PDZ Motifs in PTP-BL and RIL Bind to Internal Protein Segments in the LIM Domain Protein RIL

The specificity of protein–protein interactions in cellular signaling cascades is dependent on the sequence and intramolecular location of distinct amino acid motifs. We used the two-hybrid interaction trap to identify proteins that can associate with the PDZ motif-rich segment in the protein tyrosine phosphatase PTP-BL. A specific interaction was found with the Lin-11, Isl-1, Mec-3 (LIM) domain containing protein RIL. More detailed analysis demonstrated that the binding specificity resides in the second and fourth PDZ motif of PTP-BL and the LIM domain in RIL. Immunohistochemistry on various mouse tissues revealed a submembranous colocalization of PTP-BL and RIL in epithelial cells. Remarkably, there is also an N-terminal PDZ motif in RIL itself that can bind to the RIL-LIM domain. We demonstrate here that the RIL-LIM domain can be phosphorylated on tyrosine in vitro and in vivo and can be dephosphorylated in vitro by the PTPase domain of PTP-BL. Our data point to the presence of a double PDZ-binding interface on the RIL-LIM domain and suggest tyrosine phosphorylation as a regulatory mechanism for LIM-PDZ associations in the assembly of multiprotein complexes. These findings are in line with an important role of PDZ-mediated interactions in the shaping and organization of submembranous microenvironments of polarized cells.     

Expression of the receptor-linked protein tyrosine phosphatase LAR: proteolytic cleavage and shedding of the CAM-like extracellular region.

The human transmembrane molecule LAR is a protein tyrosine phosphatase (PTPase) with a cell adhesion molecule-like extracellular receptor region. The structure of LAR hinted at its involvement in the regulation of tyrosine phosphorylation through cell-cell or cell-matrix interactions. We show here that LAR is expressed on the cell surface as a complex of two non-covalently associated subunits derived from a proprotein. The LAR E-subunit contains the cell adhesion molecule-like receptor region, while the LAR P-subunit contains a short segment of the extracellular region, the transmembrane peptide and the cytoplasmic PTPase domains. Proprotein processing occurs intracellularly. Analysis of LAR mutants suggested that cleavage occurs in the LAR extracellular region at a paired basic amino acid site by a subtilisin-like endoprotease. A single amino acid substitution at this site blocked LAR proprotein cleavage. The LAR E-subunit is shed during cell growth, suggesting that LAR receptor shedding may be a mechanism for regulating PTPase function. The use of immunohistochemistry techniques on human tissues demonstrated the expression of LAR by various cell lineages, including epithelial cells, smooth muscle cells and cardiac myocytes. The LAR gene is mapped to chromosome 1, region p32-33, which contains candidate tumor suppressor genes.     

Immunolocalization of protein 4.1B/DAL-1 during neoplastic transformation of mouse and human intestinal epithelium

Recently, we have reported that the protein 4.1B immunolocalization occurred only in matured columnar epithelial cells of normal rat intestines. This finding suggested that protein 4.1B expression could be examined for a possible change during neoplastic transformation of the intestinal mucosa. In the present study, we first present the distribution of mouse protein 4.1B in normal intestinal epithelial cells and tumor cells using the adenomatous polyposis coli (Apc) mutant mouse model. A low level of protein 4.1B expression coincided with the phenotypic transition to carcinoma. To examine the protein 4.1B expression in human intestinal mucosa, we used another antibody against an isoform of the human protein 4.1B, DAL-1 (differentially expressed adenocarcinoma of the lung). Human DAL-1 was also expressed in matured epithelial cells in human colons, with a definite expression gradient along the crypt axis. In human colorectal cancer cells, however, DAL-1 expression was not detected. These results suggest that mouse protein 4.1B and human DAL-1 might have a striking analogy of functions, which may be integrally involved in epithelial proliferation. We propose that loss of protein 4.1B/DAL-1 expression might be a marker of intestinal tumors, indicative of a tumor suppressor function in the intestinal mucosa.     

An uPA cleavable conjugate of a recombinant αvβ3 targeting toxin and its bioactivity

Melittin is the predominant component of bee venom with cell membrane-disrupting capability. To release melittin on cell surfaces to destroy tumor cell membranes, we designed a recombinant targeting toxin with an uPA cleavable link. It contains A Disintegrin-like domain of ADAM 15 to selectively deliver fusion protein to the surface of the tumor cells expressing integrin αvβ3, a toxin domain consisting of four repeats of N-terminal 22 amino acids of melittin, and an uPA cleavable link in between. The fusion protein named as ADAM-Conj-Mel was successfully expressed in Escherichia coli and can be cleaved by uPA as well as conditioned medium of SW1990 tumor cells. In vitro, ADAM-Conj-Mel efficiently inhibits proliferation of human melanoma (C32) tumor cells. In vivo, it reduces B16 tumor volume by approximately 80%. Our data suggested that ADAM-Conj-Mel is a protein with potential in clinical development for cancer therapy.     

Differential protein expression on the cell surface of colorectal cancer cells associated to tumor metastasis

Progression to metastasis is the critical point in colorectal cancer (CRC) survival. However, the proteome associated to CRC metastasis is very poorly understood at the moment. In this study, we used stable isotope labeling by amino acids in cell culture to compare two CRC cell lines: KM12C and KM12SM, representing poorly versus highly metastatic potential, to find and quantify the differences in protein expression, mostly at the cell surface level. After biotinylation followed by affinity purification, membrane proteins were separated by SDS‐PAGE and analyzed using nanoflow LC‐ESI‐LTQ. A total of 291 membrane and membrane‐associated proteins were identified with a p value<0.01, from which 60 proteins were found to be differentially expressed by more than 1.5‐fold. We identified a number of cell signaling, CDs, integrins and other cell adhesion molecules (cadherin 17, junction plakoglobin (JUP)) among the most deregulated proteins. They were validated by Western blot, confocal microscopy and flow cytometry analysis. Immunohistochemical analysis of paired tumoral samples confirmed that these differentially expressed proteins were also altered in human tumoral tissues. A good correlation with a major abundance in late tumor stages was observed for JUP and 17‐β‐hydroxysteroid dehydrogenase type 8 (HSD17B8). Moreover, the combined increase in JUP, occludin and F11 receptor expression together with cadherin 17 expression could suggest a reversion to a more epithelial phenotype in highly metastatic cells. Relevant changes were observed also at the metabolic level in the pentose phosphate pathway and several amino acid transporters. In summary, the identified proteins provide us with a better understanding of the events involved in liver colonization and CRC metastasis.     

mMaspin: the mouse homolog of a human tumor suppressor gene inhibits mammary tumor invasion and motility.

BACKGROUND: The human maspin gene encodes a protein in the serine proteinase inhibitor (serpin) family with tumor-suppressing functions in cell culture and in nude mice. In order to examine the role of maspin in an intact mammal, we cloned and sequenced the cDNA of mouse maspin. The recombinant protein was produced and its activity in cell culture was assessed. MATERIALS AND METHODS: Mouse maspin (mMaspin) was cloned by screening a mouse mammary gland cDNA library with the human maspin cDNA probe. Northern blot analysis was used to examine the expression patterns in mouse tissues, mammary epithelial cells, and carcinomas. Recombinant mMaspin protein was produced in E. coli. Invasion and motility assays were used to assess the biological function of mMaspin. RESULTS: mMaspin is 89% homologous with human maspin at the amino acid level. Like its human homolog, mMaspin is expressed in normal mouse mammary epithelial cells and down-regulated in mouse breast tumor cell lines. The expression is altered at different developmental stages in mammary gland. Addition of the recombinant mMaspin protein to mouse tumor cells was shown to inhibit invasion in a dose-dependent manner. As with the human protein, recombinant mMaspin protein also inhibited mouse mammary tumor motility. Deletion in the putative mMaspin reactive site loop (RSL) region resulted in the loss of its inhibitory functions. CONCLUSIONS: mMaspin is the mouse homolog of a human tumor suppressor gene. The expression of mMaspin is down-regulated in tumor cells and is altered at different developmental stages of mammary gland. mMaspin has inhibitory properties similar to those of human maspin in cell culture, suggesting that the homologous proteins play similar physiological roles in vivo.     

cDNA cloning of a novel cell adhesion protein expressed in human squamous carcinoma cells

A novel protein (SQM1 protein) present in human squamous epithelial cells has been found to be involved in cell adhesion in squamous epithelial cells, endothelial cells and extracellular matrix proteins. The corresponding cDNA that encodes a 135-residue polypeptide has been isolated. Sequence analysis indicates that the encoded polypeptide is distinct yet related to the beta subunit of integrins. A new sequence motif consisting of a heptadic repeat of positively-charged residues present in the polypeptide has been identified and is proposed to be important in protein-protein interaction. These results suggest that SQM1 protein, a new cell adhesion molecule expressed in squamous epithelial cells, may play an important role in tumor metastasis.     

Identification and characterization of a long isoform of human IFT80, IFT80-L

Intraflagellar transport (IFT) proteins are evolutionarily conserved throughout all ciliated organisms and are essential for the assembly and maintenance of cilia. IFT80, a component of the IFT complex, was linked recently to a human developmental disorder, Jeune asphyxiating thoracic dystrophy. We report here identification and characterization of a human IFT80 long isoform (namely IFT80-L), the carboxyl terminus of which shares the protein sequence of IFT80. Sequence analysis indicates that IFT80-L is likely an evolutionarily merged product of genes IFT80 and TRIM59, a RING finger gene we reported previously. Expression analysis of IFT80-L demonstrates that IFT80-L is ubiquitously expressed in humans. By using the nerve growth factor-induced cell differentiation assays, we reveal that IFT80-L is highly expressed in the rapidly proliferating cells but not in differentiated cells, which withdraw from the cell cycle. Our findings suggest that IFT80-L, like other IFT proteins, plays an important role in cell proliferation and differentiation.     

Strategy for comprehensive identification of human N‐myristoylated proteins using an insect cell‐free protein synthesis system

To establish a strategy for the comprehensive identification of human N‐myristoylated proteins, the susceptibility of human cDNA clones to protein N‐myristoylation was evaluated by metabolic labeling and MS analyses of proteins expressed in an insect cell‐free protein synthesis system. One‐hundred‐and‐forty‐one cDNA clones with N‐terminal Met‐Gly motifs were selected as potential candidates from ～2000 Kazusa ORFeome project human cDNA clones, and their susceptibility to protein N‐myristoylation was evaluated using fusion proteins, in which the N‐terminal ten amino acid residues were fused to an epitope‐tagged model protein. As a result, the products of 29 out of 141 cDNA clones were found to be effectively N‐myristoylated. The metabolic labeling experiments both in an insect cell‐free protein synthesis system and in the transfected COS‐1 cells using full‐length cDNA revealed that 27 out of 29 proteins were in fact N‐myristoylated. Database searches with these 27 cDNA clones revealed that 18 out of 27 proteins are novel N‐myristoylated proteins that have not been reported previously to be N‐myristoylated, indicating that this strategy is useful for the comprehensive identification of human N‐myristoylated proteins from human cDNA resources.     

Genomic organization of a tumor growth inhibitor geneING1

ING1, a supposed tumor suppressor gene, codes for a p33 protein involved in cell proliferation control and regulation of apoptosis. A GenBank search revealed two groups of expressed sequence tags corresponding toING1 mRNA forms. The 3′ exon 2 is the same in both forms whereas the 5′ exons 1a and 1b differ.ING1-containing cosmids were found in the LA13NC05 library. EachING1 exon and flanking introns were sequenced using the cosmid 80H9 template. In the genome, the exons are arranged as 1b- 1a-2. RT-PCR showed that both mRNA forms are simultaneously present in cell lines. The deduced amino acid sequence for 1b-2 proved similar to those of human proteins ING1L (2e⁻⁷²) and ING1L-7 (6e⁻²⁴) and several proteins of lower eukaryotes having the ING-specific N-terminal domain and the zinc-binding domain PHD. Hence the ING-like proteins can be regarded as a separate evolutionarily old family. A peculiarity of theING1 structure is the CpG islands surrounding each of its three exons, suggesting regulation of its expression throughde novo methylation. The data on the fine structure ofING1 and its mRNA forms permit mutation screening and assessment of its methylation status in human tumor specimens.     

YopH of Yersinia pseudotuberculosis interrupts early phosphotyrosine signalling associated with phagocytosis

The PTPase YopH of Yersinia is essential to the ability of these bacteria to block phagocytosis. Wild-type Yersinia pseudotuberculosis, but not the yopH mutant strain, resisted phagocytosis by J774 cells. Ingestion of a yopH mutant was dependent on tyrosine kinase activity. Transcomplementation with wild-type yopH restored the anti-phagocytic effect, whereas introduction of the gene encoding the catalytically inactive yopH_C403A was without effect. The PTPase inhibitor orthovanadate impaired the anti-phagocytic effect of the wild-type strain, further demonstrating the importance of bacteria-derived PTPase activity for this event. The ability to resist phagocytosis indicates that the effect of the bacterium is immediately exerted when it becomes associated with the phagocyte. Within 30 s after the onset of infection, wild-type Y. pseudotuberculosis caused a YopH-dependent dephosphorylation of phosphotyrosine proteins in J774 cells. Furthermore, interaction of the cells with phagocytosable strains led to a rapid and transient increase in tyrosine phosphorylation of paxillin and some other proteins, an event dependent on the presence of the bacterial surface-located protein invasin. Co-infection with the phagocytosable strain and the wild-type strain abolished the induction of tyrosine phosphorylation. Taken together, the present findings demonstrate an immediate YopH-mediated dephosphorylation of macrophage phosphotyrosine proteins, suggesting that this PTPase acts by preventing early phagocytosis-linked signalling in the phagocyte.     

Porcine liver low Mr phosphotyrosine protein phosphatase: The amino acid sequence

Porcine low M_r phosphotyrosine protein phosphatase has been purified and the complete amino acid sequence has been determined. Both enzymic and chemical cleavages are used to obtain protein fragments. FAB mass spectrometry and enzymic subdigestion followed by Edman degradation have been used to determine the structure of the NH₂-terminal acylated tryptic peptide. The enzyme consists of 157 amino acid residues, is acetylated at the NH₂-terminus, and has arginine as COOH-terminal residue. It shows kinetic parameters very similar to other known low Mr PTPases. This PTPase is strongly inhibited by pyridoxal 5-phosphate (K=21M) like the low Mr PTPases from bovine liver, rat liver (AcP2 isoenzyme), and human erythrocyte (Bslow isoenzyme). The comparison of the 40–73 sequence with the corresponding sequence of other low Mr PTPases from different sources demonstrates that this isoform is highly homologous to the isoforms mentioned above, and shows a lower homology degree with respect to rat AcP1 and human Bfast isoforms. A classification of low M_r PTPase isoforms based on the type-specific sequence and on the sensitivity to pyridoxal 5-phosphate inhibition has been proposed.Abbreviations used PTPase phosphotyrosine protein phosphatase - TFA trifluoroacetic acid - SDS sodium dodecylsulfate - T tryptic peptides - SP endoproteinase Glu-C peptides - FAB fast atom bombardment - Ac acetyl - HPLC high-performance liquid chromatography - OPA o-phtaldialdehyde - PMSF phenylmethylsulfonyl fluoride - CD45 leukocyte common-antigen PTPase - LAR leukocyte-antigen-related PTPase - PTP IB human placental PTPase     

Metabolic labeling of human primary retinal pigment epithelial cells for accurate comparative proteomics

Metabolic labeling was evaluated, using both 13C6-Arg and 13C6, 15N2-Lys amino acids, for a primary human retinal pigment epithelial cell (hRPE) culture prepared from an autopsy eye of an 81 year old donor. Satisfactory incorporation (>90%) was achieved with both stable isotope labeled amino acids after four passages (roughly 7 population doublings). The degree of incorporation was found to be efficient with both amino acids as well as in different proteins. The presence of 10% whole serum in the culture medium did not interfere with the incorporation of the exogenous stable isotope labeled amino acids. Metabolic labeling of these human primary retinal pigment epithelial cells was further tested to quantify protein ratios between proliferating and resting cells using a combination of 2-DG and MALDI-TOF-TOF/MS analysis. Using computational data processing and analysis, we obtained accurate protein ratio measurement for every single identified protein (156 proteins) in the 2-Dg array. Of these 156 proteins, 12 proteins were found significantly increased in dividing versus resting cells by at least a factor of 1.5 while 13 other proteins were found increased in resting versus dividing cells by at least the same fold. Most of these differentially expressed proteins are directly involved in cell proliferation, protein synthesis, and actin-remodeling and differentiation.     

Subcellular Localization and Differentiation-Induced Redistribution of the Protein Tyrosine Phosphatase PTP-BL in Neuroblastoma Cells

1.In cells of epithelial origin the protein tyrosine phosphatase PTP-BL is predominantly localized at the apical membrane of polarized cells. This large submembranous multidomain PTP is also expressed in cells of neuronal origin. We studied the localization of PTP-BL in mouse neuroblastoma cells utilizing EGFP-tagged versions of the protein. 2. In proliferating Neuro-2a cells, immunofluorescence and immuno-electron microscopy revealed a submembranous FERM domain-dependent localization at cell-cell boundaries for EGFP-PTP-BL. Additionally, significant amounts of EGFP-PTP-BL are located in the cytoplasm as well as in nuclei. Upon serum depletion-induced differentiation of Neuro-2a cells, a partial shift of EGFP-PTP-BL from a cortical localization to cytoskeleton-like F-actin-positive structures is observed. Parallel biochemical studies corroborate this finding and reveal a serum depletion-induced shift of EFGP-PTP-BL from a membrane(-associated) fraction to an NP40-soluble cytoskeletal fraction. 3. Different pools of PTP-BL-containing protein complexes can be discerned in neuronal cells, reflecting distinct molecular microenvironments in which PTP-BL may exert its function.     

Cloning and Characterization of a Campylobacter jejuni Iron-Uptake Operon

We report that C. jejuni modifies its outer membrane protein (OMP) repertoire when cultivated under iron-limiting conditions such as during incubation with epithelial cells. To identify genes encoding de novo expressed OMPs, a C. jejuni cosmid library was screened with antisera raised against proteins expressed in the presence of epithelial cells. A single clone was identified encoding an 80-kDa antigen. Sequence analysis of subclones identified an operon of three open reading frames (ORFs) encoding proteins that are homologous to the E. coli ferrichrome uptake system encoded by the fhu locus. Under low-iron conditions, C. jejuni expressed the 80-kDa OMP, indicating that its expression is regulated by the presence of iron. Southern blot analysis indicated that six of eleven isolates of C. jejuni harbor a fhuA homolog which, like all other DNA in this region sequenced thus far, is strikingly GC-rich (65%) compared with the C. jejuni genome (35% G+C). Received: 19 June 2000 / Accepted: 30 August 2000