Plasmin: Its Role in the Extracellular Processing of Progalanin in Tumor Tissue

Hiroyuki      Yamamoto; Shinta      Ben; Shun      Saitoh; Kengo      Kamata; Kazuaki      Iguchi; Minoru      Hoshino

doi:10.2174/092986611797642751

Abstract

Galanin is a neuropeptide that is widely distributed in the central and peripheral nervous systems. In a previous study, we showed that a small cell lung carcinoma (SCLC) cell line, SBC-3A, released progalanin but not galanin, and that progalanin was then converted to galanin(1-20), the active form. Because the galanin(1-20) had undergone hydrolysis at Arg and Lys residues, the protease concerned was surmised to have a trypsin-like activity. The present study was performed to identify the trypsin-like protease which had previously been found to activate progalanin in this tumor tissue. The protease was isolated using chromatography and electrophoresis, and identified in tumor extracts from SBC-3A tumor- bearing mice; the major protease was found to be plasmin. We next confirmed that extracellular processing of progalanin occurs in SCLC tumor tissue (tumors produced by the implantation of SBC-3A cells into mice), and in two types of breast tumor tissue (obtained by implantation into mice of BT-549 and MDA-MB-436 cells). In cell culture, processed forms of progalanin were undetectable in SBC-3A, BT-549 or MDA-MB-436 cells. Conversely, gel filtration chromatography analysis of tumor extracts from SBC-3A, BT-549 and MDA-MB-436-bearing mice, revealed that galanin-like immunoreactivity (galanin-LI) in these tumor extracts was due to the presence of progalanin (14 kDa) and galanin(1-20) (2 kDa). Moreover, trypsin-like protease activity was elevated, and plasmin was expressed abundantly in SBC-3A, BT-549 and MDA-MB-436 tumors in mice. In addition, tranexamic acid, a plasmin inhibitor, inhibited progalanin conversion to galanin(1-20). The present study revealed that plasmin was present in tumor tissue, and that it was responsible for processing progalanin to galanin(1-20) in the extracellular environment.

Keywords: Neuropeptide, Extracellular processing, Galanin, tumor, Propeptide, urogenital tract, PGMP, GALR1, proprotein convertases, SCLC, Cell lines, FBS, D-MEM, SLCNeuropeptide, Extracellular processing, Galanin, tumor, Propeptide, urogenital tract, PGMP, GALR1, proprotein convertases, SCLC, Cell lines, FBS, D-MEM, SLC