Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis

N. Zioni; A. Akhiad Bercovich; N. Chapal-Ilani; Tal Bacharach; N. Rappoport; A. Solomon; R. Avraham; E. Kopitman; Z. Porat; M. Sacma; G. Hartmut; M. Scheller; C. Muller-Tidow; D. Lipka; E. Shlush; M. Minden; N. Kaushansky; Liran I. Shlush

doi:10.1038/s41467-023-36906-1

Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis

N. Zioni, A. Akhiad Bercovich, N. Chapal-Ilani, Tal Bacharach, N. Rappoport, A. Solomon, R. Avraham, E. Kopitman, Z. Porat, M. Sacma, G. Hartmut, M. Scheller, C. Muller-Tidow, D. Lipka, E. Shlush, M. Minden, N. Kaushansky, Liran I. Shlush

Weizmann Institute of Science, Tel Aviv University

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

Abstract

Both fatty bone marrow (FBM) and somatic mutations in hematopoietic stem cells (HSCs), also termed clonal hematopoiesis (CH) accumulate with human aging. However it remains unclear whether FBM can modify the evolution of CH. To address this question, we herein present the interaction between CH and FBM in two preclinical male mouse models: after sub-lethal irradiation or after castration. An adipogenesis inhibitor (PPARγ inhibitor) is used in both models as a control. A significant increase in self-renewal can be detected in both human and rodent DNMT3A^Mut-HSCs when exposed to FBM. DNMT3A^Mut-HSCs derived from older mice interacting with FBM have even higher self-renewal in comparison to DNMT3A^Mut-HSCs derived from younger mice. Single cell RNA-sequencing on rodent HSCs after exposing them to FBM reveal a 6-10 fold increase in DNMT3A^Mut-HSCs and an activated inflammatory signaling. Cytokine analysis of BM fluid and BM derived adipocytes grown in vitro demonstrates an increased IL-6 levels under FBM conditions. Anti-IL-6 neutralizing antibodies significantly reduce the selective advantage of DNMT3A^Mut-HSCs exposed to FBM. Overall, paracrine FBM inflammatory signals promote DNMT3A-driven clonal hematopoiesis, which can be inhibited by blocking the IL-6 pathway.

Original language	English
Article number	2070
Number of pages	17
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-36906-1
State	Published - 12 Apr 2023

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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Zioni, N., Bercovich, A. A., Chapal-Ilani, N., Bacharach, T., Rappoport, N., Solomon, A., Avraham, R., Kopitman, E., Porat, Z., Sacma, M., Hartmut, G., Scheller, M., Muller-Tidow, C., Lipka, D., Shlush, E., Minden, M., Kaushansky, N., & Shlush, L. I. (2023). Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis. Nature Communications, 14(1), Article 2070. https://doi.org/10.1038/s41467-023-36906-1

@article{334bc57c129d439782a32cb33ff04d97,

title = "Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis",

abstract = "Both fatty bone marrow (FBM) and somatic mutations in hematopoietic stem cells (HSCs), also termed clonal hematopoiesis (CH) accumulate with human aging. However it remains unclear whether FBM can modify the evolution of CH. To address this question, we herein present the interaction between CH and FBM in two preclinical male mouse models: after sub-lethal irradiation or after castration. An adipogenesis inhibitor (PPARγ inhibitor) is used in both models as a control. A significant increase in self-renewal can be detected in both human and rodent DNMT3AMut-HSCs when exposed to FBM. DNMT3AMut-HSCs derived from older mice interacting with FBM have even higher self-renewal in comparison to DNMT3AMut-HSCs derived from younger mice. Single cell RNA-sequencing on rodent HSCs after exposing them to FBM reveal a 6-10 fold increase in DNMT3AMut-HSCs and an activated inflammatory signaling. Cytokine analysis of BM fluid and BM derived adipocytes grown in vitro demonstrates an increased IL-6 levels under FBM conditions. Anti-IL-6 neutralizing antibodies significantly reduce the selective advantage of DNMT3AMut-HSCs exposed to FBM. Overall, paracrine FBM inflammatory signals promote DNMT3A-driven clonal hematopoiesis, which can be inhibited by blocking the IL-6 pathway.",

author = "N. Zioni and Bercovich, \{A. Akhiad\} and N. Chapal-Ilani and Tal Bacharach and N. Rappoport and A. Solomon and R. Avraham and E. Kopitman and Z. Porat and M. Sacma and G. Hartmut and M. Scheller and C. Muller-Tidow and D. Lipka and E. Shlush and M. Minden and N. Kaushansky and Shlush, \{Liran I.\}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = apr,

day = "12",

doi = "10.1038/s41467-023-36906-1",

language = "الإنجليزيّة",

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Zioni, N, Bercovich, AA, Chapal-Ilani, N, Bacharach, T, Rappoport, N, Solomon, A, Avraham, R, Kopitman, E, Porat, Z, Sacma, M, Hartmut, G, Scheller, M, Muller-Tidow, C, Lipka, D, Shlush, E, Minden, M, Kaushansky, N & Shlush, LI 2023, 'Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis', Nature Communications, vol. 14, no. 1, 2070. https://doi.org/10.1038/s41467-023-36906-1

TY - JOUR

T1 - Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis

AU - Zioni, N.

AU - Bercovich, A. Akhiad

AU - Chapal-Ilani, N.

AU - Bacharach, Tal

AU - Rappoport, N.

AU - Solomon, A.

AU - Avraham, R.

AU - Kopitman, E.

AU - Porat, Z.

AU - Sacma, M.

AU - Hartmut, G.

AU - Scheller, M.

AU - Muller-Tidow, C.

AU - Lipka, D.

AU - Shlush, E.

AU - Minden, M.

AU - Kaushansky, N.

AU - Shlush, Liran I.

PY - 2023/4/12

Y1 - 2023/4/12

N2 - Both fatty bone marrow (FBM) and somatic mutations in hematopoietic stem cells (HSCs), also termed clonal hematopoiesis (CH) accumulate with human aging. However it remains unclear whether FBM can modify the evolution of CH. To address this question, we herein present the interaction between CH and FBM in two preclinical male mouse models: after sub-lethal irradiation or after castration. An adipogenesis inhibitor (PPARγ inhibitor) is used in both models as a control. A significant increase in self-renewal can be detected in both human and rodent DNMT3AMut-HSCs when exposed to FBM. DNMT3AMut-HSCs derived from older mice interacting with FBM have even higher self-renewal in comparison to DNMT3AMut-HSCs derived from younger mice. Single cell RNA-sequencing on rodent HSCs after exposing them to FBM reveal a 6-10 fold increase in DNMT3AMut-HSCs and an activated inflammatory signaling. Cytokine analysis of BM fluid and BM derived adipocytes grown in vitro demonstrates an increased IL-6 levels under FBM conditions. Anti-IL-6 neutralizing antibodies significantly reduce the selective advantage of DNMT3AMut-HSCs exposed to FBM. Overall, paracrine FBM inflammatory signals promote DNMT3A-driven clonal hematopoiesis, which can be inhibited by blocking the IL-6 pathway.

AB - Both fatty bone marrow (FBM) and somatic mutations in hematopoietic stem cells (HSCs), also termed clonal hematopoiesis (CH) accumulate with human aging. However it remains unclear whether FBM can modify the evolution of CH. To address this question, we herein present the interaction between CH and FBM in two preclinical male mouse models: after sub-lethal irradiation or after castration. An adipogenesis inhibitor (PPARγ inhibitor) is used in both models as a control. A significant increase in self-renewal can be detected in both human and rodent DNMT3AMut-HSCs when exposed to FBM. DNMT3AMut-HSCs derived from older mice interacting with FBM have even higher self-renewal in comparison to DNMT3AMut-HSCs derived from younger mice. Single cell RNA-sequencing on rodent HSCs after exposing them to FBM reveal a 6-10 fold increase in DNMT3AMut-HSCs and an activated inflammatory signaling. Cytokine analysis of BM fluid and BM derived adipocytes grown in vitro demonstrates an increased IL-6 levels under FBM conditions. Anti-IL-6 neutralizing antibodies significantly reduce the selective advantage of DNMT3AMut-HSCs exposed to FBM. Overall, paracrine FBM inflammatory signals promote DNMT3A-driven clonal hematopoiesis, which can be inhibited by blocking the IL-6 pathway.

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U2 - 10.1038/s41467-023-36906-1

DO - 10.1038/s41467-023-36906-1

M3 - مقالة

C2 - 37045808

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 2070

ER -

Inflammatory signals from fatty bone marrow support DNMT3A driven clonal hematopoiesis

Abstract

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