Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma

The malignant Hodgkin and Reed Sternberg (HRS) cells of classical Hodgkin lymphoma (cHL) are scarce in affected lymph nodes, creating a challenge to detect driver somatic mutations. As an alternative to cell purification techniques, we hypothesized that ultra-deep exome sequencing would allow genomi...

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Autores principales: Gomez, Felicia, Fisk, Bryan, McMichael, Joshua F., Mosior, Matthew, Foltz, Jennifer A., Skidmore, Zachary L., Duncavage, Eric J., Miller, Christopher A., Abel, Haley, Li, Yi-Shan, Russler-Germain, David A., Krysiak, Kilannin, Watkins, Marcus P., Ramirez, Cody A., Schmidt, Alina, Martins Rodrigues, Fernanda, Trani, Lee, Khanna, Ajay, Wagner, Julia A., Fulton, Robert S., Fronick, Catrina C., O'Laughlin, Michelle D., Schappe, Timothy, Cashen, Amanda F., Mehta-Shah, Neha, Kahl, Brad S., Walker, Jason, Bartlett, Nancy L., Griffith, Malachi, Fehniger, Todd A., Griffith, Obi L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for Cancer Research 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10648575/
https://www.ncbi.nlm.nih.gov/pubmed/37910143
http://dx.doi.org/10.1158/2767-9764.CRC-23-0140
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author Gomez, Felicia
Fisk, Bryan
McMichael, Joshua F.
Mosior, Matthew
Foltz, Jennifer A.
Skidmore, Zachary L.
Duncavage, Eric J.
Miller, Christopher A.
Abel, Haley
Li, Yi-Shan
Russler-Germain, David A.
Krysiak, Kilannin
Watkins, Marcus P.
Ramirez, Cody A.
Schmidt, Alina
Martins Rodrigues, Fernanda
Trani, Lee
Khanna, Ajay
Wagner, Julia A.
Fulton, Robert S.
Fronick, Catrina C.
O'Laughlin, Michelle D.
Schappe, Timothy
Cashen, Amanda F.
Mehta-Shah, Neha
Kahl, Brad S.
Walker, Jason
Bartlett, Nancy L.
Griffith, Malachi
Fehniger, Todd A.
Griffith, Obi L.
author_facet Gomez, Felicia
Fisk, Bryan
McMichael, Joshua F.
Mosior, Matthew
Foltz, Jennifer A.
Skidmore, Zachary L.
Duncavage, Eric J.
Miller, Christopher A.
Abel, Haley
Li, Yi-Shan
Russler-Germain, David A.
Krysiak, Kilannin
Watkins, Marcus P.
Ramirez, Cody A.
Schmidt, Alina
Martins Rodrigues, Fernanda
Trani, Lee
Khanna, Ajay
Wagner, Julia A.
Fulton, Robert S.
Fronick, Catrina C.
O'Laughlin, Michelle D.
Schappe, Timothy
Cashen, Amanda F.
Mehta-Shah, Neha
Kahl, Brad S.
Walker, Jason
Bartlett, Nancy L.
Griffith, Malachi
Fehniger, Todd A.
Griffith, Obi L.
author_sort Gomez, Felicia
collection PubMed
description The malignant Hodgkin and Reed Sternberg (HRS) cells of classical Hodgkin lymphoma (cHL) are scarce in affected lymph nodes, creating a challenge to detect driver somatic mutations. As an alternative to cell purification techniques, we hypothesized that ultra-deep exome sequencing would allow genomic study of HRS cells, thereby streamlining analysis and avoiding technical pitfalls. To test this, 31 cHL tumor/normal pairs were exome sequenced to approximately 1,000× median depth of coverage. An orthogonal error-corrected sequencing approach verified >95% of the discovered mutations. We identified mutations in genes novel to cHL including: CDH5 and PCDH7, novel stop gain mutations in IL4R, and a novel pattern of recurrent mutations in pathways regulating Hippo signaling. As a further application of our exome sequencing, we attempted to identify expressed somatic single-nucleotide variants (SNV) in single-nuclei RNA sequencing (snRNA-seq) data generated from a patient in our cohort. Our snRNA analysis identified a clear cluster of cells containing a somatic SNV identified in our deep exome data. This cluster has differentially expressed genes that are consistent with genes known to be dysregulated in HRS cells (e.g., PIM1 and PIM3). The cluster also contains cells with an expanded B-cell clonotype further supporting a malignant phenotype. This study provides proof-of-principle that ultra-deep exome sequencing can be utilized to identify recurrent mutations in HRS cells and demonstrates the feasibility of snRNA-seq in the context of cHL. These studies provide the foundation for the further analysis of genomic variants in large cohorts of patients with cHL. SIGNIFICANCE: Our data demonstrate the utility of ultra-deep exome sequencing in uncovering somatic variants in Hodgkin lymphoma, creating new opportunities to define the genes that are recurrently mutated in this disease. We also show for the first time the successful application of snRNA-seq in Hodgkin lymphoma and describe the expression profile of a putative cluster of HRS cells in a single patient.
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spelling pubmed-106485752023-11-15 Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma Gomez, Felicia Fisk, Bryan McMichael, Joshua F. Mosior, Matthew Foltz, Jennifer A. Skidmore, Zachary L. Duncavage, Eric J. Miller, Christopher A. Abel, Haley Li, Yi-Shan Russler-Germain, David A. Krysiak, Kilannin Watkins, Marcus P. Ramirez, Cody A. Schmidt, Alina Martins Rodrigues, Fernanda Trani, Lee Khanna, Ajay Wagner, Julia A. Fulton, Robert S. Fronick, Catrina C. O'Laughlin, Michelle D. Schappe, Timothy Cashen, Amanda F. Mehta-Shah, Neha Kahl, Brad S. Walker, Jason Bartlett, Nancy L. Griffith, Malachi Fehniger, Todd A. Griffith, Obi L. Cancer Res Commun Research Article The malignant Hodgkin and Reed Sternberg (HRS) cells of classical Hodgkin lymphoma (cHL) are scarce in affected lymph nodes, creating a challenge to detect driver somatic mutations. As an alternative to cell purification techniques, we hypothesized that ultra-deep exome sequencing would allow genomic study of HRS cells, thereby streamlining analysis and avoiding technical pitfalls. To test this, 31 cHL tumor/normal pairs were exome sequenced to approximately 1,000× median depth of coverage. An orthogonal error-corrected sequencing approach verified >95% of the discovered mutations. We identified mutations in genes novel to cHL including: CDH5 and PCDH7, novel stop gain mutations in IL4R, and a novel pattern of recurrent mutations in pathways regulating Hippo signaling. As a further application of our exome sequencing, we attempted to identify expressed somatic single-nucleotide variants (SNV) in single-nuclei RNA sequencing (snRNA-seq) data generated from a patient in our cohort. Our snRNA analysis identified a clear cluster of cells containing a somatic SNV identified in our deep exome data. This cluster has differentially expressed genes that are consistent with genes known to be dysregulated in HRS cells (e.g., PIM1 and PIM3). The cluster also contains cells with an expanded B-cell clonotype further supporting a malignant phenotype. This study provides proof-of-principle that ultra-deep exome sequencing can be utilized to identify recurrent mutations in HRS cells and demonstrates the feasibility of snRNA-seq in the context of cHL. These studies provide the foundation for the further analysis of genomic variants in large cohorts of patients with cHL. SIGNIFICANCE: Our data demonstrate the utility of ultra-deep exome sequencing in uncovering somatic variants in Hodgkin lymphoma, creating new opportunities to define the genes that are recurrently mutated in this disease. We also show for the first time the successful application of snRNA-seq in Hodgkin lymphoma and describe the expression profile of a putative cluster of HRS cells in a single patient. American Association for Cancer Research 2023-11-15 /pmc/articles/PMC10648575/ /pubmed/37910143 http://dx.doi.org/10.1158/2767-9764.CRC-23-0140 Text en © 2023 The Authors; Published by the American Association for Cancer Research https://creativecommons.org/licenses/by/4.0/This open access article is distributed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license.
spellingShingle Research Article
Gomez, Felicia
Fisk, Bryan
McMichael, Joshua F.
Mosior, Matthew
Foltz, Jennifer A.
Skidmore, Zachary L.
Duncavage, Eric J.
Miller, Christopher A.
Abel, Haley
Li, Yi-Shan
Russler-Germain, David A.
Krysiak, Kilannin
Watkins, Marcus P.
Ramirez, Cody A.
Schmidt, Alina
Martins Rodrigues, Fernanda
Trani, Lee
Khanna, Ajay
Wagner, Julia A.
Fulton, Robert S.
Fronick, Catrina C.
O'Laughlin, Michelle D.
Schappe, Timothy
Cashen, Amanda F.
Mehta-Shah, Neha
Kahl, Brad S.
Walker, Jason
Bartlett, Nancy L.
Griffith, Malachi
Fehniger, Todd A.
Griffith, Obi L.
Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma
title Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma
title_full Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma
title_fullStr Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma
title_full_unstemmed Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma
title_short Ultra-Deep Sequencing Reveals the Mutational Landscape of Classical Hodgkin Lymphoma
title_sort ultra-deep sequencing reveals the mutational landscape of classical hodgkin lymphoma
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10648575/
https://www.ncbi.nlm.nih.gov/pubmed/37910143
http://dx.doi.org/10.1158/2767-9764.CRC-23-0140
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