Chronic infection drives Dnmt3a-loss-of-function clonal hematopoiesis via IFNγ signaling

Daniel Hormaechea-Agulla; Katie A. Matatall; Duy T. Le; Bailee Kain; Xiaochen Long; Pawel Kus; Roman Jaksik; Grant A. Challen; Marek Kimmel; Katherine Y. King

doi:10.1016/j.stem.2021.03.002

Chronic infection drives Dnmt3a-loss-of-function clonal hematopoiesis via IFNγ signaling

Daniel Hormaechea-Agulla, Katie A. Matatall, Duy T. Le, Bailee Kain, Xiaochen Long, Pawel Kus, Roman Jaksik, Grant A. Challen, Marek Kimmel, Katherine Y. King

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79 Scopus citations

Abstract

Age-related clonal hematopoiesis (CH) is a risk factor for malignancy, cardiovascular disease, and all-cause mortality. Somatic mutations in DNMT3A are drivers of CH, but decades may elapse between the acquisition of a mutation and CH, suggesting that environmental factors contribute to clonal expansion. We tested whether infection provides selective pressure favoring the expansion of Dnmt3a mutant hematopoietic stem cells (HSCs) in mouse chimeras. We created Dnmt3a-mosaic mice by transplanting Dnmt3a^−/− and WT HSCs into WT mice and observed the substantial expansion of Dnmt3a^−/− HSCs during chronic mycobacterial infection. Injection of recombinant IFNγ alone was sufficient to phenocopy CH by Dnmt3a^−/− HSCs upon infection. Transcriptional and epigenetic profiling and functional studies indicate reduced differentiation associated with widespread methylation alterations, and reduced secondary stress-induced apoptosis accounts for Dnmt3a^−/− clonal expansion during infection. DNMT3A mutant human HSCs similarly exhibit defective IFNγ-induced differentiation. We thus demonstrate that IFNγ signaling induced during chronic infection can drive DNMT3A-loss-of-function CH.

Original language	English
Pages (from-to)	1428-1442.e6
Journal	Cell Stem Cell
Volume	28
Issue number	8
DOIs	https://doi.org/10.1016/j.stem.2021.03.002
State	Published - Aug 5 2021

Keywords

CH
DNMT3A
bone marrow
clonal competition
clonal hematopoiesis
epigenetic regulation
hematopoietic stem cell
infection
interferon gamma
mycobacterial infection

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10.1016/j.stem.2021.03.002

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@article{b373817d9c4c4a11a0497532b553385e,

title = "Chronic infection drives Dnmt3a-loss-of-function clonal hematopoiesis via IFNγ signaling",

abstract = "Age-related clonal hematopoiesis (CH) is a risk factor for malignancy, cardiovascular disease, and all-cause mortality. Somatic mutations in DNMT3A are drivers of CH, but decades may elapse between the acquisition of a mutation and CH, suggesting that environmental factors contribute to clonal expansion. We tested whether infection provides selective pressure favoring the expansion of Dnmt3a mutant hematopoietic stem cells (HSCs) in mouse chimeras. We created Dnmt3a-mosaic mice by transplanting Dnmt3a−/− and WT HSCs into WT mice and observed the substantial expansion of Dnmt3a−/− HSCs during chronic mycobacterial infection. Injection of recombinant IFNγ alone was sufficient to phenocopy CH by Dnmt3a−/− HSCs upon infection. Transcriptional and epigenetic profiling and functional studies indicate reduced differentiation associated with widespread methylation alterations, and reduced secondary stress-induced apoptosis accounts for Dnmt3a−/− clonal expansion during infection. DNMT3A mutant human HSCs similarly exhibit defective IFNγ-induced differentiation. We thus demonstrate that IFNγ signaling induced during chronic infection can drive DNMT3A-loss-of-function CH.",

keywords = "CH, DNMT3A, bone marrow, clonal competition, clonal hematopoiesis, epigenetic regulation, hematopoietic stem cell, infection, interferon gamma, mycobacterial infection",

author = "Daniel Hormaechea-Agulla and Matatall, {Katie A.} and Le, {Duy T.} and Bailee Kain and Xiaochen Long and Pawel Kus and Roman Jaksik and Challen, {Grant A.} and Marek Kimmel and King, {Katherine Y.}",

note = "Funding Information: The authors would like to thank Catherine Gillespie for editing the manuscript and members of the King lab for useful discussions. We thank Claudine S. Kadmon, Jack Toups, and Meghan Kisiel for technical assistance and Margaret Goodell for scientific advice and sharing the Mx1-Cre Dnmt3a f/f mice. This project depended on the support of Joel Sederstrom and the BCM Cytometry and Cell Sorting Core with funding from the NIH ( NCRR grant no. S10RR024574 , NIAID AI036211 , and NCI P30CA125123 ), NIH S10 OD020066 , and the Dan L. Duncan Cancer Center , and help from Lisa White and the genomic and RNA profiling core at Baylor College of Medicine, with funding from the NIH ( NIDDK-DK56338 and NCI-CA125123 ). Batf2 KO mice were developed by the BCM Mouse ES Cell Core, supported by the Dan L. Duncan Cancer Center grant no. P30 CA125123 . R.J. and P.K. were supported by Polish National Science Centre grant nos. 2016/23/D/ST7/03665 and 2018/29/B/ST7/02550 , respectively. K.Y.K., K.A.M., D.H.-A., D.T.L., and B.K. were supported by NIH grants R01HL136333 and R01HL134880 (to K.Y.K.), T32DK060445 (to K.A.M. and B.K.), T32AI053831 (to B.K.), and T32HL092332 (to D.T.L.). Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2021",

month = aug,

day = "5",

doi = "10.1016/j.stem.2021.03.002",

language = "English",

volume = "28",

pages = "1428--1442.e6",

journal = "Cell Stem Cell",

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TY - JOUR

T1 - Chronic infection drives Dnmt3a-loss-of-function clonal hematopoiesis via IFNγ signaling

AU - Hormaechea-Agulla, Daniel

AU - Matatall, Katie A.

AU - Le, Duy T.

AU - Kain, Bailee

AU - Long, Xiaochen

AU - Kus, Pawel

AU - Jaksik, Roman

AU - Challen, Grant A.

AU - Kimmel, Marek

AU - King, Katherine Y.

N1 - Funding Information: The authors would like to thank Catherine Gillespie for editing the manuscript and members of the King lab for useful discussions. We thank Claudine S. Kadmon, Jack Toups, and Meghan Kisiel for technical assistance and Margaret Goodell for scientific advice and sharing the Mx1-Cre Dnmt3a f/f mice. This project depended on the support of Joel Sederstrom and the BCM Cytometry and Cell Sorting Core with funding from the NIH ( NCRR grant no. S10RR024574 , NIAID AI036211 , and NCI P30CA125123 ), NIH S10 OD020066 , and the Dan L. Duncan Cancer Center , and help from Lisa White and the genomic and RNA profiling core at Baylor College of Medicine, with funding from the NIH ( NIDDK-DK56338 and NCI-CA125123 ). Batf2 KO mice were developed by the BCM Mouse ES Cell Core, supported by the Dan L. Duncan Cancer Center grant no. P30 CA125123 . R.J. and P.K. were supported by Polish National Science Centre grant nos. 2016/23/D/ST7/03665 and 2018/29/B/ST7/02550 , respectively. K.Y.K., K.A.M., D.H.-A., D.T.L., and B.K. were supported by NIH grants R01HL136333 and R01HL134880 (to K.Y.K.), T32DK060445 (to K.A.M. and B.K.), T32AI053831 (to B.K.), and T32HL092332 (to D.T.L.). Publisher Copyright: © 2021 Elsevier Inc.

PY - 2021/8/5

Y1 - 2021/8/5

N2 - Age-related clonal hematopoiesis (CH) is a risk factor for malignancy, cardiovascular disease, and all-cause mortality. Somatic mutations in DNMT3A are drivers of CH, but decades may elapse between the acquisition of a mutation and CH, suggesting that environmental factors contribute to clonal expansion. We tested whether infection provides selective pressure favoring the expansion of Dnmt3a mutant hematopoietic stem cells (HSCs) in mouse chimeras. We created Dnmt3a-mosaic mice by transplanting Dnmt3a−/− and WT HSCs into WT mice and observed the substantial expansion of Dnmt3a−/− HSCs during chronic mycobacterial infection. Injection of recombinant IFNγ alone was sufficient to phenocopy CH by Dnmt3a−/− HSCs upon infection. Transcriptional and epigenetic profiling and functional studies indicate reduced differentiation associated with widespread methylation alterations, and reduced secondary stress-induced apoptosis accounts for Dnmt3a−/− clonal expansion during infection. DNMT3A mutant human HSCs similarly exhibit defective IFNγ-induced differentiation. We thus demonstrate that IFNγ signaling induced during chronic infection can drive DNMT3A-loss-of-function CH.

AB - Age-related clonal hematopoiesis (CH) is a risk factor for malignancy, cardiovascular disease, and all-cause mortality. Somatic mutations in DNMT3A are drivers of CH, but decades may elapse between the acquisition of a mutation and CH, suggesting that environmental factors contribute to clonal expansion. We tested whether infection provides selective pressure favoring the expansion of Dnmt3a mutant hematopoietic stem cells (HSCs) in mouse chimeras. We created Dnmt3a-mosaic mice by transplanting Dnmt3a−/− and WT HSCs into WT mice and observed the substantial expansion of Dnmt3a−/− HSCs during chronic mycobacterial infection. Injection of recombinant IFNγ alone was sufficient to phenocopy CH by Dnmt3a−/− HSCs upon infection. Transcriptional and epigenetic profiling and functional studies indicate reduced differentiation associated with widespread methylation alterations, and reduced secondary stress-induced apoptosis accounts for Dnmt3a−/− clonal expansion during infection. DNMT3A mutant human HSCs similarly exhibit defective IFNγ-induced differentiation. We thus demonstrate that IFNγ signaling induced during chronic infection can drive DNMT3A-loss-of-function CH.

KW - CH

KW - DNMT3A

KW - bone marrow

KW - clonal competition

KW - clonal hematopoiesis

KW - epigenetic regulation

KW - hematopoietic stem cell

KW - infection

KW - interferon gamma

KW - mycobacterial infection

UR - http://www.scopus.com/inward/record.url?scp=85111571924&partnerID=8YFLogxK

U2 - 10.1016/j.stem.2021.03.002

DO - 10.1016/j.stem.2021.03.002

M3 - Article

C2 - 33743191

AN - SCOPUS:85111571924

SN - 1934-5909

VL - 28

SP - 1428-1442.e6

JO - Cell Stem Cell

JF - Cell Stem Cell

IS - 8

ER -

Chronic infection drives Dnmt3a-loss-of-function clonal hematopoiesis via IFNγ signaling

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Keywords

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