A model of spontaneous lung metastases visualised in fresh host tissue by green fluorescent protein expression.

The authors describe a model of spontaneous lung metastases in nude mice using green fluorescent protein (GFP) expression as a marker. The human lung cell line H460M was transfected with the humanised GFP-S65T cDNA and a stable fluorescent cell line termed H460M(GFP) was obtained. The latter kept in vitro biological features when compared to the parental H460M cell line, which suggests that GFP-expression does not influence H460M(GFP) cell line behaviour. In order to evaluate their metastatic potential and to determine the number of spontaneous metastases, H460M(GFP) cells were subcutaneously inoculated into nude mice. Animals were sacrificed at time intervals and tissues (lung, liver, spleen, node, and kidney) were analysed under fluorescence microscopy. These experiments demonstrated that 2 weeks after subcutaneous inoculation, 75% of animals exhibited fluorescent spontaneous lung micrometastases. From the third week, 100% of animals exhibited an increasing number of metastases (10-16) which were only localised in the lungs. At the end of the study, the number of lung metastases had dramatically increased (42-400 at 7 weeks). Although these metastases were mainly localised in lung, a few mice had an invasion of neighbouring lymph nodes. The H460M(GFP) cell line allowed to follow the seeding and development of spontaneous lung metastases and may be considered a simple and powerful tool to study each step of the metastasis to screen new anticancer drugs.

Assembly and secretion of recombinant chains of human inter-alpha-trypsin inhibitor in COS-7 cells.

The inter-alpha-trypsin inhibitor (ITI) family is a group of structurally related plasma serine protease inhibitors. The ITI family members consist of combinations of mature heavy chains named HC1, HC2, HC3 linked to bikunin (a Kunitz-type protease inhibitor) by a covalent interchain protein-glycosaminoglycan-protein cross-link. The biosynthesis of the ITI family members takes place in the liver. In this report we examine the biosynthesis of these proteins using transient transfected COS-7 cells expressing one or more combinations of human ITI chains. The processing and secretion of alpha1-microglobulin and bikunin does not require the ITI heavy chains. A small proportion of the H3 chain seems to be processed into the HC3 form in the absence of the other ITI chains. In contrast, the processing of H2 into HC2 needs the presence of the L chain. The COS-7 cells are able to link the HC2 and HC3 heavy chains with bikunin by means of a chondroitin sulfate bridge, and thus to generate 260-kDa ITI-like proteins as well as pre-alpha-trypsin inhibitor (PalphaI). However, the maturation of the Hl chain into HC1 and the assembly of HC1 inside multichain proteins may take place according to a mechanism which differs from that of the H2 and H3 chains. These results indicate that the assembly of the constituent chains of the ITI-like proteins and PalphaI is not dependent on the liver machinery.