Inhibition of Endosteal Vascular Niche Remodeling Rescues Hematopoietic Stem Cell Loss in AML

Delfim Duarte; Edwin D. Hawkins; Olufolake Akinduro; Heather Ang; Katia De Filippo; Isabella Y. Kong; Myriam Haltalli; Nicola Ruivo; Lenny Straszkowski; Stephin J. Vervoort; Catriona McLean; Tom Weber; Reema Khorshed; Chiara Pirillo; Andrew H. Wei; Saravana K. Ramasamy; Anjali P. Kusumbe; Ken R. Duffy; Ralf H. Adams; Louise E. Purton; Leo M. Carlin; Cristina Lo Celso

doi:10.1016/j.stem.2017.11.006

Inhibition of Endosteal Vascular Niche Remodeling Rescues Hematopoietic Stem Cell Loss in AML

Delfim Duarte(The Francis Crick Institute), Edwin D. Hawkins(The University of Melbourne), Olufolake Akinduro(Imperial College London), Heather Ang(Imperial College London), Katia De Filippo(Imperial College London), Isabella Y. Kong(The University of Melbourne), Myriam Haltalli(Imperial College London), Nicola Ruivo(Imperial College London), Lenny Straszkowski(St Vincents Institute of Medical Research), Stephin J. Vervoort(The University of Melbourne), Catriona McLean(The Alfred Hospital), Tom Weber(National University of Ireland, Maynooth), Reema Khorshed(Imperial College London), Chiara Pirillo(Imperial College London), Andrew H. Wei(The Alfred Hospital), Saravana K. Ramasamy(Imperial College London), Anjali P. Kusumbe(University of Oxford), Ken R. Duffy(National University of Ireland, Maynooth), Ralf H. Adams(University of Münster), Louise E. Purton(The University of Melbourne), Leo M. Carlin(Lung Institute), Cristina Lo Celso(The Francis Crick Institute)

Cell stem cell

December 21, 2017

10.1016/j.stem.2017.11.006

Cited by 324Open Access

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Abstract

Bone marrow vascular niches sustain hematopoietic stem cells (HSCs) and are drastically remodeled in leukemia to support pathological functions. Acute myeloid leukemia (AML) cells produce angiogenic factors, which likely contribute to this remodeling, but anti-angiogenic therapies do not improve AML patient outcomes. Using intravital microscopy, we found that AML progression leads to differential remodeling of vasculature in central and endosteal bone marrow regions. Endosteal AML cells produce pro-inflammatory and anti-angiogenic cytokines and gradually degrade endosteal endothelium, stromal cells, and osteoblastic cells, whereas central marrow remains vascularized and splenic vascular niches expand. Remodeled endosteal regions have reduced capacity to support non-leukemic HSCs, correlating with loss of normal hematopoiesis. Preserving endosteal endothelium with the small molecule deferoxamine or a genetic approach rescues HSCs loss, promotes chemotherapeutic efficacy, and enhances survival. These findings suggest that preventing degradation of the endosteal vasculature may improve current paradigms for treating AML.

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