for finding compounds that affect the cell fate of human NSCs/NPCs for supporting regenerative medicine and to fingerprint compounds based on human stem cells' multipotency, leading to understanding of stem Cell Biology.

Keywords

bioactive compound library; cell fate; fingerprinting; human neural stem/progenitor cells; multiparametric phenotypic screening.

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