Microarray analysis of metastasis-associated gene expression profiling in a murine model of thyroid carcinoma pulmonary metastasis: identification of S100A4 (Mts1) gene overexpression as a poor prognostic marker for thyroid carcinoma.
Tumor suppressor gene MTS1/p16 (cyclin-dependent kinase-4 inhibitor) and a putative tumor metastasis suppressor gene nm23 (nucleoside diphosphate A kinase) have been identified in a variety of human tumors but have not been well studied in mesenchymal neoplasms.
The data demonstrate an effect of Mts1 on both myosin structure and function, and suggest a route through which Mts1 affects motility as well as metastasis.
Tumors derived from mts1 transfectants revealed local invasiveness into surrounding muscle and adipose tissues and metastasized to regional lymph nodes and lungs, characteristics which are rarely observed with parental MCF-7 cells.
The transcription of the mts1 gene putatively involved in the control of tumor metastasis was studied in three human lymphoma cell lines: MOLT-4, CEM and Jurkat.
In addition, the expression of the metastasis-associated gene 18A2/mts1 as well as the tissue inhibitor of metalloproteinases-2 (TIMP-2) was analysed in each of the glioma-derived cell lines.
Here we describe the data obtained on the detection, cloning, structure and transcription control of the mts1 gene, that encodes metastasin 1, a protein which seems to play an important role in the control of metastasis in mouse tumors.