Journal of Translational Medicine (Oct 2023)

Spatiotemporal evolution of AML immune microenvironment remodeling and RNF149-driven drug resistance through single-cell multidimensional analysis

  • Xin Wu,
  • Zhongguang Wu,
  • Woding Deng,
  • Rong Xu,
  • Chunmei Ban,
  • Xiaoying Sun,
  • Qiangqiang Zhao

DOI
https://doi.org/10.1186/s12967-023-04579-5
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 21

Abstract

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Abstract Background The composition of the bone marrow immune microenvironment in patients with acute myeloid leukaemia (AML) was analysed by single-cell sequencing and the evolutionary role of different subpopulations of T cells in the development of AML and in driving drug resistance was explored in conjunction with E3 ubiquitin ligase-related genes. Methods To elucidate the mechanisms underlying AML-NR and Ara-C resistance, we analyzed the bone marrow immune microenvironment of AML patients by integrating multiple single-cell RNA sequencing datasets. When compared to the AML disease remission (AML-CR) cohort, AML-NR displayed distinct cellular interactions and alterations in the ratios of CD4+T, Treg, and CD8+T cell populations. Results Our findings indicate that the E3 ubiquitin ligase RNF149 accelerates AML progression, modifies the AML immune milieu, triggers CD8+T cell dysfunction, and influences the transformation of CD8+ Navie.T cells to CD8+TExh, culminating in diminished AML responsiveness to chemotherapeutic agents. Experiments both in vivo and in vitro revealed RNF149’s role in enhancing AML drug-resistant cell line proliferation and in apoptotic inhibition, fostering resistance to Ara-C. Conclusion In essence, the immune microenvironments of AML-CR and AML-NR diverge considerably, spotlighting RNF149’s tumorigenic function in AML and cementing its status as a potential prognostic indicator and innovative therapeutic avenue for countering AML resistance. Graphical Abstract

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