Genetic predisposition to neuroblastoma results from a regulatory polymorphism that promotes the adrenergic cell state

Nina Weichert-Leahey; Hui Shi; Ting Tao; Derek A. Oldridge; Adam D. Durbin; Brian J. Abraham; Mark W. Zimmerman; Shizhen Zhu; Andrew C. Wood; Deepak Reyon; J. Keith Joung; Richard A. Young; Sharon J. Diskin; John M. Maris; A. Thomas Look

doi:10.1172/JCI166919

Genetic predisposition to neuroblastoma results from a regulatory polymorphism that promotes the adrenergic cell state

Nina Weichert-Leahey, Hui Shi, Ting Tao, Derek A. Oldridge, Adam D. Durbin, Brian J. Abraham, Mark W. Zimmerman, Shizhen Zhu, Andrew C. Wood, Deepak Reyon, J. Keith Joung, Richard A. Young, Sharon J. Diskin, John M. Maris, A. Thomas Look

Biochemistry and Molecular Biology

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

Abstract

Childhood neuroblastomas exhibit plasticity between an undifferentiated neural crest–like mesenchymal cell state and a more differentiated sympathetic adrenergic cell state. These cell states are governed by autoregulatory transcriptional loops called core regulatory circuitries (CRCs), which drive the early development of sympathetic neuronal progenitors from migratory neural crest cells during embryogenesis. The adrenergic cell identity of neuroblastoma requires LMO1 as a transcriptional cofactor. Both LMO1 expression levels and the risk of developing neuroblastoma in children are associated with a single nucleotide polymorphism, G/T, that affects a GATA motif in the first intron of LMO1. Here, we showed that WT zebrafish with the GATA genotype developed adrenergic neuroblastoma, while knock-in of the protective TATA allele at this locus reduced the penetrance of MYCN-driven tumors, which were restricted to the mesenchymal cell state. Whole genome sequencing of childhood neuroblastomas demonstrated that TATA/TATA tumors also exhibited a mesenchymal cell state and were low risk at diagnosis. Thus, conversion of the regulatory GATA to a TATA allele in the first intron of LMO1 reduced the neuroblastoma-initiation rate by preventing formation of the adrenergic cell state. This mechanism was conserved over 400 million years of evolution, separating zebrafish and humans.

Original language	English (US)
Article number	e166919
Journal	Journal of Clinical Investigation
Volume	133
Issue number	10
DOIs	https://doi.org/10.1172/JCI166919
State	Published - May 15 2023

ASJC Scopus subject areas

General Medicine

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10.1172/JCI166919

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Weichert-Leahey, N., Shi, H., Tao, T., Oldridge, D. A., Durbin, A. D., Abraham, B. J., Zimmerman, M. W., Zhu, S., Wood, A. C., Reyon, D., Joung, J. K., Young, R. A., Diskin, S. J., Maris, J. M., & Look, A. T. (2023). Genetic predisposition to neuroblastoma results from a regulatory polymorphism that promotes the adrenergic cell state. Journal of Clinical Investigation, 133(10), Article e166919. https://doi.org/10.1172/JCI166919

Weichert-Leahey, N, Shi, H, Tao, T, Oldridge, DA, Durbin, AD, Abraham, BJ, Zimmerman, MW, Zhu, S, Wood, AC, Reyon, D, Joung, JK, Young, RA, Diskin, SJ, Maris, JM & Look, AT 2023, 'Genetic predisposition to neuroblastoma results from a regulatory polymorphism that promotes the adrenergic cell state', Journal of Clinical Investigation, vol. 133, no. 10, e166919. https://doi.org/10.1172/JCI166919

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title = "Genetic predisposition to neuroblastoma results from a regulatory polymorphism that promotes the adrenergic cell state",

abstract = "Childhood neuroblastomas exhibit plasticity between an undifferentiated neural crest–like mesenchymal cell state and a more differentiated sympathetic adrenergic cell state. These cell states are governed by autoregulatory transcriptional loops called core regulatory circuitries (CRCs), which drive the early development of sympathetic neuronal progenitors from migratory neural crest cells during embryogenesis. The adrenergic cell identity of neuroblastoma requires LMO1 as a transcriptional cofactor. Both LMO1 expression levels and the risk of developing neuroblastoma in children are associated with a single nucleotide polymorphism, G/T, that affects a GATA motif in the first intron of LMO1. Here, we showed that WT zebrafish with the GATA genotype developed adrenergic neuroblastoma, while knock-in of the protective TATA allele at this locus reduced the penetrance of MYCN-driven tumors, which were restricted to the mesenchymal cell state. Whole genome sequencing of childhood neuroblastomas demonstrated that TATA/TATA tumors also exhibited a mesenchymal cell state and were low risk at diagnosis. Thus, conversion of the regulatory GATA to a TATA allele in the first intron of LMO1 reduced the neuroblastoma-initiation rate by preventing formation of the adrenergic cell state. This mechanism was conserved over 400 million years of evolution, separating zebrafish and humans.",

author = "Nina Weichert-Leahey and Hui Shi and Ting Tao and Oldridge, {Derek A.} and Durbin, {Adam D.} and Abraham, {Brian J.} and Zimmerman, {Mark W.} and Shizhen Zhu and Wood, {Andrew C.} and Deepak Reyon and Joung, {J. Keith} and Young, {Richard A.} and Diskin, {Sharon J.} and Maris, {John M.} and Look, {A. Thomas}",

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AU - Zhu, Shizhen

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AU - Reyon, Deepak

AU - Joung, J. Keith

AU - Young, Richard A.

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AU - Maris, John M.

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AB - Childhood neuroblastomas exhibit plasticity between an undifferentiated neural crest–like mesenchymal cell state and a more differentiated sympathetic adrenergic cell state. These cell states are governed by autoregulatory transcriptional loops called core regulatory circuitries (CRCs), which drive the early development of sympathetic neuronal progenitors from migratory neural crest cells during embryogenesis. The adrenergic cell identity of neuroblastoma requires LMO1 as a transcriptional cofactor. Both LMO1 expression levels and the risk of developing neuroblastoma in children are associated with a single nucleotide polymorphism, G/T, that affects a GATA motif in the first intron of LMO1. Here, we showed that WT zebrafish with the GATA genotype developed adrenergic neuroblastoma, while knock-in of the protective TATA allele at this locus reduced the penetrance of MYCN-driven tumors, which were restricted to the mesenchymal cell state. Whole genome sequencing of childhood neuroblastomas demonstrated that TATA/TATA tumors also exhibited a mesenchymal cell state and were low risk at diagnosis. Thus, conversion of the regulatory GATA to a TATA allele in the first intron of LMO1 reduced the neuroblastoma-initiation rate by preventing formation of the adrenergic cell state. This mechanism was conserved over 400 million years of evolution, separating zebrafish and humans.

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Genetic predisposition to neuroblastoma results from a regulatory polymorphism that promotes the adrenergic cell state

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