Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells

Suel Kee Kim; Seungmae Seo; Genevieve Stein-O'Brien; Amritha Jaishankar; Kazuya Ogawa; Nicola Micali; Victor Luria; Amir Karger; Yanhong Wang; Hyojin Kim; Thomas M. Hyde; Joel E. Kleinman; Ty Voss; Elana J. Fertig; Joo Heon Shin; Roland Bürli; Alan J. Cross; Nicholas J. Brandon; Daniel R. Weinberger; Joshua G. Chenoweth; Daniel J. Hoeppner; Nenad Sestan; Carlo Colantuoni; Ronald D. McKay

doi:10.1016/j.stemcr.2024.07.004

Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells

Suel Kee Kim, Seungmae Seo, Genevieve Stein-O'Brien, Amritha Jaishankar, Kazuya Ogawa, Nicola Micali, Victor Luria, Amir Karger, Yanhong Wang, Hyojin Kim, Thomas M. Hyde, Joel E. Kleinman, Ty Voss, Elana J. Fertig, Joo Heon Shin, Roland Bürli, Alan J. Cross, Nicholas J. Brandon, Daniel R. Weinberger, Joshua G. ChenowethDaniel J. Hoeppner, Nenad Sestan, Carlo Colantuoni, Ronald D. McKay

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Variability between human pluripotent stem cell (hPSC) lines remains a challenge and opportunity in biomedicine. In this study, hPSC lines from multiple donors were differentiated toward neuroectoderm and mesendoderm lineages. We revealed dynamic transcriptomic patterns that delineate the emergence of these lineages, which were conserved across lines, along with individual line-specific transcriptional signatures that were invariant throughout differentiation. These transcriptomic signatures predicted an antagonism between SOX21-driven forebrain fates and retinoic acid-induced hindbrain fates. Replicate lines and paired adult tissue demonstrated the stability of these line-specific transcriptomic traits. We show that this transcriptomic variation in lineage bias had both genetic and epigenetic origins, aligned with the anterior-to-posterior structure of early mammalian development, and was present across a large collection of hPSC lines. These findings contribute to developing systematic analyses of PSCs to define the origin and consequences of variation in the early events orchestrating individual human development.

Original language	English (US)
Pages (from-to)	1336-1350
Number of pages	15
Journal	Stem Cell Reports
Volume	19
Issue number	9
DOIs	https://doi.org/10.1016/j.stemcr.2024.07.004
State	Published - Sep 10 2024

Keywords

SOX21
acid signaling
anterior or posterior neural fates
cell line variation
early embryo
human population
pluripotent stem cells
retinoic

ASJC Scopus subject areas

Biochemistry
Genetics
Developmental Biology
Cell Biology

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10.1016/j.stemcr.2024.07.004

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Kim, S. K., Seo, S., Stein-O'Brien, G., Jaishankar, A., Ogawa, K., Micali, N., Luria, V., Karger, A., Wang, Y., Kim, H., Hyde, T. M., Kleinman, J. E., Voss, T., Fertig, E. J., Shin, J. H., Bürli, R., Cross, A. J., Brandon, N. J., Weinberger, D. R., ... McKay, R. D. (2024). Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells. Stem Cell Reports, 19(9), 1336-1350. https://doi.org/10.1016/j.stemcr.2024.07.004

Kim, SK, Seo, S, Stein-O'Brien, G, Jaishankar, A, Ogawa, K, Micali, N, Luria, V, Karger, A, Wang, Y, Kim, H, Hyde, TM, Kleinman, JE, Voss, T, Fertig, EJ, Shin, JH, Bürli, R, Cross, AJ, Brandon, NJ, Weinberger, DR, Chenoweth, JG, Hoeppner, DJ, Sestan, N, Colantuoni, C & McKay, RD 2024, 'Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells', Stem Cell Reports, vol. 19, no. 9, pp. 1336-1350. https://doi.org/10.1016/j.stemcr.2024.07.004

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title = "Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells",

abstract = "Variability between human pluripotent stem cell (hPSC) lines remains a challenge and opportunity in biomedicine. In this study, hPSC lines from multiple donors were differentiated toward neuroectoderm and mesendoderm lineages. We revealed dynamic transcriptomic patterns that delineate the emergence of these lineages, which were conserved across lines, along with individual line-specific transcriptional signatures that were invariant throughout differentiation. These transcriptomic signatures predicted an antagonism between SOX21-driven forebrain fates and retinoic acid-induced hindbrain fates. Replicate lines and paired adult tissue demonstrated the stability of these line-specific transcriptomic traits. We show that this transcriptomic variation in lineage bias had both genetic and epigenetic origins, aligned with the anterior-to-posterior structure of early mammalian development, and was present across a large collection of hPSC lines. These findings contribute to developing systematic analyses of PSCs to define the origin and consequences of variation in the early events orchestrating individual human development.",

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doi = "10.1016/j.stemcr.2024.07.004",

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AU - Kim, Suel Kee

AU - Seo, Seungmae

AU - Stein-O'Brien, Genevieve

AU - Jaishankar, Amritha

AU - Ogawa, Kazuya

AU - Micali, Nicola

AU - Luria, Victor

AU - Karger, Amir

AU - Wang, Yanhong

AU - Kim, Hyojin

AU - Hyde, Thomas M.

AU - Kleinman, Joel E.

AU - Voss, Ty

AU - Fertig, Elana J.

AU - Shin, Joo Heon

AU - Bürli, Roland

AU - Cross, Alan J.

AU - Brandon, Nicholas J.

AU - Weinberger, Daniel R.

AU - Chenoweth, Joshua G.

AU - Hoeppner, Daniel J.

AU - Sestan, Nenad

AU - Colantuoni, Carlo

AU - McKay, Ronald D.

PY - 2024/9/10

Y1 - 2024/9/10

N2 - Variability between human pluripotent stem cell (hPSC) lines remains a challenge and opportunity in biomedicine. In this study, hPSC lines from multiple donors were differentiated toward neuroectoderm and mesendoderm lineages. We revealed dynamic transcriptomic patterns that delineate the emergence of these lineages, which were conserved across lines, along with individual line-specific transcriptional signatures that were invariant throughout differentiation. These transcriptomic signatures predicted an antagonism between SOX21-driven forebrain fates and retinoic acid-induced hindbrain fates. Replicate lines and paired adult tissue demonstrated the stability of these line-specific transcriptomic traits. We show that this transcriptomic variation in lineage bias had both genetic and epigenetic origins, aligned with the anterior-to-posterior structure of early mammalian development, and was present across a large collection of hPSC lines. These findings contribute to developing systematic analyses of PSCs to define the origin and consequences of variation in the early events orchestrating individual human development.

AB - Variability between human pluripotent stem cell (hPSC) lines remains a challenge and opportunity in biomedicine. In this study, hPSC lines from multiple donors were differentiated toward neuroectoderm and mesendoderm lineages. We revealed dynamic transcriptomic patterns that delineate the emergence of these lineages, which were conserved across lines, along with individual line-specific transcriptional signatures that were invariant throughout differentiation. These transcriptomic signatures predicted an antagonism between SOX21-driven forebrain fates and retinoic acid-induced hindbrain fates. Replicate lines and paired adult tissue demonstrated the stability of these line-specific transcriptomic traits. We show that this transcriptomic variation in lineage bias had both genetic and epigenetic origins, aligned with the anterior-to-posterior structure of early mammalian development, and was present across a large collection of hPSC lines. These findings contribute to developing systematic analyses of PSCs to define the origin and consequences of variation in the early events orchestrating individual human development.

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KW - acid signaling

KW - anterior or posterior neural fates

KW - cell line variation

KW - early embryo

KW - human population

KW - pluripotent stem cells

KW - retinoic

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Individual variation in the emergence of anterior-to-posterior neural fates from human pluripotent stem cells

Abstract

Keywords

ASJC Scopus subject areas

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