Jun Sukegawa

The yes-related cellular gene lyn encodes a possible tyrosine kinase similar to p56lck.

With v-yes DNA as the probe, a human cDNA library made from placental RNA was screened under relaxed conditions, and DNA clones derived from a novel genetic locus, termed lyn, were obtained. Nucleotide sequencing revealed that lyn could encode a novel tyrosine kinase that was very similar to mouse T-lymphocyte-specific tyrosine kinase p56lck and the v-yes protein as well as to the gene products of v-fgr and v-src. Northern hybridization analysis revealed that a 3.2-kilobase lyn mRNA was expressed in a variety of tissues of the human fetus. The pattern of lyn mRNA expression was different from those of related genes, such as yes and syn. Hybridization analysis of DNA from sorted chromosomes showed that the lyn gene is located on human chromosome 8 q13-qter.

Characterization of cDNA clones for the human c-yes gene

Three c-yes cDNA clones were obtained from poly(A)+ RNA of human embryo fibroblasts. Sequence analysis of the clones showed that they contained inserts corresponding to nearly full-length human c-yes mRNA, which could encode a polypeptide of 543 amino acids with a relative molecular weight (Mr) of 60,801. The predicted amino acid sequence of the protein has no apparent membrane-spanning region or suspected ligand binding domain and closely resembles pp60c-src. Comparison of the sequences of c-yes and v-yes revealed that the v-yes gene contains most of the c-yes coding sequence except the region encoding its extreme carboxyl terminus. The region missing from the v-yes protein is the part that is highly conserved in cellular gene products of the protein-tyrosine kinase family.

Distribution of c-yes-1 gene product in various cells and tissues

The distribution and degree of expression of c-yes-1 gene product in a variety of cell lines, human foetal tissues, and adult normal and malignant tissues were examined using immunohistochemical techniques. A murine monoclonal antibody 1B7 raised against a fusion protein consisting of 64 amino acid residues from the N-terminus of the c-yes-1 gene product and bacterial phosphate-binding protein (PBP) was used. At the ultrastructural level, the c-yes-1 gene product recognised by 1B7 was localised in the cytoplasm. Moderate to strong expression of the c-yes-1 gene product was observed in HT10-80 (fibrosarcoma). IN-1 (malignant lymphoma), Marcus (glioblastoma), TIG-1-20 (foetal skin fibroblast), proximal tubules of foetal and adult kidney, one of four breast cancers, one of four colorectal cancers, 14 of 33 head and neck cancers, 13 of 24 renal cancers, three of 19 lung cancers and one of seven stomach cancers. These results were further confirmed by Western blotting. Histological types showing moderate to strong expression of the c-yes-1 gene product were renal cell carcinoma (13/24) and squamous cell carcinoma (15/38). The fact that the c-yes-1 gene product is expressed preferentially in renal cell carcinoma and squamous cell carcinoma may indicate that it plays an important role.

Oncogenic potential and normal function of the proto-oncogenes encoding protein-tyrosine kinases.

A number of protein-tyrosine kinases, including the cellular counterpart of the src gene product of Rous sarcoma virus, have been identified in mammalian cells and are suggested to be important in growth and/or differentiation of cells. Approximately half of the protein-tyrosine kinases are integral membrane proteins and are, in many cases, receptors for polypeptide growth factors (13). They are the receptors for epidermal growth factor (EGF), insulin, insulin-like growth factor-1, platelet-derived growth factors, and colony-stimulating factor-1. Cellular oncogenes such as met, erbB-2/neu, trk, and ret are also included in this group.