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1. Genetic modification of inflammation- and clonal hematopoiesis–associated cardiovascular risk

Author

Zhi Yu, Trevor P. Fidler, Yunfeng Ruan, Caitlyn Vlasschaert, Tetsushi Nakao, Md Mesbah Uddin, Taralynn Mack, Abhishek Niroula, J. Brett Heimlich, Seyedeh M. Zekavat, Christopher J. Gibson, Gabriel K. Griffin, Yuxuan Wang, Gina M. Peloso, Nancy Heard-Costa, Daniel Levy, Ramachandran S. Vasan, François Aguet, Kristin G. Ardlie, Kent D. Taylor, Stephen S. Rich, Jerome I. Rotter, Peter Libby, Siddhartha Jaiswal, Benjamin L. Ebert, Alexander G. Bick, Alan R. Tall, and Pradeep Natarajan

Subjects
Cardiology, Genetics, Medicine
Abstract

Clonal hematopoiesis of indeterminate potential (CHIP) is associated with an increased risk of cardiovascular diseases (CVDs), putatively via inflammasome activation. We pursued an inflammatory gene modifier scan for CHIP-associated CVD risk among 424,651 UK Biobank participants. We identified CHIP using whole-exome sequencing data of blood DNA and modeled as a composite, considering all driver genes together, as well as separately for common drivers (DNMT3A, TET2, ASXL1, and JAK2). We developed predicted gene expression scores for 26 inflammasome-related genes and assessed how they modify CHIP-associated CVD risk. We identified IL1RAP as a potential key molecule for CHIP-associated CVD risk across genes and increased AIM2 gene expression leading to heightened JAK2- and ASXL1-associated CVD risk. We show that CRISPR-induced Asxl1-mutated murine macrophages had a particularly heightened inflammatory response to AIM2 agonism, associated with an increased DNA damage response, as well as increased IL-10 secretion, mirroring a CVD-protective effect of IL10 expression in ASXL1 CHIP. Our study supports the role of inflammasomes in CHIP-associated CVD and provides evidence to support gene-specific strategies to address CHIP-associated CVD risk.

Published
2023
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2. Allosteric inhibition of PPM1D serine/threonine phosphatase via an altered conformational state

Author

Peter G. Miller, Murugappan Sathappa, Jamie A. Moroco, Wei Jiang, Yue Qian, Sumaiya Iqbal, Qi Guo, Andrew O. Giacomelli, Subrata Shaw, Camille Vernier, Besnik Bajrami, Xiaoping Yang, Cerise Raffier, Adam S. Sperling, Christopher J. Gibson, Josephine Kahn, Cyrus Jin, Matthew Ranaghan, Alisha Caliman, Merissa Brousseau, Eric S. Fischer, Robert Lintner, Federica Piccioni, Arthur J. Campbell, David E. Root, Colin W. Garvie, and Benjamin L. Ebert

Subjects
Science
Abstract

In this work, the authors report a sophisticated combination of genetic, biophysical, and biochemical analyses to identifies the cycling conformational states of PPM1D. The findings reveal how an allosteric inhibitor locks the protein into a conformationally inactive state, and explain the distribution of PPM1D activating mutations in cancer.

Published
2022
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3. Distinct genetic pathways define pre-malignant versus compensatory clonal hematopoiesis in Shwachman-Diamond syndrome

Author

Alyssa L. Kennedy, Kasiani C. Myers, James Bowman, Christopher J. Gibson, Nicholas D. Camarda, Elissa Furutani, Gwen M. Muscato, Robert H. Klein, Kaitlyn Ballotti, Shanshan Liu, Chad E. Harris, Ashley Galvin, Maggie Malsch, David Dale, John M. Gansner, Taizo A. Nakano, Alison Bertuch, Adrianna Vlachos, Jeffrey M. Lipton, Paul Castillo, James Connelly, Jane Churpek, John R. Edwards, Nobuko Hijiya, Richard H. Ho, Inga Hofmann, James N. Huang, Siobán Keel, Adam Lamble, Bonnie W. Lau, Maxim Norkin, Elliot Stieglitz, Wendy Stock, Kelly Walkovich, Steffen Boettcher, Christian Brendel, Mark D. Fleming, Stella M. Davies, Edie A. Weller, Christopher Bahl, Scott L. Carter, Akiko Shimamura, and R. Coleman Lindsley

Subjects
Science
Abstract

Understanding the molecular basis of leukaemia predisposition is essential for intervention. The authors here investigate germline genetic leukaemia predisposition by studying Shwachman-Diamond syndrome and report compensatory inactivating mutations in EIF6 and transforming biallelic TP53 alterations.

Published
2021
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5. Clonal hematopoiesis is associated with adverse outcomes in multiple myeloma patients undergoing transplant

Author

Tarek H. Mouhieddine, Adam S. Sperling, Robert Redd, Jihye Park, Matthew Leventhal, Christopher J. Gibson, Salomon Manier, Amin H. Nassar, Marzia Capelletti, Daisy Huynh, Mark Bustoros, Romanos Sklavenitis-Pistofidis, Sabrin Tahri, Kalvis Hornburg, Henry Dumke, Muhieddine M. Itani, Cody J. Boehner, Chia-Jen Liu, Saud H. AlDubayan, Brendan Reardon, Eliezer M. Van Allen, Jonathan J. Keats, Chip Stewart, Shaadi Mehr, Daniel Auclair, Robert L. Schlossman, Nikhil C. Munshi, Kenneth C. Anderson, David P. Steensma, Jacob P. Laubach, Paul G. Richardson, Jerome Ritz, Benjamin L. Ebert, Robert J. Soiffer, Lorenzo Trippa, Gad Getz, Donna S. Neuberg, and Irene M. Ghobrial

Subjects
Science
Abstract

Multiple myeloma (MM) is treated with induction chemotherapy, autologous stem cell transplant (ASCT) and long-term immunomodulatory drug (IMiD) maintenance. Here, the authors show that the presence of clonal haematopoiesis of indeterminate potential (CHIP) at time of ASCT is associated with adverse outcomes in MM patients.

Published
2020
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8. Association of mutations with morphological dysplasia in de novo acute myeloid leukemia without 2016 WHO Classification-defined cytogenetic abnormalities

Author

Olga K. Weinberg, Christopher J. Gibson, Traci M. Blonquist, Donna Neuberg, Olga Pozdnyakova, Frank Kuo, Benjamin L. Ebert, and Robert P. Hasserjian

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Despite improvements in our understanding of the molecular basis of acute myeloid leukemia (AML), the association between genetic mutations with morphological dysplasia remains unclear. In this study, we evaluated and scored dysplasia in bone marrow (BM) specimens from 168 patients with de novo AML; none of these patients had cytogenetic abnormalities according to the 2016 World Health Organization Classification. We then performed targeted sequencing of diagnostic BM aspirates for recurrent mutations associated with myeloid malignancies. We found that cohesin pathway mutations [q (FDR-adjusted P)=0.046] were associated with a higher degree of megakaryocytic dysplasia and STAG2 mutations were marginally associated with greater myeloid lineage dysplasia (q=0.052). Frequent megakaryocytes with separated nuclear lobes were more commonly seen among cases with cohesin pathway mutations (q=0.010) and specifically in those with STAG2 mutations (q=0.010), as well as NPM1 mutations (q=0.022 when considering the presence of any vs. no megakaryocytes with separated nuclear lobes). RAS pathway mutations (q=0.006) and FLT3-ITD (q=0.006) were significantly more frequent in cases without evaluable erythroid cells. In univariate analysis of the 153 patients treated with induction chemotherapy, NPM1 mutations were associated with longer event-free survival (EFS) (P=0.042), while RUNX1 (P=0.042), NF1 (P=0.040), frequent micromegakaryocytes (P=0.018) and presence of a subclone (P=0.002) were associated with shorter EFS. In multivariable modeling, NPM1 was associated with longer EFS, while presence of a subclone and frequent micromegakaryocytes remained significantly associated with shorter EFS.

Published
2018
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9. Progress towards a cellular neurobiology of reading disability

Author

Lisa A. Gabel, Christopher J. Gibson, Jeffrey R. Gruen, and Joseph J. LoTurco

Subjects
Dyslexia, Neocortex, Neuronal migration, Development, DCDC2, KIAA0319, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Reading Disability (RD) is a significant impairment in reading accuracy, speed and/or comprehension despite adequate intelligence and educational opportunity. RD affects 5–12% of readers, has a well-established genetic risk, and is of unknown neurobiological cause or causes. In this review we discuss recent findings that revealed neuroanatomic anomalies in RD, studies that identified 3 candidate genes (KIAA0319, DYX1C1, and DCDC2), and compelling evidence that potentially link the function of candidate genes to the neuroanatomic anomalies. A hypothesis has emerged in which impaired neuronal migration is a cellular neurobiological antecedent to RD. We critically evaluate the evidence for this hypothesis, highlight missing evidence, and outline future research efforts that will be required to develop a more complete cellular neurobiology of RD.

Published
2010
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10. Rotavirus and Severe Childhood Diarrhea

Author

Umesh D. Parashar, Christopher J. Gibson, Joseph S. Bresee, and Roger I. Glass

Subjects
Diarrhea, rotavirus, mortality, morbidity, hospitalizations, disease burden, Medicine, Infectious and parasitic diseases, RC109-216
Abstract

Studies published between 1986 and 1999 indicated that rotavirus causes ≈22% (range 17%–28%) of childhood diarrhea hospitalizations. From 2000 to 2004, this proportion increased to 39% (range 29%–45%). Application of this proportion to the recent World Health Organization estimates of diarrhea-related childhood deaths gave an estimated 611,000 (range 454,000–705,000) rotavirus-related deaths.

Published
2006
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11. Clonal Hematopoiesis in Young Women Treated for Breast Cancer

Author

Christopher J. Gibson, Geoffrey Fell, Tal Sella, Adam S. Sperling, Craig Snow, Shoshana M. Rosenberg, Greg Kirkner, Ashka Patel, Deborah Dillon, Alexander G. Bick, Donna Neuberg, Ann H. Partridge, and Peter G. Miller

Subjects
Cancer Research, Oncology
Abstract

Background: Young women treated for breast cancer with cytotoxic therapies are at risk for clonal hematopoiesis of indeterminate potential (CHIP), a condition in which blood cells carrying a somatic mutation associated with hematologic malignancy comprise at least 4% of the total blood system. CHIP has primarily been studied in older patient cohorts with limited clinical phenotyping. Materials and Methods: We performed targeted sequencing on longitudinal blood samples to characterize the clonal hematopoietic landscape of 878 women treated for breast cancer enrolled in the prospective Young Women's Breast Cancer Study. Results: We identified somatic driver mutations in 252 study subjects (28.7%), but only 24 (2.7%) had clones large enough to meet criteria for CHIP. The most commonly mutated genes were DNMT3A and TET2, similar to mutations observed in noncancer cohorts. At 9-year median follow-up, we found no association between the presence of a somatic blood mutation (regardless of clone size) and adverse breast cancer (distant relapse-free survival) or non–breast cancer-related outcomes in this cohort. A subset of paired blood samples obtained over 4 years showed no evidence of mutant clonal expansion, regardless of genotype. Finally, we identified a subset of patients with likely germline mutations in genes known to contribute to inherited cancer risk, such as TP53 and ATM. Conclusions: Our data show that for young women with early-stage breast cancer, CHIP is uncommon after cytotoxic exposure, is unlikely to contribute to adverse outcomes over the decade-long follow-up and may not require additional monitoring if discovered incidentally.

Published
2023

12. TP53-mediated clonal hematopoiesis confers increased risk for incident atherosclerotic disease

Author

Seyedeh M. Zekavat, Vanesa Viana-Huete, Nuria Matesanz, Saman Doroodgar Jorshery, María A. Zuriaga, Md Mesbah Uddin, Mark Trinder, Kaavya Paruchuri, Virginia Zorita, Alba Ferrer-Pérez, Marta Amorós-Pérez, Paolo Kunderfranco, Roberta Carriero, Carolina M. Greco, Alejandra Aroca-Crevillen, Andrés Hidalgo, Scott M. Damrauer, Christie M. Ballantyne, Abhishek Niroula, Christopher J. Gibson, James Pirruccello, Gabriel Griffin, Benjamin L. Ebert, Peter Libby, Valentín Fuster, Hongyu Zhao, Marzyeh Ghassemi, Pradeep Natarajan, Alexander G. Bick, José J. Fuster, and Derek Klarin

Published
2023

13. Clonal hematopoiesis of indeterminate potential and risk of death from COVID-19

Author

Peter G. Miller, Geoffrey G. Fell, Brody H. Foy, Allison K. Scherer, Christopher J. Gibson, Adam S. Sperling, Bala B. Burugula, Tetsushi Nakao, Md M. Uddin, Hailey Warren, Lynn Bry, Olga Pozdnyakova, Matthew J. Frigault, Alex G. Bick, Donna Neuberg, John M. Higgins, Michael K. Mansour, Pradeep Natarajan, Annette S. Kim, Jacob O. Kitzman, and Benjamin L. Ebert

Subjects
Clonal Evolution, Mutation, Immunology, Humans, COVID-19, Cell Biology, Hematology, Clonal Hematopoiesis, Biochemistry, Hematopoiesis
Abstract

Two Letters to Blood address the risks of COVID-19 in populations with precursors of hematological disease. In the first article, Miller and colleagues report on whether clonal hematopoiesis of intermediate potential (CHIP) is associated with adverse outcomes with COVID-19, finding no association between CHIP and 28-day mortality while providing data indirectly linking IL-6 signaling and patient outcomes. In the second article, Ho and colleagues investigate the outcomes of patients with monoclonal gammopathy of undetermined significance (MGUS) with COVID-19, reporting that one-fourth had a severe infection and that on multivariable analysis, adverse outcomes are more likely if immunoparesis is present.

Published
2022

14. Allelic complexity of KMT2A partial tandem duplications in acute myeloid leukemia and myelodysplastic syndromes

Author

Harrison K. Tsai, Christopher J. Gibson, H. Moses Murdock, Phani Davineni, Marian H. Harris, Eunice S. Wang, Lukasz P. Gondek, Annette S. Kim, Valentina Nardi, and R. Coleman Lindsley

Subjects
Leukemia, Myeloid, Acute, Gene Duplication, Myelodysplastic Syndromes, Disease Progression, Humans, RNA, Histone-Lysine N-Methyltransferase, Hematology, Alleles, Myeloid-Lymphoid Leukemia Protein
Abstract

KMT2A partial tandem duplication (KMT2A-PTD) is an adverse risk factor in acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS), a potential therapeutic target, and an attractive marker of measurable residual disease. High initial KMT2A-PTD RNA levels have been linked to poor prognosis, but mechanisms regulating KMT2A-PTD expression are not well understood. Although KMT2A-PTD has been reported to affect only a single allele, it has been theorized but not proven that genomic gains of a monoallelic KMT2A-PTD may occur, thereby potentially driving high expression and disease progression. In this study, we identified 94 patients with KMT2A-PTDs using targeted DNA next-generation sequencing (NGS) and found that 16% (15/94) had complex secondary events, including copy-neutral loss of heterozygosity and selective gain involving the KMT2A-PTD allele. High copy numbers indicating complexity were significantly enriched in AML vs MDS and correlated with higher RNA expression. Moreover, in serial samples, complexity was associated with relapse and secondary transformation. Taken together, we provide approaches to integrate quantitative and allelic assessment of KMT2A-PTDs into targeted DNA NGS and demonstrate that secondary genetic events occur in KMT2A-PTD by multiple mechanisms that may be linked to myeloid disease progression by driving increased expression from the affected allele.

Published
2022

15. Impact of diagnostic genetics on remission MRD and transplantation outcomes in older patients with AML

Author

H. Moses Murdock, Haesook T. Kim, Nathan Denlinger, Pankit Vachhani, Bryan Hambley, Bryan S. Manning, Shannon Gier, Christina Cho, Harrison K. Tsai, Shannon McCurdy, Vincent T. Ho, John Koreth, Robert J. Soiffer, Jerome Ritz, Martin P. Carroll, Sumithira Vasu, Miguel-Angel Perales, Eunice S. Wang, Lukasz P. Gondek, Steven Devine, Edwin P. Alyea, R. Coleman Lindsley, and Christopher J. Gibson

Subjects
Transplantation, Neoplasm, Residual, Transplantation Conditioning, Immunology, Hematopoietic Stem Cell Transplantation, Cell Biology, Hematology, Biochemistry, Leukemia, Myeloid, Acute, Recurrence, hemic and lymphatic diseases, Humans, Transplantation, Homologous, Aged, Retrospective Studies
Abstract

Older patients with acute myeloid leukemia (AML) have high relapse risk and poor survival after allogeneic hematopoietic cell transplantation (HCT). Younger patients may receive myeloablative conditioning to mitigate relapse risk associated with high-risk genetics or measurable residual disease (MRD), but older adults typically receive reduced-intensity conditioning (RIC) to limit toxicity. To identify factors that drive HCT outcomes in older patients, we performed targeted mutational analysis (variant allele fraction ≥2%) on diagnostic samples from 295 patients with AML aged ≥60 years who underwent HCT in first complete remission, 91% of whom received RIC, and targeted duplex sequencing at remission in a subset comprising 192 patients. In a multivariable model for leukemia-free survival (LFS) including baseline genetic and clinical variables, we defined patients with low (3-year LFS, 85%), intermediate (55%), high (35%), and very high (7%) risk. Before HCT, 79.7% of patients had persistent baseline mutations, including 18.3% with only DNMT3A or TET2 (DT) mutations and 61.4% with other mutations (MRD positive). In univariable analysis, MRD positivity was associated with increased relapse and inferior LFS, compared with DT and MRD-negative mutations. However, in a multivariable model accounting for baseline risk, MRD positivity had no independent impact on LFS, most likely because of its significant association with diagnostic genetic characteristics, including MDS-associated gene mutations, TP53 mutations, and high-risk karyotype. In summary, molecular associations with MRD positivity and transplant outcomes in older patients with AML are driven primarily by baseline genetics, not by mutations present in remission. In this group of patients, where high-intensity conditioning carries substantial risk of toxicity, alternative approaches to mitigating MRD-associated relapse risk are needed.

Published
2022

17. Data from Clonal Hematopoiesis in Young Women Treated for Breast Cancer

Author

Peter G. Miller, Ann H. Partridge, Donna Neuberg, Alexander G. Bick, Deborah Dillon, Ashka Patel, Greg Kirkner, Shoshana M. Rosenberg, Craig Snow, Adam S. Sperling, Tal Sella, Geoffrey Fell, and Christopher J. Gibson

Abstract

Background:Young women treated for breast cancer with cytotoxic therapies are at risk for clonal hematopoiesis of indeterminate potential (CHIP), a condition in which blood cells carrying a somatic mutation associated with hematologic malignancy comprise at least 4% of the total blood system. CHIP has primarily been studied in older patient cohorts with limited clinical phenotyping.Materials and Methods:We performed targeted sequencing on longitudinal blood samples to characterize the clonal hematopoietic landscape of 878 women treated for breast cancer enrolled in the prospective Young Women's Breast Cancer Study.Results:We identified somatic driver mutations in 252 study subjects (28.7%), but only 24 (2.7%) had clones large enough to meet criteria for CHIP. The most commonly mutated genes were DNMT3A and TET2, similar to mutations observed in noncancer cohorts. At 9-year median follow-up, we found no association between the presence of a somatic blood mutation (regardless of clone size) and adverse breast cancer (distant relapse-free survival) or non–breast cancer-related outcomes in this cohort. A subset of paired blood samples obtained over 4 years showed no evidence of mutant clonal expansion, regardless of genotype. Finally, we identified a subset of patients with likely germline mutations in genes known to contribute to inherited cancer risk, such as TP53 and ATM.Conclusions:Our data show that for young women with early-stage breast cancer, CHIP is uncommon after cytotoxic exposure, is unlikely to contribute to adverse outcomes over the decade-long follow-up and may not require additional monitoring if discovered incidentally.

Published
2023

19. Prediction of Risk for Myeloid Malignancy in Clonal Hematopoiesis

Author

Lachelle D. Weeks, Abhishek Niroula, Donna Neuberg, Waihay Wong, R. Coleman Lindsley, Marlise R. Luskin, Nancy Berliner, Richard M. Stone, Daniel J. DeAngelo, Robert J. Soiffer, Md Mesbah Uddin, Gabriel Griffin, Caitlyn Vlasschaert, Christopher J. Gibson, Siddhartha Jaiswal, Alexander G. Bick, Luca Malcovati, Pradeep Natarajan, and Benjamin L. Ebert

Published
2023

20. Clonal hematopoiesis in older patients with breast cancer receiving chemotherapy

Author

Christina Mayerhofer, Mina S Sedrak, Judith O Hopkins, Tianyu Li, Nabihah Tayob, Meredith G Faggen, Natalie F Sinclair, Wendy Y Chen, Heather A Parsons, Erica L Mayer, Paulina B Lange, Ameer S Basta, Adriana Perilla-Glen, Ruth I Lederman, Andrew R Wong, Abhay Tiwari, Sandra S McAllister, Elizabeth A Mittendorf, Christopher J Gibson, Harold J Burstein, Annette S Kim, Rachel A Freedman, and Peter G Miller

Subjects
Cancer Research, Oncology
Abstract

Background The expansion of hematopoietic stem cells carrying recurrent somatic mutations, termed clonal hematopoiesis (CH), is common in elderly individuals and is associated with increased risk of myeloid malignancy and all-cause mortality. Though chemotherapy is a known risk factor for developing CH, how myelosuppressive therapies affect the short-term dynamics of CH remains incompletely understood. Most studies have been limited by retrospective design, heterogeneous patient populations, varied techniques to identifying CH, and analysis of single timepoints. Methods We examined serial samples from 40 older women with triple-negative or hormone receptor–positive breast cancer treated on the prospective ADjuVANt Chemotherapy in the Elderly trial to evaluate the prevalence and dynamics of CH at baseline and throughout chemotherapy (6 and 12 weeks). Results CH was detected in 44% of patients at baseline and in 53% at any timepoint. Baseline patient characteristics were not associated with CH. Over the course of treatment, mutations exhibited a variety of dynamics, including emergence, expansion, contraction, and disappearance. All mutations in TP53 (n = 3) and PPM1D (n = 4), genes that regulate the DNA damage response, either became detectable or expanded over the course of treatment. Neutropenia was more common in patients with CH, particularly when the mutations became detectable during treatment, and CH was significantly associated with cyclophosphamide dose reductions and holds (P = .02). Conclusions Our study shows that CH is common, dynamic, and of potential clinical significance in this population. Our results should stimulate larger efforts to understand the biological and clinical importance of CH in solid tumor malignancies. Trial Registration ClinicalTrials.gov (https://clinicaltrials.gov/ct2/show/NCT03858322). Clinical trial registration number: NCT03858322.

Published
2023

21. Data from BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes

Author

R. Coleman Lindsley, Maria E. Figueroa, Vivian J. Bardwell, Henry W. Long, Steven A. Carr, Marlise R. Luskin, Richard M. Stone, Jacqueline S. Garcia, Eric S. Winer, Rahul S. Vedula, Martin P. Carroll, Lukasz P. Gondek, Eunice S. Wang, H. Moses Murdock, Monica Schenone, Christopher J. Gibson, Yingtian Xie, Klothilda Lim, Annie Apffel, Iman Fares, Emmalee R. Adelman, Micah D. Gearhart, Paloma Cejas, Clifford A. Meyer, Hannah Q. Karp, Helen C. Wang, and Eva J. Schaefer

Abstract

Polycomb repressive epigenetic complexes are recurrently dysregulated in cancer. Unlike polycomb repressive complex 2 (PRC2), the role of PRC1 in oncogenesis and therapy resistance is not well-defined. Here, we demonstrate that highly recurrent mutations of the PRC1 subunits BCOR and BCORL1 in leukemia disrupt assembly of a noncanonical PRC1.1 complex, thereby selectively unlinking the RING-PCGF enzymatic core from the chromatin-targeting auxiliary subcomplex. As a result, BCOR-mutated PRC1.1 is localized to chromatin but lacks repressive activity, leading to epigenetic reprogramming and transcriptional activation at target loci. We define a set of functional targets that drive aberrant oncogenic signaling programs in PRC1.1-mutated cells and primary patient samples. Activation of these PRC1.1 targets in BCOR-mutated cells confers acquired resistance to treatment while sensitizing to targeted kinase inhibition. Our study thus reveals a novel epigenetic mechanism that explains PRC1.1 tumor-suppressive activity and identifies a therapeutic strategy in PRC1.1-mutated cancer.Significance:We demonstrate that BCOR and BCORL1 mutations in leukemia unlink PRC1.1 repressive function from target genes, resulting in epigenetic reprogramming and activation of aberrant cell signaling programs that mediate treatment resistance. Our study provides mechanistic insights into the pathogenesis of PRC1.1-mutated leukemia that inform novel therapeutic approaches.This article is highlighted in the In This Issue feature, p. 85

Published
2023

22. Supplementary Figure from BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes

Author

R. Coleman Lindsley, Maria E. Figueroa, Vivian J. Bardwell, Henry W. Long, Steven A. Carr, Marlise R. Luskin, Richard M. Stone, Jacqueline S. Garcia, Eric S. Winer, Rahul S. Vedula, Martin P. Carroll, Lukasz P. Gondek, Eunice S. Wang, H. Moses Murdock, Monica Schenone, Christopher J. Gibson, Yingtian Xie, Klothilda Lim, Annie Apffel, Iman Fares, Emmalee R. Adelman, Micah D. Gearhart, Paloma Cejas, Clifford A. Meyer, Hannah Q. Karp, Helen C. Wang, and Eva J. Schaefer

Abstract

Supplementary Figure from BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes

Published
2023

23. Supplementary Data from BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes

Author

R. Coleman Lindsley, Maria E. Figueroa, Vivian J. Bardwell, Henry W. Long, Steven A. Carr, Marlise R. Luskin, Richard M. Stone, Jacqueline S. Garcia, Eric S. Winer, Rahul S. Vedula, Martin P. Carroll, Lukasz P. Gondek, Eunice S. Wang, H. Moses Murdock, Monica Schenone, Christopher J. Gibson, Yingtian Xie, Klothilda Lim, Annie Apffel, Iman Fares, Emmalee R. Adelman, Micah D. Gearhart, Paloma Cejas, Clifford A. Meyer, Hannah Q. Karp, Helen C. Wang, and Eva J. Schaefer

Abstract

Supplementary Data from BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes

Published
2023

24. Prevalence of Clonal Hematopoiesis of Indeterminate Potential in Patients with Monoclonal B-Cell Lymphocytosis Compared to Untreated Chronic Lymphocytic Leukemia

Author

Anisha V. Patel, Abirami Vijenthira, Aswin Sekar, Christopher J. Gibson, Stephen P. Martindale, Rayan Fardoun, Svitlana Tyekucheva, Stacey M. Fernandes, Binyamin A. Knisbacher, Cynthia K. Hahn, Gad Getz, Catherine J. Wu, Matthew S. Davids, and Jennifer R. Brown

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Published
2022

25. Prediction of Risk for Myeloid Malignancy in Clonal Hematopoiesis

Author

Lachelle D. Weeks, Abhishek Niroula, Donna S. Neuberg, Waihay J. Wong, R. Coleman Lindsley, Marlise R. Luskin, Nancy Berliner, Richard M. Stone, Daniel J DeAngelo, Robert J Soiffer, Md Mesbah Uddin, Christopher J. Gibson, Alexander G. Bick, Gabriel K. Griffin, Siddhartha Jaiswal, Luca Malcovati, Pradeep Natarajan, and Benjamin L. Ebert

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Published
2022

26. Association of Clonal Hematopoiesis of Indeterminate Potential with Time to First Treatment, Incidence of Richter's Syndrome, and Overall Survival in Patients with Chronic Lymphocytic Leukemia

Author

Abi Vijenthira, Aswin Sekar, Christopher J. Gibson, Stephen P. Martindale, Rayan Fardoun, Svitlana Tyekucheva, Yue Ren, Stacey M. Fernandes, Binyamin A. Knisbacher, Cynthia K. Hahn, Gad Getz, Catherine J. Wu, Matthew S. Davids, and Jennifer R. Brown

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Published
2022

27. Maintenance Therapy with Venetoclax/Azacitidine Can be Safely Given after Venetoclax/FluBu2 RIC Allogeneic Transplantation for the Treatment of High Risk MDS/AML: Results of a Phase 1 Study

Author

Jacqueline S. Garcia, Haesook T Kim, Jennifer Brock, H. Moses Murdock, Corey S. Cutler, Daniel J. DeAngelo, Christopher J. Gibson, Mahasweta Gooptu, Vincent Ho, John Koreth, Marlise R. Luskin, Sarah Nikiforow, Rizwan Romee, Roman M Shapiro, Richard M. Stone, Martha Wadleigh, Eric S. Winer, Michela Ansuinelli, Eliza Elliot, Geoffrey Fell, Hannah Karp, Jeremy Ryan, Anthony G. Letai, Coleman Lindsley, Robert J Soiffer, Joseph H. Antin, Fiona Loschi, and Jerome Ritz

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Published
2022

28. Specific Clonal Mutations Are Predictive of Therapy-Related Myeloid Neoplasms (tMN) after Autologous Peripheral Blood Stem Cell Transplantation (aPBSCT) for Lymphoma

Author

Smita Bhatia, Chengcheng Yan, Melissa A Richard, Jianbo He, Alysia Bosworth, David Crossman, Purnima Singh, Lindsey Hageman, Saro H. Armenian, Julie M. Vose, Daniel J. Weisdorf, Yutaka Yasui, Benjamin L. Ebert, Christopher J. Gibson, Stephen J Forman, and Ravi Bhatia

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Published
2022

29. BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes

Author

Eva J. Schaefer, Helen C. Wang, Hannah Q. Karp, Clifford A. Meyer, Paloma Cejas, Micah D. Gearhart, Emmalee R. Adelman, Iman Fares, Annie Apffel, Klothilda Lim, Yingtian Xie, Christopher J. Gibson, Monica Schenone, H. Moses Murdock, Eunice S. Wang, Lukasz P. Gondek, Martin P. Carroll, Rahul S. Vedula, Eric S. Winer, Jacqueline S. Garcia, Richard M. Stone, Marlise R. Luskin, Steven A. Carr, Henry W. Long, Vivian J. Bardwell, Maria E. Figueroa, and R. Coleman Lindsley

Subjects
Repressor Proteins, Leukemia, Carcinogenesis, Proto-Oncogene Proteins, Mutation, Humans, Cell Cycle Proteins, General Medicine, Chromatin, Research Articles, Epigenesis, Genetic, Signal Transduction
Abstract

Polycomb repressive epigenetic complexes are recurrently dysregulated in cancer. Unlike polycomb repressive complex 2 (PRC2), the role of PRC1 in oncogenesis and therapy resistance is not well-defined. Here, we demonstrate that highly recurrent mutations of the PRC1 subunits BCOR and BCORL1 in leukemia disrupt assembly of a noncanonical PRC1.1 complex, thereby selectively unlinking the RING-PCGF enzymatic core from the chromatin-targeting auxiliary subcomplex. As a result, BCOR-mutated PRC1.1 is localized to chromatin but lacks repressive activity, leading to epigenetic reprogramming and transcriptional activation at target loci. We define a set of functional targets that drive aberrant oncogenic signaling programs in PRC1.1-mutated cells and primary patient samples. Activation of these PRC1.1 targets in BCOR-mutated cells confers acquired resistance to treatment while sensitizing to targeted kinase inhibition. Our study thus reveals a novel epigenetic mechanism that explains PRC1.1 tumor-suppressive activity and identifies a therapeutic strategy in PRC1.1-mutated cancer. Significance: We demonstrate that BCOR and BCORL1 mutations in leukemia unlink PRC1.1 repressive function from target genes, resulting in epigenetic reprogramming and activation of aberrant cell signaling programs that mediate treatment resistance. Our study provides mechanistic insights into the pathogenesis of PRC1.1-mutated leukemia that inform novel therapeutic approaches. This article is highlighted in the In This Issue feature, p. 85

Published
2022

30. Clonal Hematopoiesis Is Associated With Higher Risk of Stroke

Author

Seyedeh M. Zekavat, Sudha Seshadri, Adolfo Correa, Romit Bhattacharya, Tracy E. Madsen, Laura M. Raffield, Mesbah Uddin, Jerome I. Rotter, Andrew D. Johnson, Joshua C. Bis, Russell P. Tracy, Christie M. Ballantyne, Bing Yu, Alexander G. Bick, Christopher J. Gibson, Charles Kooperberg, Stephen S. Rich, Kathleen M. Hayden, Pradeep Natarajan, Bruce M. Psaty, Myriam Fornage, Siddhartha Jaiswal, Gabriel K. Griffin, Jeffrey Haessler, Alanna C. Morrison, JoAnn E. Manson, Eric A. Whitsel, Alexander P. Reiner, Benjamin L. Ebert, Jason M. Collins, William T. Longstreth, and Abhishek Niroula

Subjects
Adult, Male, Risk, Oncology, medicine.medical_specialty, DNA Methyltransferase 3A, Dioxygenases, Brain ischemia, Internal medicine, Prevalence, medicine, Humans, Risk factor, Prospective cohort study, Stroke, Aged, Ischemic Stroke, Aged, 80 and over, Advanced and Specialized Nursing, business.industry, Incidence, Clonal hematopoiesis, Middle Aged, medicine.disease, DNA-Binding Proteins, Repressor Proteins, Hemorrhagic Stroke, Female, Neurology (clinical), Clonal Hematopoiesis, Cardiology and Cardiovascular Medicine, business
Abstract

Background and Purpose: Clonal hematopoiesis of indeterminate potential (CHIP) is a novel age-related risk factor for cardiovascular disease–related morbidity and mortality. The association of CHIP with risk of incident ischemic stroke was reported previously in an exploratory analysis including a small number of incident stroke cases without replication and lack of stroke subphenotyping. The purpose of this study was to discover whether CHIP is a risk factor for ischemic or hemorrhagic stroke. Methods: We utilized plasma genome sequence data of blood DNA to identify CHIP in 78 752 individuals from 8 prospective cohorts and biobanks. We then assessed the association of CHIP and commonly mutated individual CHIP driver genes ( DNMT3A , TET2 , and ASXL1 ) with any stroke, ischemic stroke, and hemorrhagic stroke. Results: CHIP was associated with an increased risk of total stroke (hazard ratio, 1.14 [95% CI, 1.03–1.27]; P =0.01) after adjustment for age, sex, and race. We observed associations with CHIP with risk of hemorrhagic stroke (hazard ratio, 1.24 [95% CI, 1.01–1.51]; P =0.04) and with small vessel ischemic stroke subtypes. In gene-specific association results, TET2 showed the strongest association with total stroke and ischemic stroke, whereas DMNT3A and TET2 were each associated with increased risk of hemorrhagic stroke. Conclusions: CHIP is associated with an increased risk of stroke, particularly with hemorrhagic and small vessel ischemic stroke. Future studies clarifying the relationship between CHIP and subtypes of stroke are needed.

Published
2022

31. Abstract P3-08-01: Clonal hematopoiesis of indeterminate potential (CHIP) in metastatic triple negative breast cancer

Author

Katheryn Santos, Qingchun Jin, Peter G. Miller, Ashka Patel, Gregory J. Kirkner, Janet L. Files, Melissa E. Hughes, Samantha M. Stokes, Nabihah Tayob, Daniel G. Stover, Christopher J. Gibson, Eric P. Winer, Nancy U. Lin, Judy E. Garber, and Heather A. Parsons

Subjects
Cancer Research, Oncology
Abstract

Background. Patients (pts) with metastatic triple negative breast cancer (mTNBC) receive serial cytotoxic chemotherapy regimens, often with cumulative myelosuppressive effects, impairing treatment tolerance. Clonal hematopoiesis of indeterminate potential (CHIP) refers to the detection of somatic mutations in genes recurrently mutated in hematologic malignancies in the blood of adults with no evident hematologic abnormalities. Little is known about the natural history of CHIP after breast cancer treatment. We sought to characterize CHIP in pts undergoing treatment for mTNBC. Methods. In this retrospective cohort study we identified 149 pts with biopsy-proven mTNBC at a single tertiary care institution with at least one blood sample collected within six months of metastatic diagnosis. We performed targeted sequencing of cryopreserved peripheral blood mononuclear cell (PBMC)-derived genomic DNA and defined CHIP as the presence of at least one pathogenic somatic mutation present at variant allelic fraction (VAF) of 0.02-0.35. We assessed the relationship between CHIP status and overall survival (OS), demographics, clinicopathologic features, germline mutation status, and type and timing of therapy. Results. We identified 27 unique CHIP variants across 22/149 pts (15%) within six months of metastatic diagnosis. Frequency of mutated genes were as follows: DNMT3A (n=15), PPM1D (n=4), TP53 (n=3), TET2 (n=2), SRCAP (n=1), ZBTB33 (n=1), ZNF318 (n=1). Median follow-up in the cohort was 37.9 months (IQR: 23.9-Not reached). The median age at time of blood draw was 55 years (IQR: 8.5) for pts with CHIP vs. 51 years (IQR: 16.5) for pts without CHIP. Ten (45%) pts with CHIP and 47 (37%) pts without CHIP were current or former smokers. Two (9%) pts with CHIP and 10 (7.9%) pts without CHIP were known germline mutation carriers of BRCA1, BRCA2 or PALB2. Twenty-two (100%) pts with CHIP and 124 (98%) pts without CHIP had received systemic chemotherapy for mTNBC prior to blood draw. There were no significant differences in type of chemotherapy regimen received between patients with or without CHIP. Twenty (90.9%) pts with CHIP vs. 96 (75.6%) of pts without CHIP had received radiation therapy prior to blood draw. Pts with CHIP had similar OS to those without CHIP (median OS 7.75 [2.20-31.7] vs. 9.33 [8.02-11.73] months). No pts developed therapy-related myeloid neoplasms (t-MN) or died of complications of cardiac disease. Conclusions. Pts with mTNBC had a higher frequency of CHIP than previously reported in age-matched healthy populations, but similar CHIP prevalence to what has been seen in cohorts of pts with solid tumors. Our study assessed for the presence of CHIP at only a single time point early in the metastatic course, but serial blood sampling later in treatment might reveal additional cases of CHIP. Though this cohort of patients with life-limiting mTNBC was small, presence of CHIP in the first six months of metastatic diagnosis was not associated with worse survival. Citation Format: Katheryn Santos, Qingchun Jin, Peter G. Miller, Ashka Patel, Gregory J. Kirkner, Janet L. Files, Melissa E. Hughes, Samantha M. Stokes, Nabihah Tayob, Daniel G. Stover, Christopher J. Gibson, Eric P. Winer, Nancy U. Lin, Judy E. Garber, Heather A. Parsons. Clonal hematopoiesis of indeterminate potential (CHIP) in metastatic triple negative breast cancer [abstract]. In: Proceedings of the 2021 San Antonio Breast Cancer Symposium; 2021 Dec 7-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2022;82(4 Suppl):Abstract nr P3-08-01.

Published
2022

32. Association of clonal hematopoiesis with chronic obstructive pulmonary disease

Author

Stephen S. Rich, Donna Neuberg, Michael H. Cho, Bing Yu, Matthew Leventhal, George T. O'Connor, Ani Manichaikul, Weiwei Shi, Lynette M. Sholl, Michael C. Honigberg, Abhishek Niroula, Benjamin L. Ebert, Joselyn Rojas-Quintero, R. Graham Barr, Matthew Moll, Stephanie J. London, L. Adrienne Cupples, Siddhartha Jaiswal, Elizabeth C. Oelsner, Brittany E Sandoval, Pradeep Natarajan, Brian E. Cade, Peter van Galen, Susan Redline, Yohannes Tesfaigzi, Christopher J. Gibson, Stephanie M. Gogarten, COPDGene Study Investigators, Deepti Jain, Adolfo Correa, Bruce D. Levy, Sina A. Gharib, Peter Miller, Kaushik Viswanathan, Caroline A. Owen, Edwin K. Silverman, Lillian Werner, Jerome I. Rotter, Dandi Qiao, Brian C. Miller, Adam S. Sperling, Leslie A. Lange, Alexander G. Bick, Marie McConkey, and Vasan S. Ramachandran

Subjects
Male, Oncology, medicine.medical_specialty, Somatic cell, Immunology, Pulmonary disease, Inflammation, Disease, Biochemistry, Mice, Pulmonary Disease, Chronic Obstructive, Risk Factors, Internal medicine, Exome Sequencing, Odds Ratio, medicine, Animals, Humans, Exome sequencing, COPD, business.industry, Smoking, Cell Biology, Hematology, Middle Aged, medicine.disease, Confidence interval, Haematopoiesis, Female, Clonal Hematopoiesis, medicine.symptom, business
Abstract

Chronic obstructive pulmonary disease (COPD) is associated with age and smoking, but other determinants of the disease are incompletely understood. Clonal hematopoiesis of indeterminate potential (CHIP) is a common, age-related state in which somatic mutations in clonal blood populations induce aberrant inflammatory responses. Patients with CHIP have an elevated risk for cardiovascular disease, but the association of CHIP with COPD remains unclear. We analyzed whole-genome sequencing and whole-exome sequencing data to detect CHIP in 48 835 patients, of whom 8444 had moderate to very severe COPD, from four separate cohorts with COPD phenotyping and smoking history. We measured emphysema in murine models in which Tet2 was deleted in hematopoietic cells. In the COPDGene cohort, individuals with CHIP had risks of moderate-to-severe, severe, or very severe COPD that were 1.6 (adjusted 95% confidence interval [CI], 1.1-2.2) and 2.2 (adjusted 95% CI, 1.5-3.2) times greater than those for noncarriers. These findings were consistently observed in three additional cohorts and meta-analyses of all patients. CHIP was also associated with decreased FEV1% predicted in the COPDGene cohort (mean between-group differences, −5.7%; adjusted 95% CI, −8.8% to −2.6%), a finding replicated in additional cohorts. Smoke exposure was associated with a small but significant increased risk of having CHIP (odds ratio, 1.03 per 10 pack-years; 95% CI, 1.01-1.05 per 10 pack-years) in the meta-analysis of all patients. Inactivation of Tet2 in mouse hematopoietic cells exacerbated the development of emphysema and inflammation in models of cigarette smoke exposure. Somatic mutations in blood cells are associated with the development and severity of COPD, independent of age and cumulative smoke exposure.

Published
2022

33. Donor Clonal Hematopoiesis and Recipient Outcomes After Transplantation

Author

Liang Zhao, L. Green, T. Dougan, Haesook T. Kim, Christopher D. Gocke, J. Tsuji, Madeleine Duran, Siqing Wang, Amy E. DeZern, Brendan Blumenstiel, Sarah Nikiforow, Richard J. Jones, Niall J. Lennon, Yi-Bin Chen, Mark Fleharty, Christopher J. Gibson, Lukasz P. Gondek, Alana F. Ogata, David R. Walt, Vincent T. Ho, Chi-An Cheng, R. C. Lindsley, Jerome Ritz, Rafael Madero-Marroquin, H. M. Murdock, Joseph H. Antin, Bryan C. Hambley, Robert J. Soiffer, and Carrie Cibulskis

Subjects
Adult, Male, Cancer Research, Time Factors, Allogeneic transplantation, Adolescent, Somatic cell, medicine.medical_treatment, Calcineurin Inhibitors, Graft vs Host Disease, Germline, DNA Methyltransferase 3A, Dioxygenases, Proinflammatory cytokine, Young Adult, Recurrence, Humans, Transplantation, Homologous, Medicine, Child, Gene, Alleles, Aged, Leukemia, Hematopoietic cell, business.industry, Clonal hematopoiesis, Hematopoietic Stem Cell Transplantation, Infant, Middle Aged, Progression-Free Survival, DNA-Binding Proteins, Survival Rate, Calcineurin, Transplantation, Haematopoiesis, Cytokine, Oncology, Child, Preschool, Hematologic Neoplasms, Chronic Disease, Mutation, Immunology, Cytokines, Female, Clonal Hematopoiesis, Unrelated Donors, business
Abstract

PURPOSEClonal hematopoiesis (CH) can be transmitted from a donor to a recipient during allogeneic hematopoietic cell transplantation. Exclusion of candidate donors with CH is controversial since its impact on recipient outcomes and graft alloimmune function is uncertain.PATIENTS AND METHODSWe performed targeted error-corrected sequencing on samples from 1,727 donors age 40 years or older and assessed the effect of donor CH on recipient clinical outcomes. We measured long-term engraftment of 102 donor clones and cytokine levels in 256 recipients at 3 and 12 months after transplant.RESULTSCH was present in 22.5% of donors, with DNMT3A (14.6%) and TET2 (5.2%) mutations being most common; 85% of donor clones showed long-term engraftment in recipients after transplantation, including clones with a variant allele fraction < 0.01. DNMT3A-CH with a variant allele fraction ≥ 0.01, but not smaller clones, was associated with improved recipient overall (hazard ratio [HR], 0.79; P = .042) and progression-free survival (HR, 0.72; P = .003) after adjustment for significant clinical variables. In patients who received calcineurin-based graft-versus-host disease prophylaxis, donor DNMT3A-CH was associated with reduced relapse (subdistribution HR, 0.59; P = .014), increased chronic graft-versus-host disease (subdistribution HR, 1.36; P = .042), and higher interleukin-12p70 levels in recipients. No recipient of sole DNMT3A or TET2-CH developed donor cell leukemia (DCL). In seven of eight cases, DCL evolved from donor CH with rare TP53 or splicing factor mutations or from donors carrying germline DDX41 mutations.CONCLUSIONDonor CH is closely associated with clinical outcomes in transplant recipients, with differential impact on graft alloimmune function and potential for leukemic transformation related to mutated gene and somatic clonal abundance. Donor DNMT3A-CH is associated with improved recipient survival because of reduced relapse risk and with an augmented network of inflammatory cytokines in recipients. Risk of DCL in allogeneic hematopoietic cell transplantation is driven by somatic myelodysplastic syndrome–associated mutations or germline predisposition in donors.

Published
2022

34. A practical approach to curate clonal hematopoiesis of indeterminate potential in human genetic datasets

Author

Caitlyn Vlasschaert, Taralynn Mack, Jonathan Brett Heimlich, Abhishek Niroula, Md Mesbah Uddin, Joshua S Weinstock, Brian Sharber, Alexander J. Silver, Yaomin Xu, Michael R. Savona, Christopher J. Gibson, Matthew B. Lanktree, Michael J Rauh, Benjamin L. Ebert, Pradeep Natarajan, Siddhartha Jaiswal, and Alexander G. Bick

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Abstract

Clonal hematopoiesis of indeterminate potential (CHIP) is a common form of age-related somatic mosaicism that is associated with significant morbidity and mortality. CHIP mutations can be identified in peripheral blood samples sequenced using approaches that cover the whole genome, whole exome or targeted genetic regions; however, differentiating true CHIP mutations from sequencing artifacts and germline variants is a considerable bioinformatic challenge. We present a stepwise method that combines filtering based on sequencing metrics, variant annotation, and novel population-based associations to increase the accuracy of CHIP calls. We apply this approach to ascertain CHIP in ∼550,000 individuals in the UK Biobank complete whole exome cohort and the All of Us Research Program initial whole genome release cohort. CHIP ascertainment on this scale unmasks recurrent artifactual variants and highlights the importance of specialized filtering approaches for several genes includingTET2andASXL1. We show how small changes in filtering parameters can considerably increase CHIP misclassification and reduce the effect size of epidemiological associations. Our high-fidelity call set refines prior population-based associations of CHIP with incident outcomes. For example, the annualized incidence of myeloid malignancy in individuals with small CHIP clones is 0.03%/year, which increases to 0.5%/year amongst individuals with very large CHIP clones. We also find a significantly lower prevalence of CHIP in individuals of self-reported Latino or Hispanic ethnicity in All of Us, highlighting the importance of including diverse populations. The standardization of CHIP calling will increase the fidelity of CHIP epidemiological work and is required for clinical CHIP diagnostic assays.

Published
2023

35. Genetic modification of inflammation and clonal hematopoiesis-associated coronary artery disease

Author

Zhi Yu, Trevor P. Fidler, Yunfeng Ruan, Caitlyn Vlasschaert, Tetsushi Nakao, Md Mesbah Uddin, Taralynn Mack, Abhishek Niroula, J. Brett Heimlich, Seyedeh M. Zekavat, Christopher J. Gibson, Gabriel K. Griffin, Yuxuan Wang, Gina M. Peloso, Nancy Heard-Costa, Daniel Levy, Ramachandran S. Vasan, François Aguet, Kristin Ardlie, Kent D. Taylor, Stephen S. Rich, Jerome I. Rotter, Peter Libby, Siddhartha Jaiswal, Benjamin L. Ebert, Alexander G. Bick, Alan R. Tall, and Pradeep Natarajan

Abstract

Clonal hematopoiesis of indeterminate potential (CHIP) is associated with an increased risk of cardiovascular diseases (CVD), putatively via inflammasome activation. We pursued an inflammatory gene modifier scan for CHIP-associated CVD risk among 424,651 UK Biobank participants. CHIP was identified using whole exome sequencing data of blood DNA and modeled both as a composite and for common drivers (DNMT3A, TET2, ASXL1, andJAK2) separately. We developed predicted gene expression scores for 26 inflammasome-related genes and assessed how they modify CHIP-associated CVD risk. We identifyIL1RAPas a potential key molecule for CHIP-associated CVD risk across genes and increasedAIM2gene expression leading to heightenedJAK2- andASXL1-associated CVD risks. We show that CRISPR-inducedAsxl1mutated murine macrophages have a particularly heightened inflammatory response to AIM2 agonism. Our study provides new evidence to support gene-specific strategies to address CHIP-associated CVD risk.

Published
2022

37. Patient perspectives on testing for clonal hematopoiesis of indeterminate potential

Author

Tal Sella, Geoffrey G. Fell, Peter G. Miller, Christopher J. Gibson, Shoshana M. Rosenberg, Craig Snow, Daniel G. Stover, Kathryn J. Ruddy, Jeffrey M. Peppercorn, Lidia Schapira, Virginia F. Borges, Steven E. Come, Ellen Warner, Elizabeth Frank, Donna S. Neuberg, Benjamin L. Ebert, and Ann H. Partridge

Subjects
Hematology
Abstract

Clonal hematopoiesis of indeterminate potential (CHIP), an emerging biomarker for personalized risk-directed interventions, is increased in cancer survivors. However, little is known about patient preferences for CHIP testing. We surveyed participants in a prospective cohort study of young women with breast cancer (BC). The emailed survey included an introduction to CHIP and a vignette eliciting participants’ preferences for CHIP testing, considering sequentially: population-based 10-year risk of BC recurrence, hematologic malignancy, and heart disease; increased CHIP-associated risks; current CHIP management; dedicated CHIP clinic; and hypothetical CHIP treatment. Preference changes were evaluated using the McNemar test. The survey response rate was 82.2% (528/642). Median age at time of survey was 46 years and median time from diagnosis was 108 months. Only 5.9% had prior knowledge of CHIP. After vignette presentation, most survivors (87.1%) recommended CHIP testing for the vignette patient. Presented next with CHIP-independent, population-based risks, 11.1% shifted their preference from testing to not testing. After receiving information about CHIP-associated risks, an additional 10.1% shifted their preference to testing. Preference for testing increased if vignette patient was offered a CHIP clinic or hypothetical CHIP treatment, with 7.2% and 14.1% switching preferences toward testing, respectively. Finally, 75.8% of participants desired CHIP testing for themselves. Among participants, 28.2% reported that learning about CHIP caused at least moderate anxiety. Most young survivors favored CHIP testing, with preferences influenced by risk presentation and potential management strategies. Our findings highlight the importance of risk communication and psychosocial support when considering biomarkers for future risk in cancer survivors. This trial has been registered at www.clinicaltrials.gov as #NCT01468246.

Published
2022

38. Clonal hematopoiesis in patients receiving chimeric antigen receptor T-cell therapy

Author

Nikhil C. Munshi, Christopher J. Gibson, Caron A. Jacobson, Peter Miller, Max Jan, Mark B. Leick, Geoffrey Fell, Benjamin L. Ebert, Marcela V. Maus, Elliott J. Brea, Yu-Tzu Tai, Satyen H. Gohil, Donna Neuberg, Catherine J. Wu, and Adam S. Sperling

Subjects
0301 basic medicine, Oncology, medicine.medical_specialty, Cell- and Tissue-Based Therapy, Immunotherapy, Adoptive, 03 medical and health sciences, 0302 clinical medicine, Immune system, Internal medicine, medicine, Humans, Autologous transplantation, Cytotoxic T cell, Multiple myeloma, Receptors, Chimeric Antigen, business.industry, Lymphoma, Non-Hodgkin, Hematology, Middle Aged, medicine.disease, Stimulus Report, Chimeric antigen receptor, Lymphoma, Cytokine release syndrome, 030104 developmental biology, 030220 oncology & carcinogenesis, Chimeric Antigen Receptor T-Cell Therapy, Clonal Hematopoiesis, business
Abstract

Chimeric antigen receptor (CAR) T-cells have emerged as an efficacious modality in patients with non-Hodgkin lymphoma (NHL) and multiple myeloma (MM). Clonal hematopoiesis of indeterminate potential (CHIP), a state in which mutations in hematopoietic cells give rise to a clonal population of cells, is more common in patients exposed to cytotoxic therapies, has been shown to influence inflammatory immune programs, and is associated with an adverse prognosis in patients with NHL and MM receiving autologous transplantation. We therefore hypothesized that CHIP could influence clinical outcomes in patients receiving CAR T-cell therapy. In a cohort of 154 patients with NHL or MM receiving CAR T-cells, we found that CHIP was present in 48% of patients and associated with increased rates of complete response and cytokine release syndrome severity, but only in patients younger than age 60 years. Despite these differences, CHIP was not associated with a difference in progression-free or overall survival, regardless of age. Our data suggest that CHIP can influence CAR T-cell biology and clinical outcomes, but, in contrast to autologous transplantation, CHIP was not associated with worse survival and should not be a reason to exclude individuals from receiving this potentially life-prolonging treatment.

Published
2021

39. Short telomere length predicts nonrelapse mortality after stem cell transplantation for myelodysplastic syndrome

Author

Jaclyn Garza Grenier, R. Coleman Lindsley, Corey Cutler, Wael Saber, Mikko Myllymäki, Zhen-Huan Hu, Donna Neuberg, Christopher R. Reilly, Stephen R. Spellman, Esther H. Orr, Immaculata De Vivo, Joseph H. Antin, Tao Wang, Christopher J. Gibson, Maxine M. Chen, David P. Steensma, Robert A. Redd, and Suneet Agarwal

Subjects
Adult, Male, Melphalan, Oncology, medicine.medical_specialty, Transplantation Conditioning, medicine.medical_treatment, Immunology, Hematopoietic stem cell transplantation, Biochemistry, Disease-Free Survival, Telomere Homeostasis, Predictive Value of Tests, hemic and lymphatic diseases, Internal medicine, medicine, Humans, Survival rate, Aged, business.industry, Cell Biology, Hematology, Middle Aged, Telomere, Allografts, Survival Rate, Transplantation, medicine.anatomical_structure, Myelodysplastic Syndromes, Female, Bone marrow, business, BLOOD Commentary, Stem Cell Transplantation, medicine.drug
Abstract

Allogeneic hematopoietic stem cell transplantation is the only potentially curative treatment for patients with myelodysplastic syndrome (MDS), but long-term survival is limited by the risk of transplant-related complications. Short telomere length, mediated by inherited or acquired factors, impairs cellular response to genotoxic and replicative stress and could identify patients at higher risk for toxicity after transplantation. We measured relative telomere length in pretransplant recipient blood samples in 1514 MDS patients and evaluated the association of telomere length with MDS disease characteristics and transplantation outcomes. Shorter telomere length was significantly associated with older age, male sex, somatic mutations that impair the DNA damage response, and more severe pretransplant cytopenias, but not with bone marrow blast count, MDS treatment history, or history of prior cancer therapy. Among 1267 patients ≥40 years old, telomere length in the shortest quartile was associated with inferior survival (P < .001) because of a high risk of nonrelapse mortality (NRM; P = .001) after adjusting for significant clinical and genetic variables. The adverse impact of shorter telomeres on NRM was independent of recipient comorbidities and was observed selectively among patients receiving more intensive conditioning, including myeloablative regimens and higher dose melphalan-based reduced-intensity regimens. The effect of shorter telomeres on NRM was prominent among patients who developed severe acute graft-versus-host disease, suggesting that short telomere length may limit regenerative potential of mucosal tissues after acute injury. MDS patients with shorter telomere length, who have inferior survival driven by excess toxicity, could be considered for strategies focused on minimizing toxic effects of transplantation.

Published
2020

40. Genomic profiling of a randomized trial of interferon-α vs hydroxyurea in MPN reveals mutation-specific responses

Author

R. Coleman Lindsley, Thomas Kielsgaard Kristensen, Mette Brabrand, Mads Thomassen, Charles Laurore, Jesper Stentoft, Christina Ellervik, Ann Mullally, Donna Neuberg, Lukas Frans Ocias, Daniel El Fassi, Karin de Stricker, William Duke, Anwesha Nag, Christopher J. Gibson, Marianne Tang Severinsen, Torben A Kruse, Lillian Werner, Torben Mourits-Andersen, Mikael Frederiksen, Trine Alma Knudsen, Thomas Stauffer Larsen, Aaron R. Thorner, Ulrik Malthe Overgaard, Dennis Lund Hansen, Bruce M. Wollison, Vibe Skov, Lasse Kjær, Joern Starklint, Kristen E. Stevenson, Ole Weis Bjerrum, and Hans Carl Hasselbalch

Subjects
Oncology, medicine.medical_specialty, Hydroxyurea/therapeutic use, Myeloproliferative Disorders/drug therapy, medicine.disease_cause, law.invention, Pathogenesis, Randomized controlled trial, law, Internal medicine, Hydroxyurea, Medicine, Humans, Stroke, Mutation, Myeloproliferative Disorders, business.industry, Interferon-alpha, Interferon-alpha/therapeutic use, Hematology, Genomics, medicine.disease, Phenotype, Clinical trial, Molecular Response, Recombinant DNA, business
Abstract

Although somatic mutations influence the pathogenesis, phenotype, and outcome of myeloproliferative neoplasms (MPNs), little is known about their impact on molecular response to cytoreductive treatment. We performed targeted next-generation sequencing (NGS) on 202 pretreatment samples obtained from patients with MPN enrolled in the DALIAH trial (A Study of Low Dose Interferon Alpha Versus Hydroxyurea in Treatment of Chronic Myeloid Neoplasms; #NCT01387763), a randomized controlled phase 3 clinical trial, and 135 samples obtained after 24 months of therapy with recombinant interferon-alpha (IFNα) or hydroxyurea. The primary aim was to evaluate the association between complete clinicohematologic response (CHR) at 24 months and molecular response through sequential assessment of 120 genes using NGS. Among JAK2-mutated patients treated with IFNα, those with CHR had a greater reduction in the JAK2 variant allele frequency (median, 0.29 to 0.07; P < .0001) compared with those not achieving CHR (median, 0.27 to 0.14; P < .0001). In contrast, the CALR variant allele frequency did not significantly decline in those achieving CHR or in those not achieving CHR. Treatment-emergent mutations in DNMT3A were observed more commonly in patients treated with IFNα compared with hydroxyurea (P = .04). Furthermore, treatment-emergent DNMT3A mutations were significantly enriched in IFNα–treated patients not attaining CHR (P = .02). A mutation in TET2, DNMT3A, or ASXL1 was significantly associated with prior stroke (age-adjusted odds ratio, 5.29; 95% confidence interval, 1.59-17.54; P = .007), as was a mutation in TET2 alone (age-adjusted odds ratio, 3.03; 95% confidence interval, 1.03-9.01; P = .044). At 24 months, we found mutation-specific response patterns to IFNα: (1) JAK2- and CALR-mutated MPN exhibited distinct molecular responses; and (2) DNMT3A-mutated clones/subclones emerged on treatment.

Published
2022

41. Mendelian randomization supports bidirectional causality between telomere length and clonal hematopoiesis of indeterminate potential

Author

Tetsushi, Nakao, Alexander G, Bick, Margaret A, Taub, Seyedeh M, Zekavat, Md M, Uddin, Abhishek, Niroula, Cara L, Carty, John, Lane, Michael C, Honigberg, Joshua S, Weinstock, Akhil, Pampana, Christopher J, Gibson, Gabriel K, Griffin, Shoa L, Clarke, Romit, Bhattacharya, Themistocles L, Assimes, Leslie S, Emery, Adrienne M, Stilp, Quenna, Wong, Jai, Broome, Cecelia A, Laurie, Alyna T, Khan, Albert V, Smith, Thomas W, Blackwell, Veryan, Codd, Christopher P, Nelson, Zachary T, Yoneda, Juan M, Peralta, Donald W, Bowden, Marguerite R, Irvin, Meher, Boorgula, Wei, Zhao, Lisa R, Yanek, Kerri L, Wiggins, James E, Hixson, C Charles, Gu, Gina M, Peloso, Dan M, Roden, Muagututi'a S, Reupena, Chii-Min, Hwu, Dawn L, DeMeo, Kari E, North, Shannon, Kelly, Solomon K, Musani, Joshua C, Bis, Donald M, Lloyd-Jones, Jill M, Johnsen, Michael, Preuss, Russell P, Tracy, Patricia A, Peyser, Dandi, Qiao, Pinkal, Desai, Joanne E, Curran, Barry I, Freedman, Hemant K, Tiwari, Sameer, Chavan, Jennifer A, Smith, Nicholas L, Smith, Tanika N, Kelly, Bertha, Hidalgo, L Adrienne, Cupples, Daniel E, Weeks, Nicola L, Hawley, Ryan L, Minster, Ranjan, Deka, Take T, Naseri, Lisa, de Las Fuentes, Laura M, Raffield, Alanna C, Morrison, Paul S, Vries, Christie M, Ballantyne, Eimear E, Kenny, Stephen S, Rich, Eric A, Whitsel, Michael H, Cho, M Benjamin, Shoemaker, Betty S, Pace, John, Blangero, Nicholette D, Palmer, Braxton D, Mitchell, Alan R, Shuldiner, Kathleen C, Barnes, Susan, Redline, Sharon L R, Kardia, Gonçalo R, Abecasis, Lewis C, Becker, Susan R, Heckbert, Jiang, He, Wendy, Post, Donna K, Arnett, Ramachandran S, Vasan, Dawood, Darbar, Scott T, Weiss, Stephen T, McGarvey, Mariza, de Andrade, Yii-Der Ida, Chen, Robert C, Kaplan, Deborah A, Meyers, Brian S, Custer, Adolfo, Correa, Bruce M, Psaty, Myriam, Fornage, JoAnn E, Manson, Eric, Boerwinkle, Barbara A, Konkle, Ruth J F, Loos, Jerome I, Rotter, Edwin K, Silverman, Charles, Kooperberg, John, Danesh, Nilesh J, Samani, Siddhartha, Jaiswal, Peter, Libby, Patrick T, Ellinor, Nathan, Pankratz, Benjamin L, Ebert, Alexander P, Reiner, Rasika A, Mathias, Ron, Do, and Pradeep, Natarajan

Subjects
Multidisciplinary
Abstract

Human genetic studies support an inverse causal relationship between leukocyte telomere length (LTL) and coronary artery disease (CAD), but directionally mixed effects for LTL and diverse malignancies. Clonal hematopoiesis of indeterminate potential (CHIP), characterized by expansion of hematopoietic cells bearing leukemogenic mutations, predisposes both hematologic malignancy and CAD. TERT (which encodes telomerase reverse transcriptase) is the most significantly associated germline locus for CHIP in genome-wide association studies. Here, we investigated the relationship between CHIP, LTL, and CAD in the Trans-Omics for Precision Medicine (TOPMed) program ( n = 63,302) and UK Biobank ( n = 47,080). Bidirectional Mendelian randomization studies were consistent with longer genetically imputed LTL increasing propensity to develop CHIP, but CHIP then, in turn, hastens to shorten measured LTL (mLTL). We also demonstrated evidence of modest mediation between CHIP and CAD by mLTL. Our data promote an understanding of potential causal relationships across CHIP and LTL toward prevention of CAD.

Published
2022

42. Fitness Landscape of Clonal Hematopoiesis Under Selective Pressure of Immune Checkpoint Blockade

Author

Arnav Mehta, Nir Hacohen, F. Stephen Hodi, Dennie T. Frederick, Benchun Miao, Peter Miller, Benjamin L. Ebert, Genevieve M. Boland, Michael Manos, Adam S. Sperling, and Christopher J. Gibson

Subjects
0301 basic medicine, Cancer Research, Fitness landscape, Clonal hematopoiesis, ORIGINAL REPORTS, Biology, Immune checkpoint, Blockade, 03 medical and health sciences, Transformation (genetics), 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, Cytotoxic T cell
Abstract

PURPOSE Conventional cytotoxic therapies increase the risk of clonal hematopoiesis and select for TP53-mutant clones, which carry a high risk for transformation to therapy-related myelodysplastic neoplasms. In contrast, the effect of immune checkpoint blockade (ICB) on clonal hematopoiesis is unknown. METHODS Paired peripheral-blood samples taken before and after treatment with ICB were obtained for 91 patients with either cutaneous melanoma or basal cell carcinoma. Error-corrected sequencing of a targeted panel of genes recurrently mutated in clonal hematopoiesis was performed on peripheral-blood genomic DNA. RESULTS The average interval between acquisition of the paired samples was 180 days. Forty-one percent of the patients had clonal hematopoiesis at a variant allele frequency (VAF) > 0.01 in the pretreatment sample. There was near-complete agreement in the distribution and burden of clonal hematopoiesis mutations in the paired blood samples, with 87 of 88 mutations identified across the cohort present in paired samples, regardless of the duration between sample collection. The VAF in the paired samples also showed a high correlation, with an R2 = 0.95 ( P < .0001). In contrast to cytotoxic therapy, exposure to ICB did not lead to selection of TP53- or PPM1D-mutant clones. However, consistent with the known effects of DNA-damaging therapy, we identified one patient who had eight unique TP53 mutations in the posttreatment blood sample after receiving two courses of radiation therapy. CONCLUSION There was no expansion of hematopoietic clones or selection for clones at high risk for malignant transformation in patients who received ICB, observations that warrant further validation in larger cohorts. These findings highlight an important difference between ICB and conventional cytotoxic therapies and their respective impacts on premalignant genetic lesions.

Published
2020

43. A deep molecular response of splenic marginal zone lymphoma to front-line checkpoint blockade

Author

F. Stephen Hodi, Olga Pozdnyakova, Peter Miller, Christopher J. Gibson, Michael Manos, Adam S. Sperling, Elizabeth I. Buchbinder, Waihay J. Wong, Matthew S. Davids, and Benjamin L. Ebert

Subjects
Text mining, business.industry, Molecular Response, Cancer research, Medicine, Front line, Case Report, Hematology, Splenic marginal zone lymphoma, business, medicine.disease, Blockade
Published
2020

44. Clonal hematopoiesis is associated with adverse outcomes in multiple myeloma patients undergoing transplant

Author

Robert A. Redd, Matthew Leventhal, Irene M. Ghobrial, Nikhil C. Munshi, Christopher J. Gibson, Jerome Ritz, Amin Nassar, Chip Stewart, Jihye Park, Romanos Sklavenitis-Pistofidis, Marzia Capelletti, Cody J. Boehner, David P. Steensma, Saud H. AlDubayan, Daniel Auclair, Lorenzo Trippa, Muhieddine M. Itani, Benjamin L. Ebert, Kalvis Hornburg, Shaadi Mehr, Mark Bustoros, Robert L. Schlossman, Henry Dumke, Jacob P. Laubach, Adam S. Sperling, Gad Getz, Salomon Manier, Paul G. Richardson, Eliezer M. Van Allen, Tarek H. Mouhieddine, Sabrin Tahri, Kenneth C. Anderson, Robert J. Soiffer, Daisy Huynh, Donna Neuberg, Brendan Reardon, Chia Jen Liu, Jonathan J Keats, Dana-Farber Cancer Institute [Boston], Harvard Medical School [Boston] (HMS), Broad Institute [Cambridge], Harvard University [Cambridge]-Massachusetts Institute of Technology (MIT), Department of Hematology [Lille], Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Lille Neurosciences & Cognition - U 1172 (LilNCog (ex-JPARC)), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Brigham and Women's Hospital [Boston], Massachusetts General Hospital [Boston], The Translational Genomics Research Institute (TGen), Multiple Myeloma Research Foundation [Norwalk, CT, États-Unis], Harvard T.H. Chan School of Public Health, We would also like to thank the International Myeloma Society (IMS) for their support. This work was supported by grants from the Multiple Myeloma Research Foundation (MMRF), Adelson Medical Research Foundation (AMRF), Stand Up to Cancer (SU2C) and the Leukemia and Lymphoma Society (LLS) awarded to Dr. Irene M. Ghobrial., Bodescot, Myriam, Lille Neurosciences & Cognition - U 1172 (LilNCog), and Harvard University-Massachusetts Institute of Technology (MIT)

Subjects
0301 basic medicine, Oncology, Male, [SDV.MHEP.HEM] Life Sciences [q-bio]/Human health and pathology/Hematology, Cancer therapy, medicine.medical_treatment, General Physics and Astronomy, Myeloma, DNA Methyltransferase 3A, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, Cancer genomics, DNA (Cytosine-5-)-Methyltransferases, lcsh:Science, Multiple myeloma, Aged, 80 and over, Multidisciplinary, Hematopoietic Stem Cell Transplantation, [SDV.MHEP.HEM]Life Sciences [q-bio]/Human health and pathology/Hematology, Middle Aged, Progression-Free Survival, 3. Good health, DNA-Binding Proteins, Haematopoiesis, 030220 oncology & carcinogenesis, Female, Stem cell, Multiple Myeloma, Adult, medicine.medical_specialty, Science, [SDV.CAN]Life Sciences [q-bio]/Cancer, Transplantation, Autologous, General Biochemistry, Genetics and Molecular Biology, Article, Dioxygenases, 03 medical and health sciences, Young Adult, [SDV.CAN] Life Sciences [q-bio]/Cancer, Internal medicine, Proto-Oncogene Proteins, medicine, Humans, Progression-free survival, Aged, Chemotherapy, Haematological cancer, business.industry, Induction chemotherapy, Cancer, General Chemistry, medicine.disease, Hematopoiesis, Transplantation, 030104 developmental biology, Mutation, lcsh:Q, Tumor Suppressor Protein p53, business
Abstract

Multiple myeloma (MM) is a plasma-cell neoplasm that is treated with high-dose chemotherapy, autologous stem cell transplant (ASCT) and long-term immunomodulatory drug (IMiD) maintenance. The presence of somatic mutations in the peripheral blood is termed clonal hematopoiesis of indeterminate potential (CHIP) and is associated with adverse outcomes. Targeted sequencing of the stem cell product from 629 MM patients treated by ASCT at the Dana-Farber Cancer Institute (2003–2011) detects CHIP in 136/629 patients (21.6%). The most commonly mutated genes are DNMT3A, TET2, TP53, ASXL1 and PPM1D. Twenty-one from fifty-six patients (3.3%) receiving first-line IMiD maintenance develop a therapy-related myeloid neoplasm (TMN). However, regardless of CHIP status, the use of IMiD maintenance associates with improved PFS and OS. In those not receiving IMiD maintenance, CHIP is associated with decreased overall survival (OS) (HR:1.34, p = 0.02) and progression free survival (PFS) (HR:1.45, p, Multiple myeloma (MM) is treated with induction chemotherapy, autologous stem cell transplant (ASCT) and long-term immunomodulatory drug (IMiD) maintenance. Here, the authors show that the presence of clonal haematopoiesis of indeterminate potential (CHIP) at time of ASCT is associated with adverse outcomes in MM patients.

Published
2020

45. Stem cell donors should not be screened for clonal hematopoiesis

Author

Christopher J. Gibson and R. Coleman Lindsley

Subjects
0301 basic medicine, Stem Cells, Clonal hematopoiesis, Hematology, Biology, Hematopoiesis, Transplantation, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Stem cell donor, Cancer research, Point-Counterpoint, Clonal Hematopoiesis, Stem cell
Abstract

This article has a companion Point by DeZern and Gondek.

Published
2020

46. TET2-mutant clonal hematopoiesis and risk of gout

Author

Mridul Agrawal, Abhishek Niroula, Pierre Cunin, Marie McConkey, Veronica Shkolnik, Peter G. Kim, Waihay J. Wong, Lachelle D. Weeks, Amy E. Lin, Peter G. Miller, Christopher J. Gibson, Aswin Sekar, Inga-Marie Schaefer, Donna Neuberg, Richard M. Stone, Alexander G. Bick, Md Mesbah Uddin, Gabriel K. Griffin, Siddhartha Jaiswal, Pradeep Natarajan, Peter A. Nigrovic, Deepak A. Rao, and Benjamin L. Ebert

Subjects
Gout, Inflammasomes, Immunology, Interleukin-1beta, Cell Biology, Hematology, Biochemistry, Dioxygenases, Uric Acid, DNA-Binding Proteins, Mice, NLR Family, Pyrin Domain-Containing 3 Protein, Animals, Humans, Clonal Hematopoiesis
Abstract

Gout is a common inflammatory arthritis caused by precipitation of monosodium urate (MSU) crystals in individuals with hyperuricemia. Acute flares are accompanied by secretion of proinflammatory cytokines, including interleukin-1β (IL-1β). Clonal hematopoiesis of indeterminate potential (CHIP) is an age-related condition predisposing to hematologic cancers and cardiovascular disease. CHIP is associated with elevated IL-1β, thus we investigated CHIP as a risk factor for gout. To test the clinical association between CHIP and gout, we analyzed whole exome sequencing data from 177 824 individuals in the MGB Biobank (MGBB) and UK Biobank (UKB). In both cohorts, the frequency of gout was higher among individuals with CHIP than without CHIP (MGBB, CHIP with variant allele fraction [VAF] ≥2%: odds ratio [OR], 1.69; 95% CI, 1.09-2.61; P = .0189; UKB, CHIP with VAF ≥10%: OR, 1.25; 95% CI, 1.05-1.50; P = .0133). Moreover, individuals with CHIP and a VAF ≥10% had an increased risk of incident gout (UKB: hazard ratio [HR], 1.28; 95% CI, 1.06-1.55; P = .0107). In murine models of gout pathogenesis, animals with Tet2 knockout hematopoietic cells had exaggerated IL-1β secretion and paw edema upon administration of MSU crystals. Tet2 knockout macrophages elaborated higher levels of IL-1β in response to MSU crystals in vitro, which was ameliorated through genetic and pharmacologic Nlrp3 inflammasome inhibition. These studies show that TET2-mutant CHIP is associated with an increased risk of gout in humans and that MSU crystals lead to elevated IL-1β levels in Tet2 knockout murine models. We identify CHIP as an amplifier of NLRP3-dependent inflammatory responses to MSU crystals in patients with gout.

Published
2022

47. ‘ADVANCE’ (a pilot trial) ADjuVANt chemotherapy in the elderly: Developing and evaluating lower-toxicity chemotherapy options for older patients with breast cancer

Author

Rachel A. Freedman, Tianyu Li, Mina S. Sedrak, Judith O. Hopkins, Nabihah Tayob, Meredith G. Faggen, Natalie F. Sinclair, Wendy Y. Chen, Heather A. Parsons, Erica L. Mayer, Paulina B. Lange, Ameer S. Basta, Adriana Perilla-Glen, Ruth I. Lederman, Andrew Wong, Abhay Tiwari, Sandra S. McAllister, Elizabeth A. Mittendorf, Peter G. Miller, Christopher J. Gibson, and Harold J. Burstein

Subjects
Oncology, Geriatrics and Gerontology
Abstract

Older adults with breast cancer receiving neo/adjuvant chemotherapy are at high risk for poor outcomes and are underrepresented in clinical trials. The ADVANCE (ADjuVANt Chemotherapy in the Elderly) trial evaluated the feasibility of two neo/adjuvant chemotherapy regimens in parallel-enrolling cohorts of older patients with human epidermal growth factor receptor 2-negative breast cancer: cohort 1-triple-negative; cohort 2-hormone receptor-positive.Adults age ≥ 70 years with stage I-III breast cancer warranting neo/adjuvant chemotherapy were enrolled. Cohort 1 received weekly carboplatin (area under the curve 2) and weekly paclitaxel 80 mg/mForty women (n = 20 per cohort) were enrolled from March 25, 2019 through August 3, 2020 from three centers; 45% and 35% of patients in cohorts 1 and 2 were age 75, respectively. Neither cohort achieved targeted thresholds for feasibility. In cohort 1, eight (40.0%) met feasibility (95% confidence interval [CI] = 19.1-63.9%), while ten (50.0%) met feasibility in cohort 2 (95% CI = 27.2-72.8). Neutropenia was the most common grade 3-4 toxicity (cohort 1-65%, cohort 2-55%). In cohort 1, 80% and 85% required ≥1 dose holds of carboplatin and/or paclitaxel, respectively. In cohort 2, 10% required dose hold(s) for cyclophosphamide and/or 65% for paclitaxel.In this pragmatic pilot examining chemotherapy regimens in older adults with breast cancer, neither regimen met target goals for feasibility. Developing efficacious and tolerable regimens for older patients with breast cancer who need chemotherapy remains an important goal.gov Identifier: NCT03858322.

Published
2023

48. Allelic Complexity of KMT2A Partial Tandem Duplications in Acute Myeloid Leukemia and Myelodysplastic Syndromes

Author

R. C. Lindsley, Eunice S. Wang, Christopher J. Gibson, Phani K. Davineni, Murdock Hm, Harrison Tsai, Annette S. Kim, Harris Mh, Nardi, and Lukasz P. Gondek

Subjects
Genetics, Myeloid, biology, Myelodysplastic syndromes, Myeloid leukemia, Disease, medicine.disease, Loss of heterozygosity, medicine.anatomical_structure, KMT2A, medicine, biology.protein, Tandem exon duplication, Allele
Abstract

KMT2A partial tandem duplication (KMT2A-PTD) at 11q23.3 is associated with adverse risk in AML and MDS, is a potential therapeutic target, and is an attractive marker of measurable residual disease. High initial KMT2A-PTD RNA levels have been linked to poor prognosis, but mechanisms regulating KMT2A-PTD expression are not well understood. While it has been reported that KMT2A-PTD affects only a single allele, it has been theorized but not proven that duplications or genomic gains of a monoallelic KMT2A-PTD may occur, thereby potentially driving high expression and disease progression. Copy neutral loss of heterozygosity (CN-LOH) of 11q has also been described and is known to be associated with mutations in CBL but has not been reported to involve KMT2A-PTD. In this study, we identified 94 patients with KMT2A-PTDs using targeted DNA next-generation sequencing (NGS) and found that 16% (15/94) had complex secondary events, including CN-LOH and selective gain involving the KMT2A-PTD allele. High copy numbers indicating complexity were significantly enriched in AML versus MDS and correlated with higher RNA expression. Moreover, in serial samples, complexity was associated with relapse and secondary transformation. Taken together, we provide approaches to integrate quantitative and allelic assessment of KMT2A-PTDs into targeted DNA NGS and demonstrate that secondary genetic events occur in KMT2A-PTD by multiple mechanisms that may be linked to myeloid disease progression by driving increased expression from the affected allele.

Published
2021

49. Allosteric inhibition of PPM1D serine/threonine phosphatase via an altered conformational state

Author

Peter G. Miller, Murugappan Sathappa, Jamie A. Moroco, Wei Jiang, Yue Qian, Sumaiya Iqbal, Qi Guo, Andrew O. Giacomelli, Subrata Shaw, Camille Vernier, Besnik Bajrami, Xiaoping Yang, Cerise Raffier, Adam S. Sperling, Christopher J. Gibson, Josephine Kahn, Cyrus Jin, Matthew Ranaghan, Alisha Caliman, Merissa Brousseau, Eric S. Fischer, Robert Lintner, Federica Piccioni, Arthur J. Campbell, David E. Root, Colin W. Garvie, and Benjamin L. Ebert

Subjects
Multidisciplinary, Protein Conformation, General Physics and Astronomy, Aminopyridines, General Chemistry, Dipeptides, General Biochemistry, Genetics and Molecular Biology, Protein Phosphatase 2C, Structure-Activity Relationship, Neoplasms, Mutation, Serine, Humans, Allosteric Site
Abstract

PPM1D encodes a serine/threonine phosphatase that regulates numerous pathways including the DNA damage response and p53. Activating mutations and amplification of PPM1D are found across numerous cancer types. GSK2830371 is a potent and selective allosteric inhibitor of PPM1D, but its mechanism of binding and inhibition of catalytic activity are unknown. Here we use computational, biochemical and functional genetic studies to elucidate the molecular basis of GSK2830371 activity. These data confirm that GSK2830371 binds an allosteric site of PPM1D with high affinity. By further incorporating data from hydrogen deuterium exchange mass spectrometry and sedimentation velocity analytical ultracentrifugation, we demonstrate that PPM1D exists in an equilibrium between two conformations that are defined by the movement of the flap domain, which is required for substrate recognition. A hinge region was identified that is critical for switching between the two conformations and was directly implicated in the high-affinity binding of GSK2830371 to PPM1D. We propose that the two conformations represent active and inactive forms of the protein reflected by the position of the flap, and that binding of GSK2830371 shifts the equilibrium to the inactive form. Finally, we found that C-terminal truncating mutations proximal to residue 400 result in destabilization of the protein via loss of a stabilizing N- and C-terminal interaction, consistent with the observation from human genetic data that nearly all PPM1D mutations in cancer are truncating and occur distal to residue 400. Taken together, our findings elucidate the mechanism by which binding of a small molecule to an allosteric site of PPM1D inhibits its activity and provides insights into the biology of PPM1D.

Published
2021

50. Dnmt3a-mutated clonal hematopoiesis promotes osteoporosis

Author

Benjamin L. Ebert, David M. Evans, Mridul Agrawal, Veronica Shkolnik, Douglas P. Kiel, Christopher J. Gibson, Marie McConkey, Mesbah Uddin, Wesley J. Shin, Abhishek Niroula, Drew N. Cohen, James P. Pirruccello, Pradeep Natarajan, Mikolaj Slabicki, Mary L. Bouxsein, Alexander G. Bick, Waihay J. Wong, Gabriel K. Griffin, Daniel J. Brooks, Peter Geon Kim, Aswin Sekar, Julia F. Charles, J. Brent Richards, Amy E. Lin, Jonathan M. Tsai, Marc N. Wein, John P. Kemp, and Siddhartha Jaiswal

Subjects
Adult, Male, medicine.medical_treatment, Immunology, Osteoporosis, Population, Osteoclasts, Biology, medicine.disease_cause, Proinflammatory cytokine, DNA Methyltransferase 3A, 03 medical and health sciences, 0302 clinical medicine, Interleukin 20, medicine, Immunology and Allergy, Animals, Humans, education, 030304 developmental biology, Aged, Mice, Knockout, 0303 health sciences, Mutation, education.field_of_study, Alendronate, Interleukins, Cell Differentiation, Middle Aged, medicine.disease, Antibodies, Neutralizing, 3. Good health, Haematopoiesis, Cytokine, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cancer research, Female, Bone marrow, Clonal Hematopoiesis
Abstract

Osteoporosis is caused by an imbalance of osteoclasts and osteoblasts, occurring in close proximity to hematopoietic cells in the bone marrow. Recurrent somatic mutations that lead to an expanded population of mutant blood cells is termed clonal hematopoiesis of indeterminate potential (CHIP). Analyzing exome sequencing data from the UK Biobank, we found CHIP to be associated with increased incident osteoporosis diagnoses and decreased bone mineral density. In murine models, hematopoietic-specific mutations in Dnmt3a, the most commonly mutated gene in CHIP, decreased bone mass via increased osteoclastogenesis. Dnmt3a−/− demethylation opened chromatin and altered activity of inflammatory transcription factors. Bone loss was driven by proinflammatory cytokines, including Irf3-NF-κB–mediated IL-20 expression from Dnmt3a mutant macrophages. Increased osteoclastogenesis due to the Dnmt3a mutations was ameliorated by alendronate or IL-20 neutralization. These results demonstrate a novel source of osteoporosis-inducing inflammation.

Published
2021

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