Human colon carcinoma, fibrosarcoma and leukemia cell lines produce tumor‐associated trypsinogen

Koivunen, Erkki; Saksela, Olli; Itkonen, Outi; Osman, Sirpa; Huhtala, Marja-Liisa; Stenman, Ulf‐Hǎkan

doi:10.1002/ijc.2910470419

Cited by 95 publications

(82 citation statements)

References 32 publications

(20 reference statements)

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“…Elsewhere, potential roles of PAR-2 are less obvious. However, trypsin-like enzymes and pancreatic secretory trypsin inhibitors are present in non-pancreatic tissues, tumours and tumour cell lines, where PAR-2 may regulate growth [19][20][21][22].…”

Section: Expression Of Par-2 In Tissues and Cell Linesmentioning

confidence: 99%

Molecular cloning, expression and potential functions of the human proteinase-activated receptor-2

Böhm

Kong

Brὂmme

et al. 1996

Biochemical Journal

417

391

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We used PCR to amplify proteinase activated receptor-2 (PAR-2) from human kidney cDNA. The open reading frame comprised 1191 bp and encoded a protein of 397 residues with 83% identity with mouse PAR-2. In KNRK cells (a line of kirsten murine sarcoma virus-transformed rat kidney epithelial cells) transfected with this cDNA, trypsin and activating peptide (AP) corresponding to the tethered ligand exposed by trypsin cleavage (SLIGKV-NH2) induced a prompt increase in cytosolic calcium ion concentration ([Ca2+]i). Human PAR-2 (hPAR-2) resided both on the plasma membrane and in the Golgi apparatus. hPAR-2 mRNA was highly expressed in human pancreas, kidney, colon, liver and small intestine, and by A549 lung and SW480 colon adenocarcinoma cells. Hybridization in situ revealed high expression in intestinal epithelial cells throughout the gut. Trypsin and AP stimulated an increase in [Ca2+]i in a rat intestinal epithelial cell line (hBRIE 380) and stimulated amylase secretion in isolated pancreatic acini. In A549 cells, which also responded to trypsin and AP with mobilization of cytosolic Ca2+, AP inhibited colony formation. Thus PAR-2 may serve as a trypsin sensor in the gut. Its expression by cells and tissues not normally exposed to pancreatic trypsin suggests that other proteases could serve as physiological activators.

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Section: Expression Of Par-2 In Tissues and Cell Linesmentioning

confidence: 99%

Molecular cloning, expression and potential functions of the human proteinase-activated receptor-2

Böhm

Kong

Brὂmme

et al. 1996

Biochemical Journal

417

391

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“…Concentration (µg/l) P < 0.005 P = 0.01 P < 0.0001 1991b;Koshikawa et al, 1994). The main tumour-associated isoenzyme, trypsin-2, activates pro-urokinase-type plasminogen activator (pro-uPA) (Koivunen et al, 1989) and in vitro it is the most efficient activator of the 92 kDa gelatinase B (MMP-9) known thus far (Sorsa et al, 1997).…”

Section: Localization Of Trypsinogen and Mmp Immunoreactivity In Ovarmentioning

confidence: 99%

“…Recently, extrapancreatic expression of trypsinogen has been observed in several human malignancies such as ovarian (Koivunen et al, 1989;Hirahara et al, 1995) and gastric cancer (Fujimura et al, 1998) and in cholangiocarcinoma (Terada et al, 1995). Several tumour cell lines also express trypsinogen (Koivunen et al, 1991b;Koshikawa et al, 1994). In human ovarian and gastric cancer, the trypsin expression is associated with the malignant potential of the tumours Hirahara et al, 1998;Miyata et al, 1998;Kato et al, 1998).…”

mentioning

confidence: 99%

The levels of trypsinogen isoenzymes in ovarian tumour cyst fluids are associated with promatrix metalloproteinase-9 but not promatrix metalloproteinase-2 activation

et al. 2001

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Summary Proteolysis mediated by matrix metalloproteinases (MMPs) and serine proteinases is associated with cancer invasion and metastasis. Activation of latent proMMPs, and especially the proforms of the type IV collagen degrading gelatinases A and B (proMMP-2 and proMMP-9), is thought to be a critical step in this process. We have recently found that human tumour-associated trypsin-2 is a potent activator of proMMP-9 and it also activates proMMP-2 in vitro. Trypsinogen, MMP-2, and MMP-9 are expressed in ovarian cancer. To elucidate the function of trypsin in vivo, we studied whether high concentrations of trypsinogen-1, trypsinogen-2, their α 1 -proteinase inhibitor (API) complexes, and tumour-associated trypsin inhibitor (TATI) are associated with proMMP-2 and proMMP-9 activation in ovarian tumour cyst fluids. Zymography and immunofluorometric analysis of 61 cyst fluids showed a significant association between high trypsin concentrations and the activation of MMP-9 (P = 0.003-0.05). In contrast, the trypsin concentrations were inversely associated with the activation of MMP-2 (P = 0.01-0.02). Immunohistochemical analysis of ovarian tumour tissue demonstrated expression of trypsinogen-2 and TATI in the secretory epithelium. MMP-2 was detected both in stromal and epithelial cells whereas MMP-9 was detected in neutrophils and macrophage-like cells in stromal and epithelial areas. These results suggest that trypsin may play a role in the regulation of the MMP-dependent proteolysis associated with invasion and metastasis of ovarian cancer. 1363-1371 © 2001 Cancer Research Campaign doi: 10.1054/ bjoc.2001.1806, available online at http://www.idealibrary.com on http://www.bjcancer.com aminoterminal domain for the expression of activity (Tryggvason et al, 1987). The urokinase type plasminogen activator (uPA) -plasmin system (Mazzieri et al, 1997) and membrane type MMP-1 (MT1-MMP, MMP-14) (Sato et al, 1994;Tokuraku et al, 1995) have been suggested to represent physiological mechanisms for the control of MMP-2 and MMP-9 activity. Recent studies have shown that human trypsin-2 is more potent than plasmin and other serine proteinases in activating several MMPs, including MMP-2 and MMP-9 (Sorsa et al, 1997), and that downregulation of trypsin-2 expression and activity in colon cancer cells is associated with decreased proMMP-9 activation (Lukkonen et al, 2000).In the present study we investigated the involvement of trypsin in the activation of MMP-2 and MMP-9 in vivo by studying whether the concentrations of trypsins, trypsin-API-complexes, and TATI are associated with activation of proMMP-2 and proMMP-9 in ovarian tumour cyst fluid. Furthermore, we studied the immunohistochemical expression and localization of trypsinogen-2, TATI, MMP-2, and MMP-9 in ovarian tumours. MATERIALS AND METHODS Clinical specimensCyst fluid samples (n = 61) were obtained from 58 patients (age range 13-79 years) undergoing surgery for removal of the tumour during 1986-1998 at Helsinki University Central Hospital. Of the tumours, 41 were benign...

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“…By contrast, EGF-BP demonstrated a 2-fold greater catalytic efficiency than the related proteinase NGF-7 (Table 1) and over a 10-fold greater catalytic efficiency than mast cell tryptase (2.4x 103 M-l.s -1, [9]). Comparison of EGF-BP with other scu-PA activating enzymes such as plasma kallikrein, tumorassociated trypsin, and cathepsins B and L, is difficult since formal kinetic parameters (kc,t, K~) have not been determined for these enzymes [4][5][6][7]. Since all these proteinases activate scu-PA less efficiently than plasmin, they most likely function in the initiation of the u-PA-dependent cascade and not in the amplification phase.…”

Section: Activation Of Scu-pa By Egf-bpmentioning

confidence: 99%

“…Since plasmin is present in biological fluids as an inactive zymogen (plasminogen), a critical question remains regarding initiation of u-PA-dependent cell surface proteolysis. Several proteinases other than plasmin activate scu-PA, including plasma kallikrein, tumor-associated trypsin, cathepsin B, cathepsin L, nerve growth factor-), (NGF-7), mast cell tryptase, and human T cell-associated serine proteinase [4][5][6][7][8][9][10]. Although these proteinases activate scu-PA less efficiently than plasmin, they may initiate the u-PA dependent proteinase cascade which can then undergo self-amplification.…”

Section: ! Introductionmentioning

confidence: 99%

Epidermal growth factor‐binding protein activates soluble and receptor‐bound single chain urokinase‐type plasminogen activator

Wolf¹,

Brown²

1995

FEBS Letters

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Human colon carcinoma, fibrosarcoma and leukemia cell lines produce tumor‐associated trypsinogen

Cited by 95 publications

References 32 publications

Molecular cloning, expression and potential functions of the human proteinase-activated receptor-2

Molecular cloning, expression and potential functions of the human proteinase-activated receptor-2

The levels of trypsinogen isoenzymes in ovarian tumour cyst fluids are associated with promatrix metalloproteinase-9 but not promatrix metalloproteinase-2 activation

Epidermal growth factor‐binding protein activates soluble and receptor‐bound single chain urokinase‐type plasminogen activator

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