Optical genome mapping identifies a novel pediatric embryonal tumor with a ZNF532::NUTM1 fusion

Miriam Bornhorst; Augustine Eze; Surajit Bhattacharya; Ethan Putnam; M. Isabel Almira-Suarez; Christopher Rossi; Madhuri Kambhampati; Miguel Almalvez; Mariam Barseghyan; Nicole Del Risco; David Dotson; Joyce Turner; John S. Myseros; Eric Vilain; Roger J. Packer; Javad Nazarian; Brian Rood; Hayk Barseghyan

doi:10.1002/path.6085

Optical genome mapping identifies a novel pediatric embryonal tumor with a ZNF532::NUTM1 fusion

Miriam Bornhorst^*, Augustine Eze, Surajit Bhattacharya, Ethan Putnam, M. Isabel Almira-Suarez, Christopher Rossi, Madhuri Kambhampati, Miguel Almalvez, Mariam Barseghyan, Nicole Del Risco, David Dotson, Joyce Turner, John S. Myseros, Eric Vilain, Roger J. Packer, Javad Nazarian, Brian Rood, Hayk Barseghyan

^*Corresponding author for this work

Pediatrics

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

4 Scopus citations

Abstract

The molecular characteristics of pediatric brain tumors have not only allowed for tumor subgrouping but have led to the introduction of novel treatment options for patients with specific tumor alterations. Therefore, an accurate histologic and molecular diagnosis is critical for optimized management of all pediatric patients with brain tumors, including central nervous system embryonal tumors. We present a case where optical genome mapping identified a ZNF532::NUTM1 fusion in a patient with a unique tumor best characterized histologically as a central nervous system embryonal tumor with rhabdoid features. Additional analyses including immunohistochemistry for NUT protein, methylation array, whole genome, and RNA-sequencing was done to confirm the presence of the fusion in the tumor. This is the first description of a pediatric patient with a ZNF532::NUTM1 fusion, yet the histology of this tumor is similar to that of adult cancers with ZNF::NUTM1 fusions reported in the literature. Although rare, the distinct pathology and underlying molecular characteristics of the ZNF532::NUTM1 tumor separates this from other embryonal tumors. Therefore, screening for this or similar NUTM1 rearrangements should be considered for all patients with unclassified central nervous system tumors with rhabdoid features to ensure accurate diagnosis. Ultimately, with additional cases, we may be able to better inform therapeutic management for these patients.

Original language	English (US)
Pages (from-to)	329-338
Number of pages	10
Journal	Journal of Pathology
Volume	260
Issue number	3
DOIs	https://doi.org/10.1002/path.6085
State	Published - Jul 2023

Funding

We would like to acknowledge the patient's family who donated tissue for this study. This publication was supported by Award UL1TR001876 from the National Institutes of Health (NIH) National Center for Advancing Translational Sciences. Its contents are the sole responsibility of the authors and do not necessarily represent the official views of the National Center for Advancing Translational Sciences or the NIH. This publication was also supported by the Board of Visitors Award through Children's National Hospital, Washington, D.C., and the Children's Cancer Foundation, Columbia, Maryland. This work was supported by the District of Columbia Intellectual and Developmental Disabilities Research Center (DC‐IDDRC) Award P50HD105328 by NICHD (PI: V. Gallo).

Keywords

ZNF532::NUTM1
brain tumor
embryonal
optical genome mapping
pediatric

ASJC Scopus subject areas

Pathology and Forensic Medicine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/path.6085

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Bornhorst, M., Eze, A., Bhattacharya, S., Putnam, E., Almira-Suarez, M. I., Rossi, C., Kambhampati, M., Almalvez, M., Barseghyan, M., Del Risco, N., Dotson, D., Turner, J., Myseros, J. S., Vilain, E., Packer, R. J., Nazarian, J., Rood, B., & Barseghyan, H. (2023). Optical genome mapping identifies a novel pediatric embryonal tumor with a ZNF532::NUTM1 fusion. Journal of Pathology, 260(3), 329-338. https://doi.org/10.1002/path.6085

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title = "Optical genome mapping identifies a novel pediatric embryonal tumor with a ZNF532::NUTM1 fusion",

abstract = "The molecular characteristics of pediatric brain tumors have not only allowed for tumor subgrouping but have led to the introduction of novel treatment options for patients with specific tumor alterations. Therefore, an accurate histologic and molecular diagnosis is critical for optimized management of all pediatric patients with brain tumors, including central nervous system embryonal tumors. We present a case where optical genome mapping identified a ZNF532::NUTM1 fusion in a patient with a unique tumor best characterized histologically as a central nervous system embryonal tumor with rhabdoid features. Additional analyses including immunohistochemistry for NUT protein, methylation array, whole genome, and RNA-sequencing was done to confirm the presence of the fusion in the tumor. This is the first description of a pediatric patient with a ZNF532::NUTM1 fusion, yet the histology of this tumor is similar to that of adult cancers with ZNF::NUTM1 fusions reported in the literature. Although rare, the distinct pathology and underlying molecular characteristics of the ZNF532::NUTM1 tumor separates this from other embryonal tumors. Therefore, screening for this or similar NUTM1 rearrangements should be considered for all patients with unclassified central nervous system tumors with rhabdoid features to ensure accurate diagnosis. Ultimately, with additional cases, we may be able to better inform therapeutic management for these patients.",

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year = "2023",

month = jul,

doi = "10.1002/path.6085",

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Bornhorst, M, Eze, A, Bhattacharya, S, Putnam, E, Almira-Suarez, MI, Rossi, C, Kambhampati, M, Almalvez, M, Barseghyan, M, Del Risco, N, Dotson, D, Turner, J, Myseros, JS, Vilain, E, Packer, RJ, Nazarian, J, Rood, B & Barseghyan, H 2023, 'Optical genome mapping identifies a novel pediatric embryonal tumor with a ZNF532::NUTM1 fusion', Journal of Pathology, vol. 260, no. 3, pp. 329-338. https://doi.org/10.1002/path.6085

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AU - Bornhorst, Miriam

AU - Eze, Augustine

AU - Bhattacharya, Surajit

AU - Putnam, Ethan

AU - Almira-Suarez, M. Isabel

AU - Rossi, Christopher

AU - Kambhampati, Madhuri

AU - Almalvez, Miguel

AU - Barseghyan, Mariam

AU - Del Risco, Nicole

AU - Dotson, David

AU - Turner, Joyce

AU - Myseros, John S.

AU - Vilain, Eric

AU - Packer, Roger J.

AU - Nazarian, Javad

AU - Rood, Brian

AU - Barseghyan, Hayk

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AB - The molecular characteristics of pediatric brain tumors have not only allowed for tumor subgrouping but have led to the introduction of novel treatment options for patients with specific tumor alterations. Therefore, an accurate histologic and molecular diagnosis is critical for optimized management of all pediatric patients with brain tumors, including central nervous system embryonal tumors. We present a case where optical genome mapping identified a ZNF532::NUTM1 fusion in a patient with a unique tumor best characterized histologically as a central nervous system embryonal tumor with rhabdoid features. Additional analyses including immunohistochemistry for NUT protein, methylation array, whole genome, and RNA-sequencing was done to confirm the presence of the fusion in the tumor. This is the first description of a pediatric patient with a ZNF532::NUTM1 fusion, yet the histology of this tumor is similar to that of adult cancers with ZNF::NUTM1 fusions reported in the literature. Although rare, the distinct pathology and underlying molecular characteristics of the ZNF532::NUTM1 tumor separates this from other embryonal tumors. Therefore, screening for this or similar NUTM1 rearrangements should be considered for all patients with unclassified central nervous system tumors with rhabdoid features to ensure accurate diagnosis. Ultimately, with additional cases, we may be able to better inform therapeutic management for these patients.

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Optical genome mapping identifies a novel pediatric embryonal tumor with a ZNF532::NUTM1 fusion

Abstract

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Keywords

ASJC Scopus subject areas

UN SDGs

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