Stem Cells. 2021 Feb 04.
Yasuhiro Shingai,
Takafumi Yokota,
Daisuke Okuzaki,
Takao Sudo,
Tomohiko Ishibashi,
Yukiko Doi,
Tomoaki Ueda,
Takayuki Ozawa,
Ritsuko Nakai,
Akira Tanimura,
Michiko Ichii,
Hirohiko Shibayama,
Yuzuru Kanakura,
Naoki Hosen.
Heterogeneity of leukemia stem cells (LSCs) is involved in their collective chemoresistance. To eradicate LSCs, it is necessary to understand the mechanisms underlying their heterogeneity. Here, we aimed to identify signals responsible for heterogeneity and variation of LSCs in human acute myeloid leukemia (AML). Monitoring expression levels of endothelial cell-selective adhesion molecule (ESAM), a hematopoietic stem cell-related marker, was useful to detect the plasticity of AML cells. While healthy human hematopoietic stem/progenitor cells robustly expressed ESAM, AML cells exhibited heterogeneous ESAM expression. Interestingly, ESAM- and ESAM+ leukemia cells obtained from AML patients were mutually interconvertible in culture. KG1a and CMK, human AML clones, also represented the heterogeneity in terms of ESAM expression. Single cell culture with ESAM- or ESAM+ AML clones recapitulated the phenotypic interconversion. The phenotypic alteration was regulated at the gene expression level, and RNA sequencing revealed activation of TGFβ signaling in these cells. AML cells secreted TGFβ1, which autonomously activated TGFβ pathway and induced their phenotypic variation. Surprisingly, TGFβ signaling blockade inhibited not only the variation but also the proliferation of AML cells. Therefore, autonomous activation of TGFβ signaling underlies the LSC heterogeneity, which may be a promising therapeutic target for AML. © AlphaMed Press 2021 SIGNIFICANCE STATEMENT: We have shown the autonomous TGFβ signaling as one of the molecular mechanisms underlying heterogeneity and variability of leukemia stem cells associated with human acute myeloid leukemia (AML). By monitoring the ESAM expression, we found that human AML cells were phenotypically heterogeneous and variable. ESAM- and ESAM+ AML cells were mutually convertible in culture. We determined that autocrine TGFβ signaling was involved in AML cell heterogeneity and variability. Inhibiting the TGFβ pathway not only suppressed ESAM variability, but also induced AML cell apoptosis. Thus, mechanisms promoting the heterogeneity and variability of LSCs can be therapeutic targets against intractable AML.
Keywords: Acute myeloid leukemia; Autonomous signaling; Chemoresistance; Endothelial cell-selective adhesion molecule; Heterogeneity; Leukemia stem cells; Phenotypic variation; TGFβ