Localized T3 production modifies the transcriptome and promotes the hepatocyte-like lineage in iPSC-derived hepatic organoids
Jorge Hidalgo-Álvarez, Federico Salas-Lucia, Diana Vera Cruz, Tatiana L. Fonseca, Antonio C. Bianco
Jorge Hidalgo-Álvarez, Federico Salas-Lucia, Diana Vera Cruz, Tatiana L. Fonseca, Antonio C. Bianco
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Research Article Endocrinology Metabolism

Localized T3 production modifies the transcriptome and promotes the hepatocyte-like lineage in iPSC-derived hepatic organoids

Abstract

Thyroid hormone (TH) levels are low during development, and the deiodinases control TH signaling through tissue-specific activation or inactivation of TH. Here, we studied human induced pluripotent stem cell–derived (iPSC-derived) hepatic organoids and identified a robust induction of DIO2 expression (the deiodinase that activates T4 to T3) that occurs in hepatoblasts. The surge in DIO2-T3 (the deiodinase that activates thyroxine [T4] to triiodothyronine [T3]) persists until the hepatoblasts differentiate into hepatocyte- or cholangiocyte-like cells, neither of which expresses DIO2. Preventing the induction of the DIO2-T3 signaling modified the expression of key transcription factors, decreased the number of hepatocyte-like cells by ~60%, and increased the number of cholangiocyte-like cells by ~55% without affecting the growth or the size of the mature liver organoid. Physiological levels of T3 could not fully restore the transition from hepatoblasts to mature cells. This indicates that the timed surge in DIO2-T3 signaling critically determines the fate of developing human hepatoblasts and the transcriptome of the maturing hepatocytes, with physiological and clinical implications for how the liver handles energy substrates.

Authors

Jorge Hidalgo-Álvarez, Federico Salas-Lucia, Diana Vera Cruz, Tatiana L. Fonseca, Antonio C. Bianco

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Figure 1

Differentiation of human iPSC into hepatic organoids.

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Differentiation of human iPSC into hepatic organoids. (A) Graphic repres...
(A) Graphic representation of the differentiation phases. The first phase involves iPSC (day 0), DE (day 4), and PFG (day 10) in a 2-dimensional culture, and the second phase comprises IHO (day 14 to day 18), HBO (day 22 to day 26), and HO, which differentiated into a 3-dimensional structure since day 10. The maturation of the HO encompasses 2 phases, from day 27 to day 38 (HO1) and the second from day 39 to day 46 (HO2). C1–C6 are the indicated differentiation cocktails used (see Methods). (B) Relative mRNA levels of iPSC (POU5F1, SOX2), DE (OTX2, CER1, FOXA2), and PFG (TBX3, HNF4A, CDX2) markers; β-actin was used as the internal control. Entries are the mean of duplicates, represented as aligned scatter dot plots and the mean ± SD (iPSC, n = 8; DE and PFG n = 7; HNF4A in PFG, n = 6), and each differentiation stage is indicated at the bottom of the graphs. (C) Immunofluorescence of OTX2 (red), HNF4α (green), and TBX3 (red) in iPSC, DE, and PFG cells; nuclei are in blue. Scale bar: 150 μm. (D) Representative bright-field images of self-organized hepatic organoids from day 10 to day 38. (E) Immunofluorescence of HNF4α (green) and albumin (red) at day 18, day 26, and day 46. (F) Immunofluorescence of the proliferative markers MKI67 (green) and TBX3 (red) at day 18, day 26, and day 46. Nuclei are shown in blue; the inset is magnified on the bottom left of the first panel.