RAB27B controls palmitoylation-dependent NRAS trafficking and signaling in myeloid leukemia
Jian-Gang Ren, … , Mark R. Philips, Wei Tong
Jian-Gang Ren, … , Mark R. Philips, Wei Tong
Published June 15, 2023
Citation Information: J Clin Invest. 2023;133(12):e165510. https://doi.org/10.1172/JCI165510.
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RAB27B controls palmitoylation-dependent NRAS trafficking and signaling in myeloid leukemia

Abstract

RAS mutations are among the most prevalent oncogenic drivers in cancers. RAS proteins propagate signals only when associated with cellular membranes as a consequence of lipid modifications that impact their trafficking. Here, we discovered that RAB27B, a RAB family small GTPase, controlled NRAS palmitoylation and trafficking to the plasma membrane, a localization required for activation. Our proteomic studies revealed RAB27B upregulation in CBL- or JAK2-mutated myeloid malignancies, and its expression correlated with poor prognosis in acute myeloid leukemias (AMLs). RAB27B depletion inhibited the growth of CBL-deficient or NRAS-mutant cell lines. Strikingly, Rab27b deficiency in mice abrogated mutant but not WT NRAS–mediated progenitor cell growth, ERK signaling, and NRAS palmitoylation. Further, Rab27b deficiency significantly reduced myelomonocytic leukemia development in vivo. Mechanistically, RAB27B interacted with ZDHHC9, a palmitoyl acyltransferase that modifies NRAS. By regulating palmitoylation, RAB27B controlled c-RAF/MEK/ERK signaling and affected leukemia development. Importantly, RAB27B depletion in primary human AMLs inhibited oncogenic NRAS signaling and leukemic growth. We further revealed a significant correlation between RAB27B expression and sensitivity to MEK inhibitors in AMLs. Thus, our studies presented a link between RAB proteins and fundamental aspects of RAS posttranslational modification and trafficking, highlighting future therapeutic strategies for RAS-driven cancers.

Authors

Jian-Gang Ren, Bowen Xing, Kaosheng Lv, Rachel A. O’Keefe, Mengfang Wu, Ruoxing Wang, Kaylyn M. Bauer, Arevik Ghazaryan, George M. Burslem, Jing Zhang, Ryan M. O’Connell, Vinodh Pillai, Elizabeth O. Hexner, Mark R. Philips, Wei Tong

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Figure 8

RAB27B binds to ZDHHC9 and regulates NRAS palmitoylation via ZDHHC9.

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RAB27B binds to ZDHHC9 and regulates NRAS palmitoylation via ZDHHC9. (A)...
(A) 293T cells were transfected with constructs to express tagged RAB27B, NRAS and ZDHHC9 as indicated. Cells were then subjected to IP followed by WB using the indicated antibodies. (B) TF-1 DKO cells stably expressing HA-ZDHHC9 were subjected to coIP with anti-HA antibodies followed by WB analysis using the indicated antibodies to examine its interaction with endogenous proteins. (C) Schematic illustration of the hypothesis depicting how RAB27B regulates NRAS signaling (blue arrows) and how to restore NRAS signaling disrupted due to RAB27B loss (red arrows). (DF) RAB27B-depleted TF-1 DKO cells stably expressing HA-ZDHHC9 or Myc-GOLGA7 were subjected to examination of palmitoylation status and cell growth. (D) WB to examine the efficiency of RAB27B KD or ZDHHC9 and GOLGA7 overexpression in TF-1 Ctrl and DKO cells. (E) APE assay to examine palmitoylation of endogenous RAS proteins. OE, overexpression; HAM, hydroxylamine; Palm, palmitoylated. (F) Cells were cultured in triplicate in different concentrations of human GM-CSF and cell growth after 3 days in culture was determined by MTT absorbance. Data are represented as mean ± SD. **P < 0.01; ***P < 0.001 compared with the shRAB27B group, determined by 2-way ANOVA.