Abstract
Acute myeloid leukemia (AML) is a bone marrow derived blood cancer where intercellular communication in the leukemic bone marrow participates in disease development, progression and chemoresistance. Tunneling nanotubes (TNTs) are intercellular communication structures involved in transport of cellular contents and pathogens, also demonstrated to play a role in both cell death modulation and chemoresistance. Here we investigated the presence of TNTs by live fluorescent microscopy and identified TNT formation between primary AML cells and in AML cell lines. We found that NF-κB activity was involved in TNT regulation and formation. Cytarabine downregulated TNTs and inhibited NF-κB alone and in combination with daunorubicin, providing additional support for involvement of the NF-κB pathway in TNT formation. Interestingly, daunorubicin was found to localize to lysosomes in TNTs connecting AML cells indicating a novel function of TNTs as drug transporting devices. We conclude that TNT communication could reflect important biological features of AML that may be explored in future therapy development.
Highlights
Acute myeloid leukemia (AML) is an aggressive bone marrow derived blood cancer [1,2,3] where the bone marrow represents a multi-cellular compartment with a high level of cell-to-cell communication [4, 5]
Intercellular connection resembling Tunneling nanotubes (TNTs) were found in 17 of 19 patient-derived AML cells originating from peripheral blood and all four bone marrow-derived samples (Table 1)
Since we found that TNTs in OCIAML3 cells could be formed through filopodia interplay and the GTPase Cdc42 (22 kDa) has been associated with filopodia formation, actin remodeling and TNT formation [30, 45], we investigated the Cdc42 activity in OCI-AML3 cells, compared to OCI-AML3 cells treated with cytarabine for 1 h
Summary
Acute myeloid leukemia (AML) is an aggressive bone marrow derived blood cancer [1,2,3] where the bone marrow represents a multi-cellular compartment with a high level of cell-to-cell communication [4, 5]. Membrane nanotubes can be utilized by natural killer cells for lysis of target cells [16]. These intercellular structures are exploited for cell-to-cell transfer by pathogens [17,18,19,20,21,22,23] and evidence for TNT-like structures and TNTs in vivo has been provided in zebrafish embryos, in neural crest cells in chick embryos, in adult mouse cornea, as well as lung cancer biopsies [10, 24,25,26,27,28]. It was demonstrated that B-cell precursor acute lymphoblastic leukemia (BCP-ALL) cells and mesenchymal stem cells (MSCs) formed TNTs involving pro-survival cytokines and leukemic niche therapy resistance [29]
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