Comparative Evaluation of Hormones and Hormone-Like Molecule in Lineage Specification of Human Induced Pluripotent Stem Cells

Overview

Journal Int J Stem Cells

Date 2019 Jun 28

PMID 31242719

Citations 2

Authors

Seon-A Choi

Ju-Hyun An

Seung Hwan Lee

Geun-Hui Lee

Hae-Jun Yang

Pil-Soo Jeong

Jae-Jin Cha

Sanghoon Lee

Young-Ho Park

Bong-Seok Song

Bo-Woong Sim

Young-Hyun Kim

Ji-Su Kim

Yeung Bae Jin

Jae-Won Huh

Sang-Rae Lee

Jong-Hee Lee

Sun-Uk Kim

Affiliations

Soon will be listed here.

Abstract

Background And Objectives: Proficient differentiation of human pluripotent stem cells (hPSCs) into specific lineages is required for applications in regenerative medicine. A growing amount of evidences had implicated hormones and hormone-like molecules as critical regulators of proliferation and lineage specification during development. Therefore, a deeper understanding of the hormones and hormone-like molecules involved in cell fate decisions is critical for efficient and controlled differentiation of hPSCs into specific lineages. Thus, we functionally and quantitatively compared the effects of diverse hormones (estradiol 17- (E2), progesterone (P4), and dexamethasone (DM)) and a hormone-like molecule (retinoic acid (RA)) on the regulation of hematopoietic and neural lineage specification.

Methods And Results: We used 10 nM E2, 3 M P4, 10 nM DM, and 10 nM RA based on their functional developmental potential. The sex hormone E2 enhanced functional activity of hematopoietic progenitors compared to P4 and DM, whereas RA impaired hematopoietic differentiation. In addition, E2 increased CD34CD45 cells with progenitor functions, even in the CD43 population, a well-known hemogenic marker. RA exhibited lineage-biased potential, preferentially committing hPSCs toward the neural lineage while restricting the hematopoietic fate decision.

Conclusions: Our findings reveal unique cell fate potentials of E2 and RA treatment and provide valuable differentiation information that is essential for hPSC applications.

Citing Articles

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Human Blood Vessel Organoids Penetrate Human Cerebral Organoids and Form a Vessel-Like System.

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