Haematologica (Jun 2020)

Halting the vicious cycle within the multiple myeloma ecosystem: blocking JAM-A on bone marrow endothelial cells restores angiogenic homeostasis and suppresses tumor progression

  • Antonio G. Solimando,
  • Matteo C. Da Vià,
  • Patrizia Leone,
  • Paola Borrelli,
  • Giorgio A. Croci,
  • Paula Tabares,
  • Andreas Brandl,
  • Giuseppe Di Lernia,
  • Francesco P. Bianchi,
  • Silvio Tafuri,
  • Torsten Steinbrunn,
  • Alessandra Balduini,
  • Assunta Melaccio,
  • Simona De Summa,
  • Antonella Argentiero,
  • Hilka Rauert-Wunderlich,
  • Maria A. Frassanito,
  • Paolo Ditonno,
  • Erik Henke,
  • Wolfram Klapper,
  • Roberto Ria,
  • Carolina Terragna,
  • Leo Rasche,
  • Andreas Rosenwald,
  • K. Martin Kortüm,
  • Michele Cavo,
  • Domenico Ribatti,
  • Vito Racanelli,
  • Hermann Einsele,
  • Angelo Vacca,
  • Andreas Beilhack

DOI
https://doi.org/10.3324/haematol.2019.239913
Journal volume & issue
Vol. 106, no. 7

Abstract

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Interactions of malignant multiple myeloma (MM) plasma cells (MM-cells) with the microenvironment control MM-cell growth, survival, drug-resistance and dissemination. As in MM microvascular density increases in the bone marrow (BM), we investigated whether BM MM endothelial cells (MMECs) control disease progression via the junctional adhesion molecule A (JAM-A). Membrane and cytoplasmic JAM-A levels were upregulated in MMECs in 111 newly diagnosed (NDMM) and 201 relapsed-refractory (RRMM) patients compared to monoclonal gammopathy of undetermined significance (MGUS) and healthy controls. Elevated membrane expression of JAM-A on MMECs predicted poor clinical outcome. Mechanistically, addition of recombinant JAM-A to MMECs increased angiogenesis whereas its inhibition impaired angiogenesis and MM growth in 2D and 3D in vitro cell culture and chorioallantoic membrane-assays. To corroborate these findings, we treated MM bearing mice with JAM-A blocking mAb and demonstrated impaired MM progression corresponding to decreased MM-related vascularity. These findings support JAM-A as an important mediator of MM progression through facilitating MM-associated angiogenesis. Collectively, elevated JAM-A expression on bone marrow endothelial cells is an independent prognostic factor for patient survival in both NDMM and RRMM. Blocking JAM-A restricts angiogenesis in vitro, in embrio and in vivo and represents a suitable druggable molecule to halt neoangiogenesis and MM progression.