Intermediate filaments are a major component of the cytoskeleton of eukaryotic cells. Although there appear to be at least five distinct classes of these filaments, cells of mesenchymal origin and most cells in culture contain the intermediate filament composed of the subunit protein vimentin. Vimentin exists in a nonphosphorylated as well as in a phosphorylated form, and there is increased phosphorylation of this protein when the filament undergoes marked redistribution in various cells. The role of phosphorylation on assembly-disassembly and organization of the vimentin filament has remained obscure. We report here a stable and purified system allowing biochemical examination of vimentin filament assembly and disassembly. Using this in vitro system, we carried out stoichiometrical phosphorylations, using purified protein kinases. We obtained evidence for site-specific, phosphorylation-dependent disassembly of the vimentin filament.
The c-ret proto-oncogene encodes a transmembrane tyrosine kinase that contains a cadherin-like structure in the extracellular domain (9,10,19,22,23). Its expression was detected at high levels in the peripheral nervous systems such as the enteric and autonomic nervous systems as well as in the excretory system during embryogenesis (1a, 15, 25). In addition, it is expressed preferentially in human tumors such as neuroblastoma, pheochromocytoma, and thyroid medullary carcinoma (8,18,24). Since the peripheral nervous systems and tumors mentioned above derive from neural crest cells, the physiological function of the c-ret proto-oncogene appears related to their normal growth and differentiation.Recent studies revealed that germ line mutations in the c-ret proto-oncogene are associated with the development of four different neural crest disorders (neurocristopathies): multiple endocrine neoplasia (MEN) 2A and 2B, familial medullary thyroid carcinoma, and Hirschsprung's disease (2,4,5,7,13,16). MEN 2A and MEN 2B are autosomal dominant cancer syndromes characterized by the development of medullary thyroid carcinoma and pheochromocytoma. MEN 2B is distinguished from MEN 2A by a more complex phenotype including mucosal neuroma, hyperganglionosis of the gastrointestinal tract, and marfanoid habitus. MEN 2A and familial medullary thyroid carcinoma mutations always involve cysteine residues present in the extracellular domain of the c-ret proto-oncogene (4, 12, 13). These cysteine residues are conserved in both human and mouse c-ret proto-oncogenes, suggesting that they are important for normal conformation of the c-Ret protein (9,22,23). On the other hand, a single point mutation in exon 16 of the tyrosine kinase domain has been found in 95% of patients with MEN 2B (6). This difference of the mutation sites may account for different phenotypes of MEN 2A and MEN 2B. Alternatively, it is possible that the diverse phenotypes observed in MEN 2A and MEN 2B are due to mutations in other modifier genes.Hirschsprung's disease is a developmental disorder of the enteric nervous system, inherited in an autosomal dominant manner with incomplete penetrance and variant expressivity. Several mutations have been found in different domains of the c-ret proto-oncogene, including the extracellular and tyrosine kinase domains (5, 16). Since mice homozygous for c-ret disruption showed phenotypes similar to Hirschsprung's disease (20), it is likely that the abnormalities observed in Hirschsprung's disease are caused by inactivation of the c-Ret function. On the other hand, MEN 2A and MEN 2B mutations might represent gain-of-function mutations.To elucidate the mechanism of development of MEN 2A syndrome, we introduced MEN 2A mutations in the extracellular domain of the c-ret proto-oncogene and analyzed their functions. Biochemical analysis of the Ret protein with MEN 2A mutations indicated that it is activated by ligand-independent dimerization on the cell surface. In addition, we showed that a mutation in a putative Ca 2ϩ -binding site of the ...
It has been suggested that a heparin-binding growth factor, midkine (MK), plays an important role incarcinogenesis because of its frequent overexpression in various malignant tumours. To clarify whether or not MK contributes to theearly stage of carcinogenesis, we examined the status of MK mRNA in 20 adenomas with moderate- and severe-grade dysplasia, 28carcinomas and 28 corresponding normal tissues, by means of Northern blotting. The MK expression level was significantly moreelevated in adenomas than in normal tissues P < 0.001, unpaired Student's t -test). A difference wasalso observed between carcinomas and the corresponding normal tissues P < 0.04, paired Student's t -test). Moreover, MK immunostaining was positive in the adenomas with moderate- and severe-grade dysplasia and in the carcinomas,but not in mild-grade dysplasia or in normal tissues. These findings were in line with those on Western blotting. In three patientswith both adenomas with moderate- or severe-grade dysplasia and carcinomas, elevated MK expression was observed in the neoplasticlesions. This is the first report of the association of elevated MK expression with the early stage of carcinogenesis in humans. © 1999 Cancer Research Campaign
Three human gastric cancer cell lines, NU-GC-2, NU-GC-3 and NU-GC-4 were established in vitro from the cancer tissues obtained from 3 patients during surgery. The pathological findings of the gastric tumors of these cases revealed poorly differentiated adenocarcinoma (and partial signet-ring cell carcinoma in the case of NU-GC-4). NU-GC-2 and NU-GC-4 were originally obtained from metastatic paragastric lymph nodes and NU-GC-3 was obtained from a metastatic tumor in the brachial muscle. The cells of NU-GC-2 and NU-GC-3 are polygonal in shape and grow as a monolayer sheet. NU-GC-4 cells, however, are mainly spherical in shape with a few free floating cells. Electron microscopy revealed epithelial characteristics in all 3 cell lines. The average doubling time of NU-GC-2 was 36.1 hours, that of NU-GC-3 was 38.2 hours and that of NU-GC-4 was 29.9 hours. The modal chromosome number of NU-GC-2 was 62, that of NU-GC-3 was 58 and those of NU-GC-4 grown in in vitro and in vivo were 52-54 and 53, respectively. In vitro and in vivo lines of NU-GC-4 were established from the same tumor. These two cell lines are quite similar in morphology, but slightly different in karyotype. The in vitro sensitivity to anticancer agents was highest in NU-GC-4 and lowest in NU-GC-2. Of the anticancer agents, mitomycin C and adriamycin were most effective on the cells of all 3 cell lines.
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