Haematologica (Oct 2011)

Multiple oligomerization domains of KANK1-PDGFRβ are required for JAK2-independent hematopoietic cell proliferation and signaling via STAT5 and ERK

  • Sandrine Medves,
  • Laura A. Noël,
  • Carmen P. Montano-Almendras,
  • Roxana I. Albu,
  • Hélène Schoemans,
  • Stefan N. Constantinescu,
  • Jean-Baptiste Demoulin

DOI
https://doi.org/10.3324/haematol.2011.040147
Journal volume & issue
Vol. 96, no. 10

Abstract

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Background KANK1-PDGFRB is a fusion gene generated by the t(5;9) translocation between KANK1 and the platelet-derived growth factor receptor beta gene PDGFRB. This hybrid was identified in a myeloproliferative neoplasm featuring severe thrombocythemia, in the absence of the JAK2 V617F mutation.Design and Methods KANK1-PDGFRB was transduced into Ba/F3 cells and CD34+ human progenitor cells to gain insights into the mechanisms whereby this fusion gene transforms cells.Results Although platelet-derived growth factor receptors are capable of activating JAK2, KANK1-PDGFRβ did not induce JAK2 phosphorylation in hematopoietic cells and a JAK inhibitor did not affect KANK1-PDGFRβ-induced cell growth. Like JAK2 V617F, KANK1-PDGFRβ constitutively activated STAT5 transcription factors, but this did not require JAK kinases. In addition KANK1-PDGFRβ induced the phosphorylation of phospholipase C-γ, ERK1 and ERK2, like wild-type PDGFRβ and TEL-PDGFRβ, another hybrid protein found in myeloid malignancies. We next tested various mutant forms of KANK1-PDGFRβ in Ba/F3 cells and human CD34+ hematopoietic progenitors. The three coiled-coil domains located in the N-terminus of KANK1 were required for KANK1-PDGFRβ-induced cell growth and signaling via STAT5 and ERK. However, the coiled-coils were not essential for KANK1-PDGFRβ oligomerization, which could be mediated by another new oligomerization domain. KANK1-PDGFRβ formed homotrimeric complexes and heavier oligomers.Conclusions KANK1-PDGFRB is a unique example of a thrombocythemia-associated oncogene that does not signal via JAK2. The fusion protein is activated by multiple oligomerization domains, which are required for signaling and cell growth stimulation.