Establishment and characterization of new mammary adenocarcinoma cell lines derived from double transgenic mice expressing GFP and neu oncogene.

A new murine cell line, named GFPneu, was established from a mammary adenocarcinoma arising in double transgenic MMTVneu x CMV-GFP mice. Breast tumours develop in 100% of females after 2 months latency, as a result of the over-expression of the activated rat neu oncogene in the mammary glands. All tissues, and in particular the breast tumours, express the GFP protein. This cell line was tumorigenic when inoculated into nude mice and the derived tumours showed the same histological features as the primaries from which they were isolated. Their histopathology reproduces many characteristics of human breast adenocarcinomas, in particular their ability to metastasize. The GFP marker allows us to visualize the presence of lung metastases in fresh tissues immediately, to confirm the histopathology. From a lung metastatic fluorescent nodule, we derived a further cell line, named MTP-GFP, which we also characterized. These two cell lines could be useful to study the role played by the neu oncogene in the maintenance of the transformed phenotype, in the metastatic process, to test novel therapeutic strategies to inhibit primary tumour growth and to observe the generation of distant metastases.

Combined antiestrogen, antiangiogenic and anti-invasion therapy inhibits primary and metastatic tumor growth in the MMTVneu model of breast cancer.

Treatments available to women with locally advanced breast cancer are unsatisfactory, since most patients succumb to metastatic spread. Therefore, there is a need to devise novel therapeutic combinations that effectively inhibit metastatization and to test them in animal models of breast cancer showing strong similarities with their human counterpart, including the ability to give rise to metastases. With these considerations in mind, tamoxifen (TAM), 4-hydrotamoxifen (4-HT) or liposome-complexed DNA constructs coding for antiangiogenic/anti-invasion proteins (angiostatin, TIMP-2, IFN-alpha(1), sFLT-1) were individually administered to MMTVneu transgenic mice. Significant inhibition of primary tumor growth was obtained with TAM (40% inhibition, P=0.049), angiostatin (85% inhibition, P=0.001) and TIMP-2 (60% inhibition, P=0.015). No lung metastasis was observed in any of these treated mice at 5 months, compared with a rate of 70% in control groups. These observations were the basis for designing a combined treatment with all these compounds. The association of angiostatin, TIMP-2 and TAM was greatly effective at the primary tumor level (90% inhibition, P=0.01). Moreover, all the mice treated with this association were metastasis free at a time point (6 months) in which seven out of nine control mice were either dead from disseminated cancer or showed lung metastasis. This combined therapy could become an important component of anticancer therapy in humans.