Abstract
The majority of the BCR-ABL-negative myeloproliferative disorders express the mutant JAK2, JAK2V617F. Previously we showed that constitutive activation of this oncogenic JAK2 mutant in Ba/F3 or 32D cells requires coexpression of a cognate homodimeric cytokine receptor, such as the EpoR. However, overexpression of JAK2V617F in Ba/F3 cells renders them cytokine-independent for growth in the absence of an exogenous cytokine receptor. Here, we demonstrated that JAK2V617F domains required for receptor association are essential for cytokine-independent growth by overexpressed JAK2V617F, suggesting JAK2V617F is binding to an unknown endogenous cytokine receptor(s) for its activation. We further showed that disruption of EpoR dimerization by coexpressing a truncated EpoR disrupted JAK2V617F-mediated transformation, indicating that EpoR dimerization plays an essential role in the activation of JAK2V617F. Interestingly, coexpression of JAK2V617F with EpoR mutants that retain JAK2 binding but are defective in mediating Epo-dependent JAK2 activation due to mutations in a conserved juxtamembrane motif does lead to cytokine-independent activation of JAK2V617F. Overall, these findings confirm that JAK2V617F requires binding to a dimerized cytokine receptor for its activation, and that the key EpoR juxtamembrane regulatory motif essential for Epo-dependent JAK2 activation is not essential for the activation of JAK2V617F. The structure of the activated JAK2V617F is thus likely to be different from that of the activated wild-type JAK2, raising the possibility of developing a specifically targeted therapy for myeloproliferative disorders.
Highlights
The Janus family of non-receptor tyrosine kinases are key mediators of cytokine receptor signaling and play a central role in hematopoiesis and immune responses
High Expression of JAK2V617F Circumvents the Requirement for an Ectopic Cytokine Receptor—In our previous work we introduced murine JAK2V617F into IL-3 dependent murine Ba/F3 cells using retroviruses generated from the MSCVJAK2V617F-Neo vector
The cytokine receptor dependence of JAK2V617F-mediated transformation of Ba/F3 cells has been controversial; others have reported that expression of JAK2V617F in normally IL-3 dependent cells such as BaF3 cells allows them to proliferate in the absence of cytokines [10, 23]
Summary
Expression Vectors—The murine JAK2 cDNA was cloned into the retroviral vector MSCV-Neo. For co-expression of wild-type EpoR and EpoR-T, EpoR cDNA was cloned into retroviral vector pBI-IRES-CD4, and doubly infected cells were sorted into a GFP- and CD4positive population. Parental Ba/F3 cells were grown in RPMI 1640 containing 10% fetal calf serum and 10% WEHI-3B cell supernatant as a source of IL-3 (WEHI media) These cells were infected with retroviral supernatant generated from either the MSCV-JAK2-Neo or MSCVJAK2V617F-Neo vectors, respectively, and selected in media containing 1 mg/ml G418. For expression of wild-type or mutant JAK2 using the MSCV-IRES-GFP vector [25], parental Ba/F3 cells were infected with retroviral supernatant generated from either the MSCV-JAK2-IRES-GFP, MSCV-JAK2V617F-IRESGFP, MSCV-JH1–2-IRES-GFP, MSCV-JH1–2V617F-IRES-GFP, MSCV-JH1–6V617F-IRES-GFP, MSCV-Y119E-JAK2V617FIRES-GFP, or MSCV-TEL-JAK2-IRES-GFP vectors, respectively, and sorted by flow cytometry to isolate GFPpositive cells. The following antibodies were used for immunoprecipitation and Western blot analysis: anti-JAK2 (polyclonal antibody, Upstate), anti-STAT5 (c-17, Santa Cruz Biotechnology), antiphospho-tyrosine (4G10) (Upstate), anti-phospho-JAK2 (Cell Signaling), anti-phospho-STAT5 (Cell Signaling), anti-EpoR (m-20, Santa Cruz Biotechnology), anti-HA (HA11, Covance), peroxidase-conjugated anti-mouse immunoglobulin (Amersham Biosciences), and peroxidase-conjugated anti-rabbit immunoglobulin (Amersham Biosciences)
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