JAK1/2 and BCL2 inhibitors synergize to counteract bone marrow stromal cell–induced protection of AML

Karjalainen, Reijo; Pemovska, Tea; Popa, Mihaela; Liu, Minxia; Javarappa, Komal Kumar; Majumder, Muntasir Mamun; Yadav, Bhagwan; Tamborero, David; Tang, Jing; Bychkov, Dmitrii; Kontro, Mika; Parsons, Alun; Suvela, Minna; Safont, Mireia Mayoral; Porkka, Kimmo; Aittokallio, Tero; Kallioniemi, Olli; McCormack, Emmet; Gjertsen, Bjørn Tore; Wennerberg, Krister; Knowles, Jonathan; Heckman, Caroline A.

doi:10.1182/blood-2016-02-699363

Cited by 94 publications

(105 citation statements)

References 41 publications

(59 reference statements)

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“…The second approach of targeting leukemia cell intrinsic pathways (partly reviewed in Krause and Scadden, 2015) includes the inhibition of Axl and its interaction with Gas6 in AML (Ben-Batalla et al, 2013), for instance with the compound MYD1-72 (Kariolis et al, 2017), or the inhibition of CCL3 (Frisch et al, 2012;Schepers et al, 2013), placental growth factor (PlGF; Schmidt et al, 2011), IL-6 (Welner et al, 2015) and Jak2 in myeloproliferative neoplasia (MPN) (Meyer et al, 2015) and AML (Karjalainen et al, 2017). Other possible therapeutic strategies are inhibition of NF-κB, which lies downstream of the vascular cell adhesion molecule (VCAM)-1-integrin-β1 signaling axis, of various cytokines or their receptors (Jacamo et al, 2014) or targeting of CD44 (Erb et al, 2014;Singh et al, 2013).…”

Section: Targeting the Bmm In Hematological Malignanciesmentioning

confidence: 99%

The bone marrow microenvironment in health and disease at a glance

Kumar

Godavarthy

Krause

2018

Journal of Cell Science

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The bone marrow microenvironment (BMM) is the 'domicile' of hematopoietic stem cells, as well as of malignant processes that can develop there. Multiple and complex interactions with the BMM influence hematopoietic stem cell (HSC) physiology, but also the pathophysiology of hematological malignancies. Reciprocally, hematological malignancies alter the BMM, in order to render it more hospitable for malignant progression. In this Cell Science at a Glance article and accompanying poster, we highlight concepts of the normal and malignant hematopoietic stem cell niches. We present the intricacies of the BMM in malignancy and provide approaches for targeting the interactions between malignant cells and their BMM. This is done in an effort to augment existing treatment strategies in the future.

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Section: Targeting the Bmm In Hematological Malignanciesmentioning

confidence: 99%

The bone marrow microenvironment in health and disease at a glance

Kumar

Godavarthy

Krause

2018

Journal of Cell Science

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“…In AML, the high rate of relapse may in part be a result of the inability of current treatments to effectively overcome the protective influence of the BM niche. 5,46 In fact, it has been recently shown that BM mesenchymal stromal cells (BM-MSCs) derived from diagnostic AML patients are strong immunomodulators and provide similar or even higher chemoprotection of AML cells to cytarabine/idarubicin than normal BM-MSCs. 5 Therefore, new compounds or improved combinatory regimens targeting the interaction between the BM microenvironment and AML leukemic cells are very attractive candidates.…”

Section: Discussionmentioning

confidence: 99%

IMiDs mobilize acute myeloid leukemia blasts to peripheral blood through downregulation of CXCR4 but fail to potentiate AraC/Idarubicin activity in preclinical models of non del5q/5q- AML

et al. 2018

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Treatment for acute myeloid leukemia (AML) remains suboptimal and many patients remain refractory or relapse upon standard chemotherapy based on nucleoside analogs plus anthracyclines. The crosstalk between AML cells and the BM stroma is a major mechanism underlying therapy resistance in AML. Lenalidomide and pomalidomide, a new generation immunomodulatory drugs (IMiDs), possess pleiotropic anti-leukemic properties including potent immune-modulating effects and are commonly used in hematological malignances associated with intrinsic dysfunctional BM such as myelodysplastic syndromes and multiple myeloma. Whether IMiDs may improve the efficacy of current standard treatment in AML remains understudied. Here, we have exploited in vitro and in vivo preclinical AML models to analyze whether IMiDs potentiate the efficacy of AraC/Idarubicin-based standard AML chemotherapy by interfering with the BM stroma-mediated chemoresistance. We report that IMiDs do not exert cytotoxic effects on either non-del5q/5q- AML cells nor BM-MSCs, but they enhance the immunomodulatory properties of BM-MSCs. When combined with AraC/Idarubicin, IMiDs fail to circumvent BM stroma-mediated resistance of non-del5q/5q- AML cells in vitro and in vivo but induce robust extramedullary mobilization of AML cells. When administered as a single agent, lenalidomide specifically mobilizes non-del5q/5q- AML cells, but not healthy CD34+ cells, to peripheral blood (PB) through specific downregulation of CXCR4 in AML blasts. Global gene expression profiling supports a migratory/mobilization gene signature in lenalidomide-treated non-del5q/5q- AML blasts but not in CD34+ cells. Collectively, IMiDs mobilize non-del5q/5q- AML blasts to PB through CXCR4 downregulation, but fail to potentiate AraC/Idarubicin activity in preclinical models of non-del5q/5q- AML.

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“…The finding that normal HSCs and leukemia stem cells (LSCs) occupy the same niche and that HSCs can outperform LSCs [61] supports the concept that modification of the bone marrow stroma can improve the efficacy of allo-HCT. In accordance with this idea, preclinical data have been published suggesting that interference with the interaction of leukemia and stroma cells may provide a new approach to improve treatment [62]. However, clinical data on the specific use to prevent or treat relapse after allo-HCT are lacking.…”

Section: Biology Of Relapsementioning

confidence: 99%

Biology-Driven Approaches to Prevent and Treat Relapse of Myeloid Neoplasia after Allogeneic Hematopoietic Stem Cell Transplantation

Zeiser

Beelen

Bethge³

et al. 2019

Biology of Blood and Marrow Transplantation

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The curative potential of allogeneic hematopoietic cell transplantation (allo-HCT) in the treatment of acute myelogenous leukemia (AML) and myelodysplastic syndrome (MDS) relies mainly on the graft-versus-leukemia effect. Relapse after allo-HCT occurs in a considerable proportion of patients and has a dismal prognosis, with still very limited curative potential. This review provides an overview of the established and evolving approaches to preventing or treating relapse of AML and MDS after allo-HCT, in the context of novel insight into the biology of relapse. Established prophylactic measures to prevent relapse include optimized conditioning and graft-versushost disease (GVHD) prophylaxis, as well as donor lymphocyte infusion (DLI) for high-risk patients; novel immunomodulatory interventions and maintenance approaches are still experimental. Improved diagnostics can detect persistent or recurring disease at a molecular level, enabling early preemptive interventions. Established options include hypomethylating agents and DLI. Standard treatments for hematologic relapse include chemotherapy, cessation of immunosuppressive treatment, and DLI. Experimental approaches include molecular targeted therapies, novel immunomodulatory treatments, and second allo-HCT. For all interventions, the potential risks, including occurrence of GVHD, must be weighed against the benefits individually in each patient. Concurrently, prevention and treatment of relapse after allo-HCT remain challenging and unmet medical needs.

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JAK1/2 and BCL2 inhibitors synergize to counteract bone marrow stromal cell–induced protection of AML

Cited by 94 publications

References 41 publications

The bone marrow microenvironment in health and disease at a glance

The bone marrow microenvironment in health and disease at a glance

IMiDs mobilize acute myeloid leukemia blasts to peripheral blood through downregulation of CXCR4 but fail to potentiate AraC/Idarubicin activity in preclinical models of non del5q/5q- AML

Biology-Driven Approaches to Prevent and Treat Relapse of Myeloid Neoplasia after Allogeneic Hematopoietic Stem Cell Transplantation

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