Functional Analysis of the Adrenomedullin Pathway in Malignant Pleural Mesothelioma

authors

  • Greillier Laurent
  • Tounsi Asma
  • Berenguer-Daize Caroline
  • Dussault Nadège
  • Delfino Christine
  • Benyahia Zohra
  • Cayol Mylène
  • Mabrouk Kamel
  • Garcia Stephane
  • Martin Pierre-Marie
  • Barlesi Fabrice
  • Ouafik L'Houcine

keywords

  • Mesothelioma
  • Lymphangiogenesis
  • In-vitro
  • Pancreatic-cancer
  • Neoangiogenesis- and lymphangiogenesis-associated tumors
  • Adrenomedullin
  • Angiogenesis
  • Apoptosis
  • Endothelial growth-factor
  • Glioblastoma cell-lines
  • Invasion
  • Receptor-like receptor
  • Tumor-cells
  • Tumor growth
  • Vivo

abstract

Introduction: Malignant pleural mesothelioma (MPM) grows aggressively within the thoracic cavity and has a very low cure rate, thus highlighting the need for identification of new therapeutic targets. Adrenomedullin (AM) is a multifunctional peptide that is highly expressed in several tumors and plays an important role in angiogenesis and tumor growth after binding to its receptors, calcitonin receptor-like receptor/receptor activity-modifying protein 2 (CLR/RAMP2) and calcitonin receptor-like receptor/receptor activity-modifying protein 3 (CLR/RAMP3). Methods: Real time quantitative reverse transcriptase polymerase chain reaction (RT-PCR) was used to assess the steady-state levels of AM, CLR, RAMP2 and RAMP3 messenger RNA (mRNA) transcripts in normal pleural tissue (n=5) and MPM (n=24). The expression of these candidates at protein level was revealed by immunohistochemistry. We also characterized the expression and regulation by hypoxia of AM system in MPM cell lines and MeT-5A cells. In vitro and in vivo studies were performed to determine the functional role of AM system in MPM. Results: In this study, real-time quantitative reverse transcriptase polymerase chain reaction showed twofold to 10 fold higher levels of AM messenger RNA in MPM tissue than in normal pleural tissue. The MPM cell lines H2452, H2052, and human mesothelioma cell line MSTO-211H showed a significant increase in expression of AM messenger RNA under hypoxic conditions. Our results also show that AM stimulates cell proliferation in vitro through the Raf1 protooncogene, serine/threonine kinase (CRAF)/Mitogen-activated protein kinase kinase 1 (MEIC)/Extracellular regulated MAPKinase (ERK) pathway. Furthermore, the proliferation, migration, and invasion of MPM cells were decreased after treatment with anti-AM (alpha AM) and anti-AM receptor antibodies, thus indicating that MPM cells are regulated by AM. The action of AM was specific and mediated by CLR/RAMP2 and CLR/RAMP3 receptors. In vivo, aAM and AM(22-52) antagonist therapies blocked angiogenesis and induced apoptosis in MSTO-211H xenografts, thereby resulting in tumor regression. Histologic examination of tumors treated with AM(22-52) and aAM antibody showed evidence of disruption of tumor vasculature with depletion of vascular endothelial cells and a significant decrease in lymphatic endothelial cells. Conclusions: Our findings highlight the importance of the AM pathway in growth of MPM and in neovascularization by supplying and amplifying signals that are essential for pathologic neoangiogenesis and lymphangiogenesis.

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