Tumour induction by activated abl involves tyrosine phosphorylation of the product of the cbl oncogene.

v-cbl is the transforming gene of a murine retrovirus which induces pre-B cell lymphomas and myelogenous leukaemias. It encodes 40 kDa of a gag fusion protein which is localized in the cytoplasm and nucleus of infected cells. The c-cbl oncogene encodes a 120 kDa cytoplasmic protein and its overexpression is not associated with tumorigenesis. The c-cbl sequence has shown that v-cbl was generated by a truncation that removed 60% of the C-terminus. In this study, we carried out experiments to identify the position within cbl where the transition occurs between non-tumorigenic and tumorigenic forms. These experiments focused attention on a region of 17 amino acids which is deleted from cbl in the 70Z/3 pre-B lymphoma due to a splice acceptor site mutation. This mutation activates cbl's tumorigenic potential and induces its tyrosine phosphorylation. We also show that the expression of the v-abl and bcr-abl oncogenes results in the induction of cbl tyrosine phosphorylation, and that abl and cbl associate in vivo. These findings demonstrate that tyrosine-phosphorylated cbl promotes tumorigenesis and that cbl is a downstream target of the bcr-abl and v-abl kinases.     

Nuclear localization of a new c-cbl related protein, CARP 90, during in vivo thymic apoptosis in mice.

This study investigates the involvement of the c-cbl protooncogene in thymocyte apoptosis occurring in vivo after hydrocortisone treatment. In the thymus of untreated mice, a few medullary and cortical thymocytes expressed p120cbl, mainly in the cytoplasm. In the cortex, their number and distribution resemble that of apoptotic cells evidenced by TUNEL staining. The expression of Cbl is rapidly increased when apoptosis is triggered by hydrocortisone. This Cbl-specific immunostaining was detected in the nucleus and is due to a Cbl-related 90 kDa protein (CARP 90). These results show that a c-cbl product could localize in the nucleus and suggest that it could be involved as a regulator of thymic apoptosis.     

Production of a truncated human c-myc protein which binds to DNA

Two kinds of truncated human c-myc proteins were produced in Escherichia coli. The human c-myc gene is composed of three exons, exons 2 and 3 having coding capacity for a protein of 439 amino acids. 252 N-terminal amino acids are encoded by exon 2, the C-terminal 187 amino acids being encoded by exon 3. One of the proteins (p42) produced in E. coli corresponds to 342 amino acids from the 98th Gln to the C-terminus, plus 21 amino acids derived from the H-ras gene at the N-terminus. The other (p23) corresponds to 155 amino acids from the 98th Gln to the 252nd Ser, plus five amino acids (Gly-Gly-Thr-Arg-Arg) at the C-terminus, plus 21 amino acids from the H-ras gene at the N-terminus. The p23 protein was produced by using cDNA in which a frame shift occurred at the boundary between exons 2 and 3. We investigated the DNA-binding activity in p42 and p23 proteins. DNA-cellulose column chromatography showed that p42 binds to DNA, whereas p23 does not. This DNA-binding activity of p42 was inhibited by antiserum prepared against p42 but not by antiserum against p23. This indicates that the DNA-binding activity of c-myc protein is localized in the portion encoded by exon 3.     

Compartmentalization of Spo11p in vegetative cells of yeast Saccharomyces cerevisiae

Double-stranded DNA breaks are currently thought to initiate homologous DNA recombination during meiosis. These breaks are mediated by several proteins, the key protein is Spol1p. Spo11 proteins being encoded by the highly conserved orthologs of SPO11 are present in most eukaryotes ranging from plants to man and are structurally similar to the subunit A of the archaea topoisomerase VI. The SPO11 of S. cerevisiae is currently known to be expressed during prophase I. It encodes a topoisomerase II that is apparently active as a dimer. Neither its localization in the native cells nor its nuclear localisation signals have been described in the literature. We report the expression of the coding region of SPO11 and its truncated variants C-terminally tagged by the egfp reporter in yeast. As judged by the EGFP fluorescence, the Spo11 p-EGFP fusion was localized in vegetative yeast nuclei whereas Spo11pdelta-EGFP lacking 25 N-terminal amino acids of Spollp was localized in cytoplasm. Nineteen N-terminal amino acids of Spo11p fused to EGFP made some reporter to be localized in the nucleus. Thus, we conclude that N-terminal part of Spo11p is a nuclear localization signal that is not specific for prophase I and is used to import proteins in vegetative yeast cells.     

Production of a truncated human c-myc protein which binds to DNA

Two kinds of truncated human c-myc proteins were produced in Escherichia coli. The human c-myc gene is composed of three exons, exons 2 and 3 having coding capacity for a protein of 439 amino acids. 252 N-terminal amino acids are encoded by exon 2, the C-terminal 187 amino acids being encoded by exon 3. One of the proteins (p42) produced in E. coli corresponds to 342 amino acids from the 98th Gln to the C-terminus, plus 21 amino acids derived from the H-ras gene at the N-terminus. The other (p23) corresponds to 155 amino acids from the 98th Gln to the 252nd Ser, plus five amino acids (Gly-Gly-Thr-Arg-Arg) at the C-terminus, plus 21 amino acids from the H-ras gene at the N-terminus. The p23 protein was produced by using cDNA in which a frame shift occurred at the boundary between exons 2 and 3. We investigated the DNA-binding activity in p42 and p23 proteins. DNA-cellulose column chromatography showed that p42 binds to DNA, whereas p23 does not. This DNA-binding activity of p42 was inhibited by antiserum prepared against p42 but not by antiserum against p23. This indicates that the DNA-binding activity of c-myc protein is localized in the portion encoded by exon 3.     

The cdc2 kinase is a nuclear protein that is essential for mitosis in mammalian cells

A homolog of the fission yeast cdc2-encoded protein kinase (p34) is a component of M phase promoting factor in Xenopus oocytes. The homologous kinase in human HeLa cells is maximally active during mitosis, suggesting a mitotic role in mammalian somatic cells. This has been directly investigated by microinjection of anti-p34 antibodies into serum-stimulated rat fibroblasts. DNA synthesis was unaffected but cell division was quantitatively blocked in injected cells. Injection of antibodies against p13suc1, a component of the p34 kinase complex, did not block mitosis but caused mitotic abnormalities resulting in cells containing multiple micronuclei in the subsequent interphase. p34 localized in the nucleus during interphase. During mitosis, a fraction tightly associated with centrosomes. p13 was more evenly distributed between the nucleus and cytoplasm. These observations demonstrate that cdc2 is a nuclear and centrosomal protein that is required for mitosis in mammalian cells.     

A poxvirus protein with a RING finger motif binds zinc and localizes in virus factories.

Shope fibroma virus (SFV) is a Leporipoxvirus closely related to the highly virulent myxoma virus. The DNA sequence of the BamHI N fragment of the SFV DNA genome was determined, and the single complete open reading frame (N1R) was characterized. The protein encoded by the N1R gene was found to contain a C3HC4 RING finger motif at the C terminus. This C3HC4 motif is the hallmark of a growing family of proteins, many of which are involved in regulation of gene expression, DNA repair, or DNA recombination. Complete homologs of the SFV N1R gene were also detected in variola virus, myxoma virus, and vaccinia virus strain IHD-W. In contrast, the gene is completely absent from vaccinia virus strain Copenhagen, and in vaccinia virus strain WR, the open reading frame is truncated prior to the zinc binding domain because of an 11-bp deletion, thus producing a frameshift and premature stop codon. Recombinant N1R protein from SFV was expressed in Escherichia coli and shown to bind zinc in a specific manner. Using fluorescence microscopy to visualize a peptide epitope tag (derived from ICP27 of herpes simplex virus) fused to the N terminus of the poxvirus proteins, we observed that the N1R protein of SFV and its homologs in myxoma virus and vaccinia virus IHD-W were localized primarily to the virus factories in the cytoplasm of infected cells and, to a lesser degree, the host cell nucleus. The truncated protein of vaccinia virus strain WR failed to localize in this manner but instead was observed throughout the cytoplasm.     

Inhibition of DNA synthesis by TGF-beta 1 coincides with inhibition of phosphorylation and cytoplasmic translocation of p53 protein.

Immunostaining demonstrated that p53 protein was localized in the cytoplasm of growing MCF-7 cells and in the nuclei of cells that were growth arrested by serum starvation. Serum stimulation of the arrested cells induced marked increases in DNA synthesis and p53 phosphorylation, and translocation of the protein from the nucleus to the cytoplasm at 20 h after the stimulation. This increase in the DNA synthesis that was significantly inhibited by TGF-beta 1 was coincident with the inhibition of phosphorylation and cytoplasmic translocation of the p53 protein.     

KDM3A全长及截短质粒构建及其在细胞中的定位探究

赖氨酸去甲基化酶3A(lysine demethylase 3A,KDM3A)是组蛋白去甲基化酶家族成员之一,通过特异性对组蛋白H3K9甲基化进行去甲基化的作用调控基因转录。目前研究证实KDM3A在肝癌、雌激素受体(estrogen receptorα,ERα)阳性乳腺癌及前列腺癌等肿瘤中发挥促癌作用,但其具体作用机制仍有待更深层次的研究。为深入解析KDM3A在各种肿瘤中的作用及其分子机制,本研究利用分子生物学方法构建了KDM3A基因的全长和截短基因表达质粒,酶切鉴定及测序证实KDM3A全长及截短基因的表达质粒构建成功。在此基础上,再将构建成功的上述多种表达质粒分别转染到HEK293细胞和MCF7细胞中,进行Western blotting和免疫荧光共聚焦实验,进一步对各重组表达质粒在培养的哺乳动物细胞中的蛋白表达及蛋白细胞定位进行初步探究。Western blotting结果显示KDM3A全长基因表达的蛋白约147 kD,其他KDM3A截短基因表达的蛋白均对应其特异性的蛋白条带;免疫荧光共聚焦实验结果显示KDM3A全长质粒以及pN1、pN2、p N3、pΔ截短质粒表达的蛋白分布在细胞核,pC1、pC2截短质粒表达的蛋白分布在细胞质,pC3截短质粒表达的蛋白分别分布于细胞核与细胞质。本实验为后续深入研究KDM3A在肿瘤中的作用及分子机制提供了实验基础。     

Crp79p,like Mex67p,is an auxiliary mRNA export factor in Schizosaccharomyces pombe

The export of mRNA from the nucleus to the cytoplasm involves interactions of proteins with mRNA and the nuclear pore complex. We isolated Crp79p, a novel mRNA export factor from the same synthetic lethal screen that led to the identification of spMex67p in Schizosaccharomyces pombe. Crp79p is a 710-amino-acid-long protein that contains three RNA recognition motif domains in tandem and a distinct C-terminus. Fused to green fluorescent protein (GFP), Crp79p localizes to the cytoplasm. Like Mex67p, Crp79-GFP binds poly(A)(+) RNA in vivo, shuttles between the nucleus and the cytoplasm, and contains a nuclear export activity at the C-terminus that is Crm1p-independent. All of these properties are essential for Crp79p to promote mRNA export. Crp79p import into the nucleus depends on the Ran system. A domain of spMex67p previously identified as having a nuclear export activity can functionally substitute for the nuclear export activity at the C-terminus of Crp79p. Although both Crp79p and spMex67p function to export mRNA, Crp79p does not substitute for all of spMex67p functions and probably is not a functional homologue of spMex67p. We propose that Crp79p is a nonessential mRNA export carrier in S. pombe.     

Association of FcgammaRII with low-density detergent-resistant membranes is important for cross-linking-dependent initiation of the tyrosine phosphorylation pathway and superoxide generation.

IgG immune complexes trigger humoral immune responses by cross-linking of FcRs for IgG (FcgammaRs). In the present study, we investigated role of lipid rafts, glycolipid- and cholesterol-rich membrane microdomains, in the FcgammaR-mediated responses. In retinoic acid-differentiated HL-60 cells, cross-linking of FcgammaRs resulted in a marked increase in the tyrosine phosphorylation of FcgammaRIIa, p58(lyn), and p120(c-cbl), which was inhibited by a specific inhibitor of Src family protein tyrosine kinases. After cross-linking, FcgammaRs and tyrosine-phosphorylated proteins including p120(c-cbl) were found in the low-density detergent-resistant membrane (DRM) fractions isolated by sucrose-density gradient ultracentrifugation. The association of FcgammaRs as well as p120(c-cbl) with DRMs did not depend on the tyrosine phosphorylation. When endogenous cholesterol was reduced with methyl-beta-cyclodextrin, the cross-linking did not induce the association of FcgammaRs as well as p120(c-cbl) with DRMs. In addition, although the physical association between FcgammaRIIa and p58(lyn) was not impaired, the cross-linking did not induce the tyrosine phosphorylation. In human neutrophils, superoxide generation induced by opsonized zymosan or chemoattractant fMLP was not affected or increased, respectively, after the methyl-beta-cyclodextrin treatment, but the superoxide generation induced by the insoluble immune complex via FcgammaRII was markedly reduced. Accordingly, we conclude that the cross-linking-dependent association of FcgammaRII to lipid rafts is important for the activation of FcgammaRII-associated Src family protein tyrosine kinases to initiate the tyrosine phosphorylation cascade leading to superoxide generation.     

The cytostatic function of c-Abl is controlled by multiple nuclear localization signals and requires the p53 and Rb tumor suppressor gene products.

c-Abl is a non-receptor protein-tyrosine kinase lacking a clear physiological role. A clue to its normal function is suggested by overexpression of Abl in fibroblasts, which leads to inhibition of cell growth. This effect requires tyrosine kinase activity and the Abl C-terminus. c-Abl is localized to the cell nucleus, where it can bind DNA, and interacts with the retinoblastoma protein, a potential mediator of the growth-inhibitory effect. Nuclear localization of Abl can be directed by a pentalysine nuclear localization signal in the Abl C-terminus. Here, we have identified two additional basic motifs in the Abl C-terminus, either of which can function independently of the pentalysine signal to localize Abl to the nucleus. Using a quantitative transfection assay, we show that both c-Abl and transforming Abl proteins inhibit entry into S phase and this effect is absolutely dependent on nuclear localization. Further, we demonstrate that the Abl cytostatic effect requires both the Rb and p53 tumor suppressor gene products. These results indicate that Abl inhibits cell proliferation by interacting with central elements of the cell cycle control apparatus in the nucleus, and suggest a direct connection between p53 and Rb in this growth-inhibitory pathway.     

Site-directed mutagenesis of the gag-myc gene of avian myelocytomatosis virus 29: biological activity and intracellular localization of structurally altered proteins.

Transfection of chicken embryo cells with pMC29, a plasmid vector containing the sequences for the acute transforming virus MC29, and a cloned transformation-defective helper virus, p delta Mst, resulted in morphological transformation, the synthesis of P110gag-myc (the product of the gag-myc oncogene), and the production of infectious virus. MC29 mutants bearing site-directed deletions within the gag-specific sequences or within the middle portion of the myc sequences efficiently induced transformation of chicken embryo cells in culture. However, variants containing deletions of sequences in the amino-terminal half or carboxy-terminal portion of the myc gene were defective for transformation. The gag-myc proteins encoded by these variants efficiently localized to the cell nucleus. Premature termination mutants were isolated which encoded gag-myc proteins lacking the carboxy-terminal 185 residues; these truncated proteins localized to both the nucleus and the cytoplasm. Deletion of as few as 11 residues within the middle of the myc-specific sequences (residues Ile-239 to Glu-249) significantly reduced the efficiency of chicken hematopoietic cell transformation.     

BCL3 encodes a nuclear protein which can alter the subcellular location of NF-kappa B proteins.

BCL3 is a candidate proto-oncogene involved in the recurring translocation t(14;19) found in some patients with chronic lymphocytic leukemia. BCL3 protein acts as an I kappa B in that it can specifically inhibit the DNA binding of NF-kappa B factors. Here, we demonstrate that BCL3 is predominantly a nuclear protein and provide evidence that its N terminus is necessary to direct the protein into the nucleus. In contrast to I kappa B alpha (MAD3), BCL3 does not cause NF-kappa B p50 to be retained in the cytoplasm; instead, in cotransfection assays, it alters the subnuclear localization of p50. The two proteins colocalize, suggesting that they interact in vivo. Further immunofluorescence experiments showed that a mutant p50, lacking a nuclear localization signal and restricted to the cytoplasm, is brought into the nucleus in the presence of BCL3. Correspondingly, a wild-type p50 directs into the nucleus a truncated BCL3, which, when transfected alone, is found in the cytoplasm. We tested whether BCL3 could overcome the cytoplasmic retention of p50 by I kappa B alpha. Results from triple cotransfection experiments with BCL3, I kappa B alpha, and p50 implied that BCL3 can successfully compete with I kappa B alpha and bring p50 into the nucleus; thus, localization of NF-kappa B factors may be affected by differential expression of I kappa B proteins. These novel properties of BCL3 protein further establish BCL3 as a distinctive member of the I kappa B family.     

Cloning of a complementary DNA encoding an 80 kilodalton nuclear cap binding protein.

It has been shown that the monomethylated cap structure plays important roles in nuclear events. The cap structure has been implicated in the enhancement of pre-mRNA splicing. More recently, this structure has also been suggested to facilitate RNA transport from the nucleus to the cytoplasm. We have previously identified and purified an 80kD Nuclear Cap Binding Protein (NCBP) from a HeLa cell nuclear extract, which could possibly mediate these nuclear activities. In this report, we describe cloning of complementary DNA (cDNA) encoding NCBP. The partial protein sequences of NCBP were determined, and the full-length cDNA of NCBP was isolated from HeLa cDNA libraries. This cDNA encoded an open reading frame of 790 amino acids with a calculated molecular mass of 91,734 daltons, which contained most of the determined protein sequences. However, the protein sequence had no significant homology to any known proteins. Transfection experiments demonstrated that the epitope-tagged NCBP, transiently expressed in HeLa cells, was localized exclusively in the nucleoplasm. Similar experiments using a truncated NCBP cDNA indicated that this nuclear localization activity is conferred by the N-terminal 70 amino-acid region.