HARUSHIGE NAKATSUKASA, KOUZOU ASHIDA, TOSHIHIRO HIGASHI, SOUHEI OHGUCHI, SO TSUBOI, NAOKI HINO, KAZUHIRO NOUSO, YOSHIAKI URABE, NOBUYUKI KINUGASA, KEIGO YOSHIDA, SHUJI UEMATSU, MASAHIKO ISHIZAKI, YOSHIYUKI KOBAYASHI, AND TAKAO TSUJI Hepatocellular carcinoma (HCC) is one of the most prevaThe cellular distribution of tissue inhibitor of melent malignancies in Japan and China, and frequently occurs talloproteinases (TIMP)-1, and TIMP-2 was studied by in hepatitis B or C virus-related chronic hepatitis or cirrhousing in situ hybridization in surgically removed husis. In particular, cirrhosis has been regarded as a high-risk man hepatocellular carcinomas (HCCs) and cholandisease state for developing HCCs. A unique feature of HCC giocellular carcinomas (CCCs). The purpose of this development is the occurrence of the tumor in fibrotic or cirstudy was to characterize the potential involvement rhotic liver that contains abundant extracellular matrices of TIMPs in the development of HCCs and CCCs. All (ECMs). Therefore, the capacity of HCC to degrade the surHCCs and CCCs expressed TIMPs. The distribution rounding ECMs may be an important trait for growth, invaof transcripts for TIMPs in the tumors was mostly sion, and metastasis. homogeneous. Expression of TIMPs in cancer cellsThe characteristic features of malignant tumors are the was more intense than that in the surrounding noninvasion to cross tissue boundaries and the metastasis to cancerous liver (either, cirrhosis, chronic hepatitis, distant organs. Many steps that occur during cancer invasion or normal), and expression of TIMP-1 was stronger and metastasis require specific interactions between maligthan that of TIMP-2. Expression of TIMPs varied nant cells and the ECMs, 1 particularly in regard to HCC and among HCC nodules, but there was no obvious associcirrhotic liver. Multiple humoral factors are involved in this ation between the expression level of TIMPs and difprocess: matrix metalloproteinases (MMPs), tissue inhibitor ferentiation stages or invasiveness of the HCCs. Tranof metalloproteinases (TIMPs), and various cytokines. An imscripts for TIMPs were clearly demonstrated in the balance between TIMPs and MMPs may be an important metastatic HCC nodules in the lung. Expression of factor in tumor invasion and metastasis. TIMP-1 in CCC was strong, and small nodules of CCC Three members of the TIMP family have been described. 2 were recognized in the liver. ImmunohistochemicalEach TIMP is the product of a separate gene. TIMP-1 is a 28-study for TIMP-1 revealed a consistent staining of the kd glycoprotein, whereas TIMP-2 is a 21-kd nonglycosylated TIMP-1 protein with the transcripts. In the perituprotein. Between TIMP-1 and TIMP-2, there is 37% amino moral histologically normal liver, which was not inacid identity and 65.6% overall homology. 3 TIMP-3 has been fected with either hepatitis B or C virus, expression identified as a 21-kd protein and shares an amino acid seof TIMP-1 was found in various cell types, but that of quence homology of 40% with TIMP-1 and 45%...
The effects of human hepatocyte growth factor (hHGF), a potent mitogen for rat and human hepatocytes in primary culture, on proliferation of human hepatoma and hepatoblastoma cells were examined. Out of five cell lines; HLE, HuH-6 clone 5, HuH-7, PLC/PRF/5, and Hep G2, only HuH-6 Clone 5 cells were stimulated by recombinant hHGF. Both native and recombinant hHGFs caused dose-dependent increases in cell number and DNA synthesis of cells. This stimulation was strongly inhibited by anti-hHGF monoclonal antibody.
The cellular distribution of tissue inhibitor of metalloproteinases (TIMP)-1, and TIMP-2 was studied by using in situ hybridization in surgically removed human hepatocellular carcinomas (HCCs) and cholangiocellular carcinomas (CCCs). The purpose of this study was to characterize the protein involvement of TIMPs in the development of HCCs and CCCs. All HCCs and CCCs expressed TIMPs. The distribution of transcripts for TIMPs in the tumors was mostly homogeneous. Expression of TIMP in cancer cells was more intense than that in the surrounding noncancerous liver (either, cirrhosis, chronic hepatitis, or normal), and expression of TIMP-1 was stronger than that of TIMP-2. Expression of TIMPs varied among HCC nodules, but there was no obvious association between the expression level of TIMPs and differentiation stages or invasiveness of the HCCs. Transcripts for TIMPs were clearly demonstrated in the metastatic HCC nodules in the lung. Expression of TIMP-1 CCC was strong, and small nodules of CCC were recognized in the liver. Immunohistochemical study for TIMP-1 revealed a consistent staining of the TIMP protein with the transcripts. In the peritumoral histologically normal liver, which was not infected with either hepatitis B or C virus, expression of TIMP-1 was found in various cell types, but that of TIMP-2 was weak. Expression of TIMP-1 in hepatocytes revealed clear zonal distribution. These results suggest that TIMPs may act on modulating the matrix/tumor interaction and may play an important role in growth and invasion of HCCs and CCCs. Expression of TIMP-1 can be a marker of HCC metastasis to the lung, and also that of the extent of CCC invasion. Furthermore, the consistent expression of TIMPs in many cell types of the noncancerous liver suggests some unknown functional role that must be clarified.
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