Lukanidin Em

The metastasis associated protein S100A4: role in tumour progression and metastasis

The metastasis associated protein S100A4 is a small calcium binding protein that is associated with metastatic tumors and appears to be a molecular marker for clinical prognosis. Below we discuss its biochemical properties and possible cellular functions in metastasis including cell motility, invasion, apoptosis, angiogenesis and differentiation.

The mts1 gene and control of tumor metastasis.

The main stream of biology today is the analysis of the molecular mechanisms of major biological phenomena through studies of the genes governing these processes and their protein products. An example is the problem of tumor metastasis which is extremely important both theoretically and practically. 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. In particular, the experiments on tumor cell transfection with constructions containing either a sense or antisense mts1 sequence under a strong promoter/enhancer element show the direct dependence of the metastatic phenotype on the expression of the mts1 gene at least in some systems. Gene mts1 encodes a protein belonging to the family of Ca(2+)-binding proteins and may be involved in the control of cell motility in different types of cells, such as macrophages and T-lymphocytes. The relationship between mts1 and other genes up- and down-regulated in metastatic cells is discussed.

Molecular cloning and characterization of the mouse tag7 gene encoding a novel cytokine.

Cloning of the mouse tag7 gene encoding a novel cytokine is described. The Tag7 protein consists of 182 amino acids. Genomic organization of the tag7 gene and its promoter region remind those of the genes of the tumor necrosis factor locus, although the tag7 gene is not linked to this locus. The gene is located on chromosome 7 at the area that corresponds to band 7A3, which has genetic linkage with lupus-like disease in mouse models. tag7 transcription is essential for lymphoid organs. It is also detected in certain areas of lungs, brain, and intestine and in some tumors. Tag7 protein is detectable in both cell-associated and soluble forms. The soluble form of Tag7 triggers apoptosis in mouse L929 cells in vitro and does not involve NF-κB activation. The relationship between Tag7 and tumor necrosis factor family of ligands is discussed.

Cancer predisposition in mice deficient for the metastasis-associated Mts1(S100A4) gene

Metastasis-promoting Mts1(S100A4) protein belongs to the S100 family of Ca2+-binding proteins. A mouse strain with a germ-line inactivation of the S100A4 gene was generated. The mice were viable and did not display developmental abnormalities in the postnatal period. However, an abnormal sex ratio was observed in the litters with the S100A4−/− genotype, raising the possibility of a certain level of embryonic lethality in this strain. In all, 10% of 10–14-month-old S100A4-null animals developed tumors. This is a characteristic feature of mouse strains with inactivated tumor suppressor genes. Spontaneous tumors of S100A4−/− mice were p53 positive. Recently, we have shown that S100A4 interacts with p53 tumor suppressor protein and induces apoptosis. We proposed that impairment of this interaction could affect the apoptosis-promoting function of p53 that is involved in its tumor suppressor activity. The frequency of apoptosis in the spleen of S100A4−/− animals after whole-body γ-irradiation was reduced compared to the wild-type animals. The same was true for the transcriptional activation of the p53 target genes – waf/p21/cip1 and bax. Taken together, these observations indicate that spontaneous tumors in S100A4−/− mice are a result of functional destabilization of p53 tumor suppressor gene.

Studies on dissociation and reconstitution of nuclear 30-S ribonucleoprotein particles containing pre-mRNA

Treatment of nuclear 30-S ribonucleoprotein (RNP) particles containing pre-mRNA (precursor of mRNA) with 2 M NaCl leads to dissociation of RNA and protein. The protein component is present either as an aggregate with a sedimentation coefficient close to 30 S (a free informofer) or as a slowly sedimenting material (monomers or oligomers of informatin). Most of the informofers and slowly sedimenting material are in the equilibrium state. Iodination or aging of the 30-S particles stabilizes informofers. Lowering of NaCl concentration in the mixture of RNA with informofers or informatin subunits leads to reconstitution of RNP particles. In both cases, the particles formed have a sedimentation coefficient of about 30 S and a buoyant density equal to 1.4-1.41 g/cm3 but their response to pancreatic RNAase (EC 3.1.27.5) and high salt treatment is very different. Both the particles reconstituted from RNA and informofers and the original particles are very sensitive to pancreatic RNAase and after high salt treatment free informofers are formed. In contrast, the RNA of the particles reconstituted from slowly sedimenting material is much more protected against pancreatic RNAase action. These particles are also rather stable to high salt treatment. Thus, only if a protein in the form of an informofer aggregate is used, faithful reconstitution takes place. The data obtained are discussed in terms of the structure of the nuclear ribonucleoprotein particles containing precursor of messenger RNA.

Tumor Progression and Metastasis

In this chapter, the genes involved in the control of tumor progression and tumor metastasis are described. The present state of the problem is briefly overviewed in the first part. As a great number of papers appeared in the field, we do not provide the chapter with a detailed list of references, but send a reader to very extensive recent reviews containing practically all important references [1].