-Catenin is a key player in the Wnt signaling pathway, and interacts with cofactor T cell factor/lymphoid enhancer factor (TCF/LEF) to generate a transcription activator complex that activates Wnt-induced genes. We previously reported that Nemo-like kinase (NLK) negatively regulates Wnt signaling via phosphorylation of TCF/LEF. To further evaluate the physiological roles of NLK, we performed yeast two-hybrid screening to identify NLK-interacting proteins. From this screen, we isolated a novel RING finger protein that we term NARF (NLK associated RING finger protein). Here, we show that NARF induces the ubiquitylation of TCF/LEF in vitro and in vivo, and functions as an E3 ubiquitin-ligase that specifically cooperates with the E2 conjugating enzyme E2-25K. We found that NLK augmented NARF binding and ubiquitylation of TCF/LEF, and this required NLK kinase activity. The ubiquitylated TCF/LEF was subsequently degraded by the proteasome. Furthermore, NARF inhibited formation of the secondary axis induced by the ectopic expression of -catenin in Xenopus embryos. Collectively, our findings raise the possibility that NARF functions as a novel ubiquitin-ligase to suppress the Wnt--catenin signaling.The Wnt family of signaling proteins constitutes a large group of highly conserved secreted glycoproteins (1). Wnt proteins are pleiotropic factors that play crucial roles in multiple embryonic developmental processes and also play a role in tumorigenesis (1, 2). Wnt proteins initiate signal transduction via their extracellular surface receptor complex, which is composed of Frizzled proteins (Fz) and lipoprotein receptor-related proteins 5 and 6 (LRP-5/6). In the absence of Wnt stimulation, cytoplasmic -catenin is maintained at low levels by the continuous process of ubiquitin-proteasome-mediated degradation involving a scaffold complex of axin, adenomatous polyposis coli, (APC) and active glycogen synthasekinase-3 (GSK-3). In the canonical pathway of -catenin signal transduction, Wnt signaling relieves this process of proteasome-mediated degradation, and -catenin consequently accumulates in the cytoplasm. -Catenin then translocates into the nucleus and forms a transcriptional unit with the HMG box class T cell factor/lymphoid enhancer factor (TCF/LEF) 3 to activate expression of its target genes.Nemo-like kinase (NLK) was originally isolated as a murine orthologue of the Drosophila Nemo by RT-PCR from embryonic mouse brain mRNA using degenerate primers designed for the conserved kinase domains I, VI, VII, and IX of the extracellular-signal regulated kinase/mitogen-activated protein kinase (ERK/MAPK) family (3). The amino acid sequence of the NLK kinase domain shows 39 -47% identity to both ERK/ MAPK and cyclin-directed kinase 2. The ERK/MAPK family kinases contain a characteristic conserved phosphorylation motif, Thr-X-Tyr, in their kinase domain VIII that is required for activation. However, the corresponding sequence in NLK is Thr-Gln-Glu, which is quite similar to the sequence Thr-HisGlu found in some cyclin-dire...
Human influenza viruses are more efficiently isolated by inoculating patient samples into the amniotic rather than the allantoic cavity of embryonated chicken eggs. This type of cultivation selects virus variants with mutations around the hemagglutinin (HA) receptor binding site. To understand the molecular basis of these phenomena, we investigated the abundances of sialic acid (SA) linked to galactose (Gal) by the ␣-2,3 linkage (SA␣2,3Gal) and SA␣2,6Gal in egg amniotic and allantoic cells and in Madin-Darby canine kidney (MDCK) cells. Using SA-Gal linkage-specific lectins (Maackia amurensis agglutinin specific for SA␣2,6Gal and Sambucus nigra agglutinin specific for SA␣2,3Gal), we found SA␣2,3Gal in both allantoic and amniotic cells and SA␣2,6Gal in only the amniotic cells. MDCK cells contained both linkages. To investigate how this difference in abundances of SA␣2,3Gal and SA␣2,6Gal in allantoic and amniotic cells affects the appearance of host cell variants in eggs, we determined the receptor specificities and HA amino acid sequences of two different patient viruses which were isolated and passaged in the amnion or in the allantois and which were compared with MDCK cell-grown viruses. We found that the viruses maintained high SA␣2,6Gal specificities when grown in MDCK cells or following up to two amniotic passages; however, further passages in either the amnion or allantois resulted in the acquisition of, or a complete shift to, SA␣2,3Gal specificity, depending on the virus strain. This change in receptor specificity was accompanied by the appearance of variants in the population with Leu-to-Gln mutations at position 226 in their HA. These findings suggest that lack of SA␣2,6Gal linkages in the allantois of chicken eggs is a selective pressure for the appearance of host cell variants with altered receptor specificities and amino acid changes at position 226.
To investigate the early events of JC virus (JCV) infection, including attachment, penetration, transport to the nuclei, and replication of the virus, we analyzed the susceptibility of 15 different cell lines to infection using a semiquantitative polymerase chain reaction (PCR) assay, in situ hybridization, laser scanning confocal microscopy, and a viral replication assay. The cell lines examined were human permissive and nonpermissive cells as well as cells of monkey and mouse origin. JCV entry into the nuclei of the all cell lines was observed within 10 min after inoculation, demonstrating that the virus receptor is widely distributed among mammalian cells. Inhibition of viral entry by an anti-JCV VP1 antibody and sialidase treatment to remove sialic acid residues, which are considered a candidate for the JCV receptor, suggested that VP1 may interact with the cellular surface sialic acid. In addition, chlorpromazine, a clathrin-dependent pathway inhibitor, significantly suppressed entry of JCV into nuclei. In spite of the broad spectrum of cells susceptible to JCV entry, replication of the virus occurred exclusively in human neuroblastoma cell lines. These results suggest that whereas JCV can enter a wide variety of cell types and localize to the nuclei, cell-specific intranuclear mechanisms are required for virus replication.
Patients with critically ischemic limbs due to maintenance hemodialysis and diabetes are increasing in number markedly in Japan. The difficulty of treating critically ischemic limbs is well recognized. Despite active medication and surgical therapy, many critically ischemic limbs are amputated. Ninety-two patients with critically ischemic limbs were treated by transplantation of autologous peripheral blood stem cells (PBSCs). The stem cells were mobilized into the peripheral blood by administration of granulocyte colony stimulating factor (G-CSF). The mobilized mononuclear cells were separated by an apheresis technique using a centrifuge. The separated mononuclear cells contained approximately 4.0 x 10(7) CD34-positive cells. The collected cell suspension was divided into aliquots of 0.5-1.0 ml and transplanted into the muscle of ischemic limbs at 50-70 transplantation points. At 1.5 months after PBSC transplantation, a strong immunostaining of CD34-positive cells and factor VIII, as well as capillary formation, was observed in the muscles into which stems cells had been transplanted. In each patient tested, the serum vascular endothelial growth factor (VEGF) level increased after stem cell transplantation; the mean VEGF level increased by 176%. Of 11 diabetic patients (DM) who were not receiving hemodialysis (HD), there were no amputees regardless of their Fontaine classification. Of 19 patients in the HD(+)DM(-) category, there were no amputations in Fontaine stage I, II, and III patients, whereas three limbs and one toe were amputated in Fontaine stage IV patients. Of 13 patients in the HD(-)DM(+) category, none of the Fontaine stage I, II, or III patients underwent amputation, but six Fontaine stage IV patients underwent amputation. Of 49 patients in the HD(+)DM(+) category, 38 (78%) were classified as Fontaine stage IV, 71% (27/38) of whom had a toe or a limb amputated. In nine patients over 80 years of age, one toe and one limb were amputated. Nondiabetic, nondialyzed patients with ischemic limbs are strongly indicated for stem cell transplantation regardless of Fontaine classification. Therapeutic angiogenesis is effective for critically ischemic limbs resulting from hemodialysis and diabetes until Fontaine stage III, but is of limited effectiveness for stage IV cases.
Insights into structure-function relations of many proteins opens the possibility of engineering peptides to selectively interfere with a protein's activity. To facilitate the use of peptides as probes of cellular processes, we have developed caged peptides whose inf luence on specific proteins can be suddenly and uniformly changed by near-UV light. Two peptides are described which, on photolysis of a caging moiety, block the action of calcium-calmodulin or myosin light chain kinase (MLCK). The efficacy of theses peptides is demonstrated in vitro and in vivo by determining their effect before and after photolysis on activities of isolated enzymes and cellular functions known to depend on calcium-calmodulin and MLCK. These caged peptides each were injected into motile, polarized eosinophils, and when exposed to light promptly blocked cell locomotion in a similar manner. The results indicate that the action of calcium-calmodulin and MLCK, and by inference myosin II, are required for the ameboid locomotion of these cells. This methodology provides a powerful means for assessing the role of these and other proteins in a wide range of spatio-temporally complex functions in intact living cells.Several methods have been used in the past to probe the role of a protein in cell function, each with advantages as well as limitations. Organic compounds are available that can modulate the activity of proteins, but interpretation of effects often is complicated by their relatively slow onset and low selectivity for a specific protein. Impressive progress toward single protein specificity has been made with antisense (1) and homologous recombination (2) methods, which disrupt the expression, and thus the function of a specific protein. Interpretation of effects, or lack thereof, on a cellular function may be complicated, however, by compensatory pathways enhanced by the absence of the targeted protein. Peptides that bind to proteins with high affinity and high selectivity provide a means to rapidly and potently inhibit the activity of selected proteins, but peptides must be microinjected into cells, and microinjection itself can at least transiently alter cell function. It thus would be desirable to have a way to make a peptide that is initially inactive or ''caged'' because of a strategically placed photolabile moiety (3, 4). Such a peptide could be injected into a cell, and time allowed for it to distribute evenly and for normal cell function to be verified. The peptide's biological activity then could be unmasked by light-directed removal of the photolabile group. Each cell would be its own control, thereby diminishing effects of cell to cell variability, and active peptides could be produced rapidly (within milliseconds) and with good spatial resolution.We describe here the preparation and use of photoactivatable caged peptides targeted against calmodulin and myosin light chain kinase (MLCK). Because these two proteins are known to be essential in the control of smooth muscle contractility, the efficacy of the caged...
Background : Wnt signalling plays a critical role in
Polyphenolic compounds from chestnut astringent skin (CAS) were purified by dialysis, using Diaion HP-20 and Sephadex LH-20 columns. During purification, specific α-amylase inhibitory activities were increased about 3.4-fold, and the 50% inhibition value was 5.71 μg/mL in the Sephadex LH-20 fraction (SE-fraction). The SE-fraction contained about 67% of the total polyphenols, 57.3% of the flavanol-type tannins, and 51.3% of the procyanidins. Strong antioxidant activity was observed in the SE-fraction. Oral administration of the SE-fraction in rats fed corn starch significantly suppressed an increase in blood glucose levels. The SE-fraction contained gallic acid and ellagic acid. The MALDI-TOF spectrum showed a peak series exhibiting a mass increment of 288 Da, reflecting the variation in the number of catechin/epicatechin units. Our results suggest CAS contains polyphenols with strong α-amylase inhibitory activity. The data also suggest CAS polyphenols might be oligomeric proanthocyanidins with gallic acid and ellagic acid.
Numerous languages permit an NP that is not selected by the verb to be added to a clause, with several different possible interpretations. We divide such nonselected arguments into possessor, benefactive, attitude holder, and affected experiencer categories, on the basis of syntactic and semantic differences between them. We propose a formal analysis of the affected experiencer construction. In our account, a syntactic head Aff(ect) introduces the experiencer argument, and adds a conventional implicature to the effect that any event of the type denoted by its syntactic sister is the source of the experiencer's psychological experience. Hence, our proposal involves two tiers of meaning: the at-issue meaning of the sentence, and some not-atissue meaning (an implicature). A syntactic head can introduce material on both tiers. Additionally, we allow two parameters of variation: (i) the height of the attachment of Aff, and (ii) how much of the semantics is at-issue and how much is an implicature. We show that these two parameters account for the attested variation across our sample of languages, as well as the significant commonalities among them. Our analysis also accounts for significant differences between affected experiencers and the other types of non-selected arguments, and we also note a generalization to the effect that purely not-at-issue non-selected arguments can only be weak or clitic pronouns.
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