Rivaroxaban attenuates neutrophil maturation in the bone marrow niche

Pharmacological inhibition of factor Xa by rivaroxaban has been shown to mediate cardioprotection and is frequently used in patients with, e.g., atrial fibrillation. Rivaroxaban's anti-inflammatory actions are well known, but the underlying mechanisms are still incompletely understood. To date,...

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Veröffentlicht in:	Basic research in cardiology 2023-08, Vol.118 (1), p.31-31, Article 31
Hauptverfasser:	Schneckmann, R., Döring, M., Gerfer, S., Gorressen, S., Heitmeier, S., Helten, C., Polzin, A., Jung, C., Kelm, M., Fender, A. C., Flögel, U., Grandoch, M.
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Schlagworte:	Animals Anticoagulants Apoptosis Bone Marrow Bone Marrow Cells Cardiology Cardiovascular diseases Cell differentiation Differentiation Heart Hematopoiesis Hemopoiesis Immune response Inflammation Injury prevention Ischemia Leukocytes Leukocytes (granulocytic) Leukocytes (neutrophilic) Maturation Medicine Medicine & Public Health Mice Monocytes Myelopoiesis Neutrophils Original Contribution Reperfusion Rivaroxaban - pharmacology Transcription factors
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creator	Schneckmann, R. Döring, M. Gerfer, S. Gorressen, S. Heitmeier, S. Helten, C. Polzin, A. Jung, C. Kelm, M. Fender, A. C. Flögel, U. Grandoch, M.
description	Pharmacological inhibition of factor Xa by rivaroxaban has been shown to mediate cardioprotection and is frequently used in patients with, e.g., atrial fibrillation. Rivaroxaban's anti-inflammatory actions are well known, but the underlying mechanisms are still incompletely understood. To date, no study has focused on the effects of rivaroxaban on the bone marrow (BM), despite growing evidence that the BM and its activation are of major importance in the development/progression of cardiovascular disease. Thus, we examined the impact of rivaroxaban on BM composition under homeostatic conditions and in response to a major cardiovascular event. Rivaroxaban treatment of mice for 7 days markedly diminished mature leukocytes in the BM. While apoptosis of BM-derived mature myeloid leukocytes was unaffected, lineage-negative BM cells exhibited a differentiation arrest at the level of granulocyte–monocyte progenitors, specifically affecting neutrophil maturation via downregulation of the transcription factors Spi1 and Csfr1 . To assess whether this persists also in situations of increased leukocyte demand, mice were subjected to cardiac ischemia/reperfusion injury (I/R): 7 d pretreatment with rivaroxaban led to reduced cardiac inflammation 72 h after I/R and lowered circulating leukocyte numbers. However, BM myelopoiesis showed a rescue of the leukocyte differentiation arrest, indicating that rivaroxaban's inhibitory effects are restricted to homeostatic conditions and are mainly abolished during emergency hematopoiesis. In translation, ST-elevation MI patients treated with rivaroxaban also exhibited reduced circulating leukocyte numbers. In conclusion, we demonstrate that rivaroxaban attenuates neutrophil maturation in the BM, which may offer a therapeutic option to limit overshooting of the immune response after I/R.
doi_str_mv	10.1007/s00395-023-01001-5
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While apoptosis of BM-derived mature myeloid leukocytes was unaffected, lineage-negative BM cells exhibited a differentiation arrest at the level of granulocyte–monocyte progenitors, specifically affecting neutrophil maturation via downregulation of the transcription factors Spi1 and Csfr1 . To assess whether this persists also in situations of increased leukocyte demand, mice were subjected to cardiac ischemia/reperfusion injury (I/R): 7 d pretreatment with rivaroxaban led to reduced cardiac inflammation 72 h after I/R and lowered circulating leukocyte numbers. However, BM myelopoiesis showed a rescue of the leukocyte differentiation arrest, indicating that rivaroxaban's inhibitory effects are restricted to homeostatic conditions and are mainly abolished during emergency hematopoiesis. In translation, ST-elevation MI patients treated with rivaroxaban also exhibited reduced circulating leukocyte numbers. 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C.</creatorcontrib><creatorcontrib>Flögel, U.</creatorcontrib><creatorcontrib>Grandoch, M.</creatorcontrib><title>Rivaroxaban attenuates neutrophil maturation in the bone marrow niche</title><title>Basic research in cardiology</title><addtitle>Basic Res Cardiol</addtitle><addtitle>Basic Res Cardiol</addtitle><description>Pharmacological inhibition of factor Xa by rivaroxaban has been shown to mediate cardioprotection and is frequently used in patients with, e.g., atrial fibrillation. Rivaroxaban's anti-inflammatory actions are well known, but the underlying mechanisms are still incompletely understood. To date, no study has focused on the effects of rivaroxaban on the bone marrow (BM), despite growing evidence that the BM and its activation are of major importance in the development/progression of cardiovascular disease. Thus, we examined the impact of rivaroxaban on BM composition under homeostatic conditions and in response to a major cardiovascular event. Rivaroxaban treatment of mice for 7 days markedly diminished mature leukocytes in the BM. While apoptosis of BM-derived mature myeloid leukocytes was unaffected, lineage-negative BM cells exhibited a differentiation arrest at the level of granulocyte–monocyte progenitors, specifically affecting neutrophil maturation via downregulation of the transcription factors Spi1 and Csfr1 . To assess whether this persists also in situations of increased leukocyte demand, mice were subjected to cardiac ischemia/reperfusion injury (I/R): 7 d pretreatment with rivaroxaban led to reduced cardiac inflammation 72 h after I/R and lowered circulating leukocyte numbers. However, BM myelopoiesis showed a rescue of the leukocyte differentiation arrest, indicating that rivaroxaban's inhibitory effects are restricted to homeostatic conditions and are mainly abolished during emergency hematopoiesis. In translation, ST-elevation MI patients treated with rivaroxaban also exhibited reduced circulating leukocyte numbers. 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To date, no study has focused on the effects of rivaroxaban on the bone marrow (BM), despite growing evidence that the BM and its activation are of major importance in the development/progression of cardiovascular disease. Thus, we examined the impact of rivaroxaban on BM composition under homeostatic conditions and in response to a major cardiovascular event. Rivaroxaban treatment of mice for 7 days markedly diminished mature leukocytes in the BM. While apoptosis of BM-derived mature myeloid leukocytes was unaffected, lineage-negative BM cells exhibited a differentiation arrest at the level of granulocyte–monocyte progenitors, specifically affecting neutrophil maturation via downregulation of the transcription factors Spi1 and Csfr1 . 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subjects	Animals Anticoagulants Apoptosis Bone Marrow Bone Marrow Cells Cardiology Cardiovascular diseases Cell differentiation Differentiation Heart Hematopoiesis Hemopoiesis Immune response Inflammation Injury prevention Ischemia Leukocytes Leukocytes (granulocytic) Leukocytes (neutrophilic) Maturation Medicine Medicine & Public Health Mice Monocytes Myelopoiesis Neutrophils Original Contribution Reperfusion Rivaroxaban - pharmacology Transcription factors
title	Rivaroxaban attenuates neutrophil maturation in the bone marrow niche
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