Haruaki Ninomiya

Endothelin-induced Apoptosis of A375 Human Melanoma Cells

Endothelin-1 (ET-1) inhibited serum-dependent growth of asynchronized A375 human melanoma cells, and the growth inhibitory effect was markedly enhanced when ET-1 was applied to the cells synchronized at G1/S boundary by double thymidine blocks. Flow cytometric analysis revealed that ET-1 did not inhibit the cell cycle progression after the release of the block but caused a significant increase of the hypodiploid cell population that is characteristic of apoptotic cell death. ET-1-induced apoptosis was confirmed by the appearance of chromatin condensation on nuclear staining and DNA fragmentation on gel electrophoresis. The increase in the hypodiploid cell peak was manifest within 16 h of exposure to 5 nm ET-1. Within the same time range, ET-1 caused actin reorganization and drastic morphological changes of the surviving cells from epithelioid to an elongated bipolar shape. These phenotypical changes were preceded by ET-1-induced increase and nuclear accumulation of the tumor suppressor protein p53. All of these effects of ET-1 were mediated by ETB via a pertussis toxin-sensitive G protein. Flow cytometric analysis with fluorescent dye-labeled ET-1 revealed up-regulation of ETB expressed by the cells in G1/early S phases, and overexpression of the receptor protein by cDNA microinjection conferred the responsiveness (both apoptosis and morphological changes) to ET-1 irrespective of the position of the cell in the cell cycle. These results indicated the presence of ETB-mediated signaling pathways to apoptotic cell machinery and cytoskeletal organization. Furthermore, the densities of ETB expressed by individual A375 melanoma cells appeared to be regulated by a cell cycle-dependent mechanism, and the receptor density can be a limiting factor to control the apoptotic and cytoskeletal responses of the cells to ET-1. Although the molecular mechanisms remain to be elucidated, these findings added a new dimension to the diverse biological activities of ETs and also indicated a novel mechanism to control the responsiveness of the cell to the peptides.

Characterization of sequential N-cadherin cleavage by ADAM10 and PS1

N-cadherin is essential for excitatory synaptic contact in the hippocampus. At the sites of synaptic contact, it forms a complex with Presenilin 1(PS1) and beta-catenin. N-cadherin is cleaved by ADAM10 in response to NMDA receptor stimulation, producing a membrane fragment Ncad/CTF1 in neurons. NMDA receptor stimulation also enhances PS1/gamma-secretase-mediated cleavage of N-cadherin. To characterize the regulatory mechanisms of the ADAM10 and PS1-mediated cleavages, we first identified the precise cleavage sites of N-cadherin by ADAM10 and PS1/gamma-secretase by producing cleavage-deficient N-cadherin mutants. Next, we found that ectodomain shedding of N-cadherin by ADAM10 is a primary regulatory step in response to calcium influx, and that it is required for the subsequent PS1/gamma-secretase-mediated epsilon-cleavage of N-cadherin, which is a constitutive process to yield a cytoplasmic fragment, Ncad/CTF2. Since N-cadherin is essential for the structure and function of synapses including the long-term potentiation, those proteolytic events of N-cadherin should affect the adhesive behavior of the synapses, thereby taking part in learning and memory.

Novel amyloid precursor protein gene missense mutation (D678N) in probable familial Alzheimer’s disease

Objective: To describe a novel missense mutation, Asp678Asn (D678N), in the amyloid precursor protein (APP) gene in a Japanese pedigree of probable familial Alzheimer’s disease (FAD). Subject: The proband was a women of 72. Symptoms of dementia that fulfilled the criteria for probable Alzheimer’s disease appeared at about 60 years of age, and slowly worsened over more than 10 years without evident cerebrovascular complications, either clinically or neuroradiologically. Methods: Polymerase chain reaction single strand conformational polymorphism (PCR-SSCP) analysis followed by sequence analysis was used to examine genomic DNA of the proband for mutations in the APP gene exons 16 and 17. Results: Analysis of the APP exon 16 in the proband showed a GAC to AAC nucleotide substitution in codon 678 of the APP gene, causing an amino acid substitution of Asp to Asn (D678N). Heterozygosity of the APP D678N mutation was found in the proband and in the demented elder sister. Conclusions: The production and accumulation of mutated Abeta (Asn7-Abeta) or the misfunction of D678N mutant APP may have pathogenic properties for the development of Alzheimer’s disease in this pedigree.

Accumulation of cholera toxin and GM1 ganglioside in the early endosome of Niemann–Pick C1-deficient cells

We investigated intracellular trafficking of GM1 ganglioside in Niemann–Pick C1 (NPC1)-deficient Chinese hamster ovary cells [NPC1(−) cells] by using cholera toxin (CT) as a probe. Both the holotoxin and the B subunit (CTB) accumulated in GM1-enriched intracellular vesicles of NPC1(−) cells. CTB-labeled vesicles contained the early endosome marker Rab5 but not lysosome-associated membrane protein 2 and were not labeled with either Texas red–transferrin or Lysotracker, indicating that they represent early endosomes. Similarly, CT accumulated in intracellular vesicles of human NPC fibroblasts that contained both Rab5 and early endosomal antigen 1. CTB accumulation in NPC1(−) cells was abolished by expression of wild-type NPC1 but not by mutant proteins with a mutation either in the NPC domain or the sterol-sensing domain. A part of these mutant NPC1 proteins expressed in NPC1(−) cells was localized on CTB-labeled vesicles. U18666A treatment of “knock in” cells [NPC1(−) cells that stably expressed wild-type NPC1] caused CTB accumulation similar to that in NPC1(−) cells, and a part of wild-type NPC1was localized on CTB-labeled vesicles in drug-treated cells. Finally, CT tracer experiments in NPC1(−) cells revealed retarded excretion of internalized toxin into the culture medium and an increase in the intracellular release of A subunits. In accordance with the latter result, CT was more effective in stimulating cAMP formation in NPC1(−) than in wild-type cells. These results suggest that transport of CT/GM1 complexes from the early endosome to the plasma membrane depends on the function of NPC1, whereas transport to the Golgi apparatus/endoplasmic reticulum does not.

Palmitoylation of Human EndothelinB ITS CRITICAL ROLE IN G PROTEIN COUPLING AND A DIFFERENTIAL REQUIREMENT FOR THE CYTOPLASMIC TAIL BY G PROTEIN SUBTYPES

By site-directed mutagenesis, three cysteine residues (amino acids 402, 403, and 405) in the carboxyl terminus of human endothelinB (ETB) were identified as potential palmitoylation sites. Substitutions of all of the three cysteine residues with serine gave an unpalmitoylated mutant, C2S/C3S/C5S. When expressed in Chinese hamster ovary cells, C2S/C3S/C5S was localized on the cell surface, retained high affinities to ET-1 and ET-3, and was rapidly internalized when bound to the ligand. However, unlike the wild-type ETB, C2S/C3S/C5S transmitted neither an inhibitory effect on adenylate cyclase nor a stimulatory effect on phospholipase C, indicating a critical role of palmitoylation in the coupling with G proteins, regardless of the G protein subtypes. Truncation of the carboxyl terminus including Cys403/Cys405 gave a deletion mutant Δ403 that was palmitoylated on Cys402 and lacked the carboxyl terminus downstream to the palmitoylation site. Δ403 did transmit a stimulatory effect on phospholipase C via a pertussis toxin-insensitive G protein but it failed to transmit an inhibitory effect on adenylate cyclase. These results indicated a differential requirement for the carboxyl terminus downstream to the palmitoylation site in the coupling with G protein subtypes, i.e. it is required for the coupling with Gi but not for that with Gq.

Chaperone activity of bicyclic nojirimycin analogues for Gaucher mutations in comparison with N-(n-nonyl)deoxynojirimycin.

Gaucher disease (GD), the most prevalent lysosomal storage disorder, is caused by mutations of lysosomal β‐glucosidase (acid β‐Glu, β‐glucocerebrosidase); these mutations result in protein misfolding. Some inhibitors of this enzyme, such as the iminosugar glucomimetic N‐(n‐nonyl)‐1‐deoxynojirimycin (NN‐DNJ), are known to bind to the active site and stabilize the proper folding for the catalytic form, acting as “chemical chaperones” that facilitate transport and maturation of acid β‐Glu. Recently, bicyclic nojirimycin (NJ) analogues with structure of sp2 iminosugars were found to behave as very selective, competitive inhibitors of the lysosomal β‐Glu. We have now evaluated the glycosidase inhibitory profile of a series of six compounds within this family, namely 5‐N,6‐O‐(N′‐octyliminomethylidene‐NJ (NOI‐NJ), the 6‐thio and 6‐amino‐6‐deoxy derivatives (6S‐NOI‐NJ and 6N‐NOI‐NJ) and the corresponding galactonojirimycin (GNJ) counterparts (NOI‐GNJ, 6S‐NOI‐GNJ and 6N‐NOI‐GNJ), against commercial as well as lysosomal glycosidases. The chaperone effects of four selected candidates (NOI‐NJ, 6S‐NOI‐NJ, 6N‐NOI‐NJ, and 6S‐NOI‐GNJ) were further evaluated in GD fibroblasts with various acid β‐Glu mutations. The compounds showed enzyme enhancement on human fibroblasts with N188S, G202R, F213I or N370S mutations. The chaperone effects of the sp2 iminosugar were generally stronger than those observed for NN‐DNJ; this suggests that these compounds are promising candidates for clinical treatment of GD patients with a broad range of β‐Glu mutations, especially for neuronopathic forms of Gaucher disease.

Ubiquitin-Proteasome System Impairment Caused by a Missense Cardiac Myosin-binding Protein C Mutation and Associated with Cardiac Dysfunction in Hypertrophic Cardiomyopathy

The ubiquitin-proteasome system is responsible for the disappearance of truncated cardiac myosin-binding protein C, and the suppression of its activity contributes to cardiac dysfunction. This study investigated whether missense cardiac myosin-binding protein C gene (MYBPC3) mutation in hypertrophic cardiomyopathy (HCM) leads to destabilization of its protein, causes UPS impairment, and is associated with cardiac dysfunction. Mutations were identified in Japanese HCM patients using denaturing HPLC and sequencing. Heterologous expression was investigated in COS-7 cells as well as neonatal rat cardiac myocytes to examine protein stability and proteasome activity. The cardiac function was measured using echocardiography. Five novel MYBPC3 mutations -- E344K, DeltaK814, Delta2864-2865GC, Q998E, and T1046M -- were identified in this study. Compared with the wild type and other mutations, the E334K protein level was significantly lower, it was degraded faster, it had a higher level of polyubiquination, and increased in cells pretreated with the proteasome inhibitor MG132 (50 microM, 6 h). The electrical charge of its amino acid at position 334 influenced its stability, but E334K did not affect its phosphorylation. The E334K protein reduced cellular 20 S proteasome activity, increased the proapoptotic/antiapoptotic protein ratio, and enhanced apoptosis in transfected Cos-7 cells and neonatal rat cardiac myocytes. Patients carrying the E334K mutation presented significant left ventricular dysfunction and dilation. The conclusion is the missense MYBPC3 mutation E334K destabilizes its protein through UPS and may contribute to cardiac dysfunction in HCM through impairment of the ubiquitin-proteasome system.

Adhesion of Cultured Bovine Aortic Endothelial Cells to Laminin-1 Mediated by Dystroglycan

Expression of dystroglycan (DG) by cultured bovine aortic endothelial (BAE) cells was confirmed by cDNA cloning from a BAE cDNA library, Northern blotting of mRNA, Western blotting of membrane proteins, and double immunostaining with antibodies against βDG and platelet endothelial cell adhesion molecule-1. Immunocytochemical analysis revealed localization of DG in multiple plaques on the basal side of resting cells. This patchy distribution was obscured in migrating cells, in which the most prominent staining was observed in the trailing edge anchoring the cells to the substratum. Biotin-labeled laminin-1 overlay assay of dissociated BAE membrane proteins indicated the interaction of laminin-1 with αDG. The laminin α5 globular domain fragment expressed in bacteria and labeled with biotin could also bind αDG on the membrane blot, and the unlabeled fragment disrupted the binding of biotin-laminin-1 to αDG. The interaction of biotin-laminin-1 with αDG was inhibited by soluble αDG contained in the conditioned medium from DG cDNA-transfected BAE cells and by a series of glycosaminoglycans (heparin, dextran sulfate, and fucoidan). Soluble αDG in the conditioned medium inhibited the adhesion of BAE cells to laminin-1-coated dishes, whereas it had no effect on their adhesion to fibronectin. All three glycosaminoglycans that disrupted the biotin-laminin-1 binding to αDG inhibited BAE cell adhesion to laminin-1, whereas they failed to inhibit the adhesion to fibronectin. These results indicate a role of DG as a non-integrin laminin receptor involved in vascular endothelial cell adhesion to the extracellular matrix.

Subcellular mechanisms of endothelin action in vascular system.

To elucidate the role of endothelin in the regulation of vascular function, the cellular and subcellular mechanisms for the synthesis of endothelin and the function of endothelin-receptors have been studied extensively. In this article, recent results regarding these problems are reviewed. (1) Oxidatively modified low-density-lipoprotein (LDL) reduces nitric oxide (NO) release via inhibition of the high-affinity arginine transporter of endothelial cells. (2) Endothelin-1-induced vasoconstriction is mediated by Ca2+ influx through a non-selective cation channel sensitive to 1-[beta-[3-(4-methoxyphenyl) propoxyl]-4-methoxyphenethyl]-1H-imidazole HCl (SK & F96365). (3) A distinct domain of the endothelin-receptor is required for the coupling of different G(alpha)-proteins. (4) Endothelin ET(A) receptor-mediated mitogenic activity is mediated by two pathways, one classical protein kinase C(PKC)-dependent, and the other phosphoinositide 3-kinase dependent. Both stimulate mitogen-activated protein kinase (MAPK). Endothelin ET(B) receptor-mediated mitogenic activity is also mediated by the PKC-dependent pathway. In contrast, endothelin ET(B) receptor-mediates differentiation and apoptosis via G(alpha)i coupling.

Genotype-phenotype relationship of Niemann-Pick disease type C: a possible correlation between clinical onset and levels of NPC1 protein in isolated skin fibroblasts

Editor—Niemann-Pick disease type C (NP-C, MIM 257220) is a fatal autosomal recessive disorder characterised by progressive neurological deterioration and hepatosplenomegaly. NP-C patients can be classified into four major groups according to the onset of neurological symptoms, that is, early infantile, late infantile, juvenile, and adult forms, and the earlier the clinical onset the more quickly progressive are the symptoms and the shorter is the life span.1-4Complementation analysis using cultured skin fibroblasts indicated the presence of at least two subgroups of NP-C, NPC1 (the major subgroup that comprises >90% of NP-C patients) and NPC2 (the minor subgroup).2-4 In 1997, the NPC1 gene ( NPC1 ) (accession No AF002020) that is responsible for the NPC1 subgroup was identified by positional cloning.5 6 The number of NPC1 mutations known to date is not far off 100,7-11 taking into account the accumulated data from seven groups presented in a recent international workshop (International Workshop, The Niemann-Pick C Lesion and the Role of Intracellular Lipid Sorting in Human Disease, Bethesda, USA, October 1999). Because the genomic structure of NPC1 was unknown, initial mutation screening was performed on RT-PCR products or partial genomic amplicons. In our previous study using RT-PCR products, we identified 14 different mutations in 19 alleles from 11 patients, and failed to detect mutations in the remaining three alleles.8 Mutation screening using RT-PCR products has several drawbacks compared with screening using genomic amplicons. For example, mutations that reduce the mRNA stability may escape the screening.12 13 To refine the screening method, we screened a CITB human BAC library (Research Genetics, Huntsville, AL) and isolated a clone 386K10 that contained all the 25 exons of NPC1 and a 2 kb fragment of 5′UTR. Our analysis using 386K10 confirmed the exon/intron boundary sequences reported by Morris et al …