PU.1-Dependent Enhancer Inhibition Separates Tet2-Deficient Hematopoiesis from Malignant Transformation

Maria M. Aivalioti; Boris A. Bartholdy; Kith Pradhan; Tushar D. Bhagat; Aliona Zintiridou; Jong Jin Jeong; Victor J. Thiruthuvanathan; Mario Pujato; Aditi Paranjpe; Chi Zhang; Ross L. Levine; Aaron D. Viny; Amittha Wickrema; Amit Verma; Britta Will

doi:10.1158/2643-3230.BCD-21-0226

PU.1-Dependent Enhancer Inhibition Separates Tet2-Deficient Hematopoiesis from Malignant Transformation

Maria M. Aivalioti, Boris A. Bartholdy, Kith Pradhan, Tushar D. Bhagat, Aliona Zintiridou, Jong Jin Jeong, Victor J. Thiruthuvanathan, Mario Pujato, Aditi Paranjpe, Chi Zhang, Ross L. Levine, Aaron D. Viny, Amittha Wickrema, Amit Verma, Britta Will

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

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Abstract

Cytosine hypermethylation in and around DNA-binding sites of master transcription factors, including PU.1, occurs in aging hematopoietic stem cells following acquired loss-of-function mutations of DNA methyl-cytosine dioxygenase ten–eleven translocation-2 (TET2), albeit functional relevance has been unclear. We show that Tet2-deficient mouse hematopoietic stem and progenitor cells undergo malignant transformation upon compromised gene regulation through heterozygous deletion of an upstream regulatory region (URE^Δ/WT) of the PU.1 gene. Although compatible with multilineage blood formation at young age, Tet2-deficient PU.1 URE^Δ/WT mice develop highly penetrant, transplantable acute myeloid leukemia (AML) during aging. Leukemic stem and progenitor cells show hypermethylation at putative PU.1-binding sites, fail to activate myeloid enhancers, and are hallmarked by a signature of genes with impaired expression shared with human AML. Our study demonstrates that Tet2 and PU.1 jointly suppress leukemogenesis and uncovers a methylation-sensitive PU.1-dependent gene network as a unifying molecular vulnerability associated with AML. SIGNIFICANCE: We identify moderately impaired PU.1 mRNA expression as a biological modality predisposing Tet2-deficient hematopoietic stem and progenitor cells to malignant transformation. Our study furthermore uncovers a methylation-sensitive PU.1 gene network as a common feature of myeloid leukemia potentially allowing for the identification of patients at risk for malignant transformation.

Original language	English (US)
Pages (from-to)	444-467
Number of pages	24
Journal	Blood cancer discovery
Volume	3
Issue number	5
DOIs	https://doi.org/10.1158/2643-3230.BCD-21-0226
State	Published - Sep 1 2022

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General Medicine

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Aivalioti, M. M., Bartholdy, B. A., Pradhan, K., Bhagat, T. D., Zintiridou, A., Jeong, J. J., Thiruthuvanathan, V. J., Pujato, M., Paranjpe, A., Zhang, C., Levine, R. L., Viny, A. D., Wickrema, A., Verma, A., & Will, B. (2022). PU.1-Dependent Enhancer Inhibition Separates Tet2-Deficient Hematopoiesis from Malignant Transformation. Blood cancer discovery, 3(5), 444-467. https://doi.org/10.1158/2643-3230.BCD-21-0226

Aivalioti, MM, Bartholdy, BA, Pradhan, K, Bhagat, TD, Zintiridou, A, Jeong, JJ, Thiruthuvanathan, VJ, Pujato, M, Paranjpe, A, Zhang, C, Levine, RL, Viny, AD, Wickrema, A, Verma, A & Will, B 2022, 'PU.1-Dependent Enhancer Inhibition Separates Tet2-Deficient Hematopoiesis from Malignant Transformation', Blood cancer discovery, vol. 3, no. 5, pp. 444-467. https://doi.org/10.1158/2643-3230.BCD-21-0226

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abstract = "Cytosine hypermethylation in and around DNA-binding sites of master transcription factors, including PU.1, occurs in aging hematopoietic stem cells following acquired loss-of-function mutations of DNA methyl-cytosine dioxygenase ten–eleven translocation-2 (TET2), albeit functional relevance has been unclear. We show that Tet2-deficient mouse hematopoietic stem and progenitor cells undergo malignant transformation upon compromised gene regulation through heterozygous deletion of an upstream regulatory region (UREΔ/WT) of the PU.1 gene. Although compatible with multilineage blood formation at young age, Tet2-deficient PU.1 UREΔ/WT mice develop highly penetrant, transplantable acute myeloid leukemia (AML) during aging. Leukemic stem and progenitor cells show hypermethylation at putative PU.1-binding sites, fail to activate myeloid enhancers, and are hallmarked by a signature of genes with impaired expression shared with human AML. Our study demonstrates that Tet2 and PU.1 jointly suppress leukemogenesis and uncovers a methylation-sensitive PU.1-dependent gene network as a unifying molecular vulnerability associated with AML. SIGNIFICANCE: We identify moderately impaired PU.1 mRNA expression as a biological modality predisposing Tet2-deficient hematopoietic stem and progenitor cells to malignant transformation. Our study furthermore uncovers a methylation-sensitive PU.1 gene network as a common feature of myeloid leukemia potentially allowing for the identification of patients at risk for malignant transformation.",

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doi = "10.1158/2643-3230.BCD-21-0226",

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T1 - PU.1-Dependent Enhancer Inhibition Separates Tet2-Deficient Hematopoiesis from Malignant Transformation

AU - Aivalioti, Maria M.

AU - Bartholdy, Boris A.

AU - Pradhan, Kith

AU - Bhagat, Tushar D.

AU - Zintiridou, Aliona

AU - Jeong, Jong Jin

AU - Thiruthuvanathan, Victor J.

AU - Pujato, Mario

AU - Paranjpe, Aditi

AU - Zhang, Chi

AU - Levine, Ross L.

AU - Viny, Aaron D.

AU - Wickrema, Amittha

AU - Verma, Amit

AU - Will, Britta

PY - 2022/9/1

Y1 - 2022/9/1

N2 - Cytosine hypermethylation in and around DNA-binding sites of master transcription factors, including PU.1, occurs in aging hematopoietic stem cells following acquired loss-of-function mutations of DNA methyl-cytosine dioxygenase ten–eleven translocation-2 (TET2), albeit functional relevance has been unclear. We show that Tet2-deficient mouse hematopoietic stem and progenitor cells undergo malignant transformation upon compromised gene regulation through heterozygous deletion of an upstream regulatory region (UREΔ/WT) of the PU.1 gene. Although compatible with multilineage blood formation at young age, Tet2-deficient PU.1 UREΔ/WT mice develop highly penetrant, transplantable acute myeloid leukemia (AML) during aging. Leukemic stem and progenitor cells show hypermethylation at putative PU.1-binding sites, fail to activate myeloid enhancers, and are hallmarked by a signature of genes with impaired expression shared with human AML. Our study demonstrates that Tet2 and PU.1 jointly suppress leukemogenesis and uncovers a methylation-sensitive PU.1-dependent gene network as a unifying molecular vulnerability associated with AML. SIGNIFICANCE: We identify moderately impaired PU.1 mRNA expression as a biological modality predisposing Tet2-deficient hematopoietic stem and progenitor cells to malignant transformation. Our study furthermore uncovers a methylation-sensitive PU.1 gene network as a common feature of myeloid leukemia potentially allowing for the identification of patients at risk for malignant transformation.

AB - Cytosine hypermethylation in and around DNA-binding sites of master transcription factors, including PU.1, occurs in aging hematopoietic stem cells following acquired loss-of-function mutations of DNA methyl-cytosine dioxygenase ten–eleven translocation-2 (TET2), albeit functional relevance has been unclear. We show that Tet2-deficient mouse hematopoietic stem and progenitor cells undergo malignant transformation upon compromised gene regulation through heterozygous deletion of an upstream regulatory region (UREΔ/WT) of the PU.1 gene. Although compatible with multilineage blood formation at young age, Tet2-deficient PU.1 UREΔ/WT mice develop highly penetrant, transplantable acute myeloid leukemia (AML) during aging. Leukemic stem and progenitor cells show hypermethylation at putative PU.1-binding sites, fail to activate myeloid enhancers, and are hallmarked by a signature of genes with impaired expression shared with human AML. Our study demonstrates that Tet2 and PU.1 jointly suppress leukemogenesis and uncovers a methylation-sensitive PU.1-dependent gene network as a unifying molecular vulnerability associated with AML. SIGNIFICANCE: We identify moderately impaired PU.1 mRNA expression as a biological modality predisposing Tet2-deficient hematopoietic stem and progenitor cells to malignant transformation. Our study furthermore uncovers a methylation-sensitive PU.1 gene network as a common feature of myeloid leukemia potentially allowing for the identification of patients at risk for malignant transformation.

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ER -

PU.1-Dependent Enhancer Inhibition Separates Tet2-Deficient Hematopoiesis from Malignant Transformation

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