Clonal evolution during metastatic spread in high-risk neuroblastoma

Gunes Gundem; Max F. Levine; Stephen S. Roberts; Irene Y. Cheung; Juan S. Medina-Martínez; Yi Feng; Juan E. Arango-Ossa; Loic Chadoutaud; Mathieu Rita; Georgios Asimomitis; Joe Zhou; Daoqi You; Nancy Bouvier; Barbara Spitzer; David B. Solit; Filemon Dela Cruz; Michael P. LaQuaglia; Brian H. Kushner; Shakeel Modak; Neerav Shukla; Christine A. Iacobuzio-Donahue; Andrew L. Kung; Nai Kong V. Cheung; Elli Papaemmanuil

doi:10.1038/s41588-023-01395-x

Clonal evolution during metastatic spread in high-risk neuroblastoma

Gunes Gundem, Max F. Levine, Stephen S. Roberts, Irene Y. Cheung, Juan S. Medina-Martínez, Yi Feng, Juan E. Arango-Ossa, Loic Chadoutaud, Mathieu Rita, Georgios Asimomitis, Joe Zhou, Daoqi You, Nancy Bouvier, Barbara Spitzer, David B. Solit, Filemon Dela Cruz, Michael P. LaQuaglia, Brian H. Kushner, Shakeel Modak, Neerav ShuklaChristine A. Iacobuzio-Donahue, Andrew L. Kung, Nai Kong V. Cheung, Elli Papaemmanuil

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Abstract

Patients with high-risk neuroblastoma generally present with widely metastatic disease and often relapse despite intensive therapy. As most studies to date focused on diagnosis-relapse pairs, our understanding of the genetic and clonal dynamics of metastatic spread and disease progression remain limited. Here, using genomic profiling of 470 sequential and spatially separated samples from 283 patients, we characterize subtype-specific genetic evolutionary trajectories from diagnosis through progression and end-stage metastatic disease. Clonal tracing timed disease initiation to embryogenesis. Continuous acquisition of structural variants at disease-defining loci (MYCN, TERT, MDM2-CDK4) followed by convergent evolution of mutations targeting shared pathways emerged as the predominant feature of progression. At diagnosis metastatic clones were already established at distant sites where they could stay dormant, only to cause relapses years later and spread via metastasis-to-metastasis and polyclonal seeding after therapy.

Original language	English (US)
Pages (from-to)	1022-1033
Number of pages	12
Journal	Nature genetics
Volume	55
Issue number	6
DOIs	https://doi.org/10.1038/s41588-023-01395-x
State	Published - Jun 2023
Externally published	Yes

ASJC Scopus subject areas

Genetics

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Gundem, G., Levine, M. F., Roberts, S. S., Cheung, I. Y., Medina-Martínez, J. S., Feng, Y., Arango-Ossa, J. E., Chadoutaud, L., Rita, M., Asimomitis, G., Zhou, J., You, D., Bouvier, N., Spitzer, B., Solit, D. B., Dela Cruz, F., LaQuaglia, M. P., Kushner, B. H., Modak, S., ... Papaemmanuil, E. (2023). Clonal evolution during metastatic spread in high-risk neuroblastoma. Nature genetics, 55(6), 1022-1033. https://doi.org/10.1038/s41588-023-01395-x

Gundem, G, Levine, MF, Roberts, SS, Cheung, IY, Medina-Martínez, JS, Feng, Y, Arango-Ossa, JE, Chadoutaud, L, Rita, M, Asimomitis, G, Zhou, J, You, D, Bouvier, N, Spitzer, B, Solit, DB, Dela Cruz, F, LaQuaglia, MP, Kushner, BH, Modak, S, Shukla, N, Iacobuzio-Donahue, CA, Kung, AL, Cheung, NKV & Papaemmanuil, E 2023, 'Clonal evolution during metastatic spread in high-risk neuroblastoma', Nature genetics, vol. 55, no. 6, pp. 1022-1033. https://doi.org/10.1038/s41588-023-01395-x

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abstract = "Patients with high-risk neuroblastoma generally present with widely metastatic disease and often relapse despite intensive therapy. As most studies to date focused on diagnosis-relapse pairs, our understanding of the genetic and clonal dynamics of metastatic spread and disease progression remain limited. Here, using genomic profiling of 470 sequential and spatially separated samples from 283 patients, we characterize subtype-specific genetic evolutionary trajectories from diagnosis through progression and end-stage metastatic disease. Clonal tracing timed disease initiation to embryogenesis. Continuous acquisition of structural variants at disease-defining loci (MYCN, TERT, MDM2-CDK4) followed by convergent evolution of mutations targeting shared pathways emerged as the predominant feature of progression. At diagnosis metastatic clones were already established at distant sites where they could stay dormant, only to cause relapses years later and spread via metastasis-to-metastasis and polyclonal seeding after therapy.",

author = "Gunes Gundem and Levine, {Max F.} and Roberts, {Stephen S.} and Cheung, {Irene Y.} and Medina-Mart{\'i}nez, {Juan S.} and Yi Feng and Arango-Ossa, {Juan E.} and Loic Chadoutaud and Mathieu Rita and Georgios Asimomitis and Joe Zhou and Daoqi You and Nancy Bouvier and Barbara Spitzer and Solit, {David B.} and {Dela Cruz}, Filemon and LaQuaglia, {Michael P.} and Kushner, {Brian H.} and Shakeel Modak and Neerav Shukla and Iacobuzio-Donahue, {Christine A.} and Kung, {Andrew L.} and Cheung, {Nai Kong V.} and Elli Papaemmanuil",

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doi = "10.1038/s41588-023-01395-x",

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AU - Cheung, Irene Y.

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AU - Feng, Yi

AU - Arango-Ossa, Juan E.

AU - Chadoutaud, Loic

AU - Rita, Mathieu

AU - Asimomitis, Georgios

AU - Zhou, Joe

AU - You, Daoqi

AU - Bouvier, Nancy

AU - Spitzer, Barbara

AU - Solit, David B.

AU - Dela Cruz, Filemon

AU - LaQuaglia, Michael P.

AU - Kushner, Brian H.

AU - Modak, Shakeel

AU - Shukla, Neerav

AU - Iacobuzio-Donahue, Christine A.

AU - Kung, Andrew L.

AU - Cheung, Nai Kong V.

AU - Papaemmanuil, Elli

PY - 2023/6

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AB - Patients with high-risk neuroblastoma generally present with widely metastatic disease and often relapse despite intensive therapy. As most studies to date focused on diagnosis-relapse pairs, our understanding of the genetic and clonal dynamics of metastatic spread and disease progression remain limited. Here, using genomic profiling of 470 sequential and spatially separated samples from 283 patients, we characterize subtype-specific genetic evolutionary trajectories from diagnosis through progression and end-stage metastatic disease. Clonal tracing timed disease initiation to embryogenesis. Continuous acquisition of structural variants at disease-defining loci (MYCN, TERT, MDM2-CDK4) followed by convergent evolution of mutations targeting shared pathways emerged as the predominant feature of progression. At diagnosis metastatic clones were already established at distant sites where they could stay dormant, only to cause relapses years later and spread via metastasis-to-metastasis and polyclonal seeding after therapy.

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Clonal evolution during metastatic spread in high-risk neuroblastoma

Abstract

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