GP130 activation induces myeloma and collaborates with MYC
Tobias Dechow, … , Florian Bassermann, Ulrich Keller
Tobias Dechow, … , Florian Bassermann, Ulrich Keller
Published November 10, 2014
Citation Information: J Clin Invest. 2014;124(12):5263-5274. https://doi.org/10.1172/JCI69094.
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Research Article Oncology

GP130 activation induces myeloma and collaborates with MYC

Abstract

Multiple myeloma (MM) is a plasma cell neoplasm that results from clonal expansion of an Ig-secreting terminally differentiated B cell. Advanced MM is characterized by tissue damage that involves bone, kidney, and other organs and is typically associated with recurrent genetic abnormalities. IL-6 signaling via the IL-6 signal transducer GP130 has been implicated as an important driver of MM pathogenesis. Here, we demonstrated that ectopic expression of constitutively active GP130 (L-GP130) in a murine retroviral transduction-transplantation model induces rapid MM development of high penetrance. L-GP130–expressing mice recapitulated all of the characteristics of human disease, including monoclonal gammopathy, BM infiltration with lytic bone lesions, and protein deposition in the kidney. Moreover, the disease was easily transplantable and allowed different therapeutic options to be evaluated in vitro and in vivo. Using this model, we determined that GP130 signaling collaborated with MYC to induce MM and was responsible and sufficient for directing the plasma cell phenotype. Accordingly, we identified Myc aberrations in the L-GP130 MM model. Evaluation of human MM samples revealed recurrent activation of STAT3, a downstream target of GP130 signaling. Together, our results indicate that deregulated GP130 activity contributes to MM pathogenesis and that pathways downstream of GP130 activity have potential as therapeutic targets in MM.

Authors

Tobias Dechow, Sabine Steidle, Katharina S. Götze, Martina Rudelius, Kerstin Behnke, Konstanze Pechloff, Susanne Kratzat, Lars Bullinger, Falko Fend, Valeria Soberon, Nadya Mitova, Zhoulei Li, Markus Thaler, Jan Bauer, Elke Pietschmann, Corinna Albers, Rebekka Grundler, Marc Schmidt-Supprian, Jürgen Ruland, Christian Peschel, Justus Duyster, Stefan Rose-John, Florian Bassermann, Ulrich Keller

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Figure 3

L-GP130–induced myeloma is characterized by gammopathy with kidney damage, BM infiltration with lytic bone lesions, and high expression of antiapoptotic proteins.

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L-GP130–induced myeloma is characterized by gammopathy with kidney damag...
(A) BM and spleen histology (H&E staining). Scale bars: 50 μm. (B) X-ray analysis of a control femur (left) and a L-GP130 graft recipient femur (middle) with a lytic bone lesion (white arrow). Right: Histology from the lytic bone lesion (H&E). Scale bars: 5 mm (left and middle); 50 μm (right). (C) Serum electrophoresis from representative GP130 and L-GP130 graft recipients, indicative of monoclonal gammopathy. (D) Ig levels, assessed by ELISA, from diseased L-GP130 graft recipient mice and age-matched control GP130 graft recipients. Shown is the geometric mean. *P < 0.05. (E) Representative H&E staining of cast nephropathy in the tubuli (white arrows) of an L-GP130 graft recipient mouse. Original magnification, ×400. (F) Ex vivo–cultured plasma cells from the BM of primary L-GP130 graft recipients (Pappenheim staining). Original magnification, ×63. (G) Immunoblot analysis for expression of the indicated proteins was performed on mesenterial tumors and spleen control cells. Pre, precancerous spleen.