Processing of beta-secretase by furin and other members of the proprotein convertase family

The amyloid peptide is the main constituent of the amyloid plaques in brain of Alzheimer's disease patients. This peptide is generated from the amyloid precursor protein by two consecutive cleavages. Cleavage at the N terminus is performed by the recently discovered beta-secretase (Bace). This aspartyl protease contains a propeptide that has to be removed to obtain mature Bace. Furin and other members of the furin family of prohormone convertases are involved in this process. Surprisingly, beta-secretase activity, neither at the classical Asp(1) position nor at the Glu(11) position of amyloid precursor protein, seems to be controlled by this maturation step. Furthermore, we show that Glu(11) cleavage is a function of the expression level of Bace, that it depends on the membrane anchorage of Bace, and that Asp(1) cleavage can be followed by Glu(11) cleavage. Our data suggest that pro-Bace could be active as a beta-secretase in the early biosynthetic compartments of the cell and could be involved in the generation of the intracellular pool of the amyloid peptide. We conclude that modulation of the conversion of pro-Bace to mature Bace is not a relevant drug target to treat Alzheimer's disease.     

Endothelial lipase is inactivated upon cleavage by the members of the proprotein convertase family

Mature endothelial lipase (EL) is a 68 kDa glycoprotein. In HepG2 cells infected with adenovirus encoding human EL, the mature EL was detectable in the cell lysates and heparin-releasable fractions. In contrast, cell media of these cells contained two EL fragments: an N-terminal 40 kDa fragment and a C-terminal 28 kDa fragment. N-terminal protein sequencing of the His-tagged 28 kDa fragment revealed that EL is cleaved on the C terminus of the sequence RNKR330, the consensus cleavage sequence for mammalian proprotein convertases (pPCs). Replacement of Arg-330 with Ser by site-directed mutagenesis totally abolished EL processing. EL processing could efficiently be attenuated by specific inhibitors of pPCs, alpha1-antitrypsin Portland (alpha1-PDX) and alpha1-antitrypsin variant AVRR. Coexpression of the pPCs furin, PC6A, and PACE4 with EL resulted in a complete conversion of the full-length EL to a truncated 40 kDa fragment. Exogenously added EL was also processed by cells, and the processing could be attenuated by alpha1-PDX. The expressed N-terminal 40 kDa fragment of EL (EL-40) harboring the catalytic site failed to hydrolyze [14C]NEFA from [14C]dipalmitoyl-PC-labeled HDL. EL-40 was incapable of bridging 125I-labeled HDL to the cells and had no impact on plasma lipid concentration when overexpressed in mice. Thus, our results demonstrate that pPCs are involved in the inactivation process of EL.     

Phylogenetic analysis of family 6 glycoside hydrolases

Multiple sequence alignment separates members of glycoside hydrolase Family 6 into eight subfamilies: one of mainly actinobacterial endoglucanases (EGs), one of ascomycotal EGs, one of chytridiomycotal EGs and cellobiohydrolases (CBHs), one of actinobacterial and proteobacterial CBHs, one of chytridiomycotal CBHs, two of ascomycotal CBHs, and one of basidiomycotal CBHs. Each also has some proteins of unknown function. Multiple sequence alignment also extends to all of Family 6 the observation that lengths of loops that form the active-site tunnel in CBHs vary among subfamilies, and along with loop conformations, determine enzyme function.     

Upregulation of 9 genes, including that for thioredoxin, during epithelial differentiation of mesothelioma cells

Malignant mesothelioma is a tumour originating from mesothelial cells, and it exhibits epithelial, fibrous, or biphasic differentiation. This tumour is highly resistant to therapy, and presence of a sarcomatous growth pattern has been associated with worse prognosis. A mesothelioma cell line with retained ability to differentiate into either epithelial or fibroblast-like phenotype was subjected to subtractive hybridisation in order to identify the genes coupled to tumour cell differentiation. Nine genes were found to be selectively overexpressed in the epithelial sub-line, compared to only two genes in the fibroblast-like phenotype. This may support the idea that the sarcomatous phenotype represents a less differentiated tumour. One of the genes that is differentially expressed by the epithelial cells was thioredoxin, a small redox-active protein associated with cell-growth and differentiation. This overexpression was accompanied by increased protein levels both intracellularly and in the medium. Thioredoxin is reduced by the selenoprotein thioredoxin reductase and NADPH. The activity of this enzyme was high in both cell sub-lines but induced 2-fold in the epithelially-differentiated cells. Overexpression of thioredoxin might be a factor behind the poor prognosis and reduced responsiveness to therapy of mesotheliomas. Epithelial differentiation in this cell line has previously been linked to increased synthesis of heparan sulphate proteoglycans. The possible formation of complexes including thioredoxin, thioredoxin reductase, and heparan sulphate proteoglycans might play a role in the local control of cell growth and differentiation.     

A proteomic approach reveals transient association of reticulocalbin-3, a novel member of the CREC family, with the precursor of subtilisin-like proprotein convertase, PACE4

SPCs (subtilisin-like proprotein convertases) are a family of seven structurally related serine endoproteases that are involved in the proteolytic activation of proproteins. In an effort to examine the substrate protein for PACE4 (paired basic amino-acid-cleaving enzyme-4), an SPC, a potent protein inhibitor of PACE4, an alpha1-antitrypsin RVRR (Arg-Val-Arg-Arg) variant, was expressed in GH4C1 cells. Ectopic expression of the RVRR variant caused accumulation of the 48 kDa protein in cells. Sequence analysis indicates that the 48 kDa protein is a putative Ca2+-binding protein, RCN-3 (reticulocalbin-3), which had previously been predicted by bioinformatic analysis of cDNA from the human hypothalamus. RCN-3 is a member of the CREC (Cab45/reticulocalbin/ERC45/calumenin) family of multiple EF-hand Ca2+-binding proteins localized to the secretory pathway. The most interesting feature of the RCN-3 sequence is the presence of five Arg-Xaa-Xaa-Arg motifs, which represents the target sequence of SPCs. Biosynthetic studies showed that RCN-3 is transiently associated with proPACE4, but not with mature PACE4. Inhibition of PACE4 maturation by a Ca2+ ionophore resulted in accumulation of the proPACE4-RCN-3 complex in cells. Furthermore, autoactivation and secretion of PACE4 was increased upon co-expression with RCN-3. Our findings suggest that selective and transient association of RCN-3 with the precursor of PACE4 plays an important role in the biosynthesis of PACE4.     

Phylogenetic relationships within the harpacticoid copepod family Peltidiidae Sars, including the description of a new genus

With the discovery of Alteuthoides kootare gen. et sp. no v. , found living inside an hexactinellid sponge from offshore waters of New Zealand, and the synonymization herein of Paralteutha T. Scott with Eupelte Claus, the number of genera in the harpacticoid copepod family Peltidiidae Sars now stands at eight. In the morphology of the maxillipeds and the armature of the first leg exopods, Alteuthoides is most similar to Alteuthella (A. Scott) and Alteuthellopsis Lang. These shared apomorphies are regarded as convergent ecological specializations to a lifestyle as close associates of other marine invertebrates. Results of a cladistic analysis further assist in the interpretation of relationships within the family. Lang's speculation that Peltidium and Parapeltidium form an independent lineage from the ancestral peltidiid gains further support. Alteutha remains as the basal group to the second lineage in comparison with which all remaining genera are derived in some respect. Alteuthellopsis would appear to be the most advanced genus in the family. Because of recent additions to Neopeltopsis Hicks and Alteuthellopsis , revised diagnoses, together with a revised key to genera, are also presented.     

Mutational analysis of bli-4/kpc-4 reveals critical residues required for proprotein convertase function in C. elegans

Kex2/subtilisin-like proteinase activity is required for the production of the adult cuticle in the nematode Caenorhabditis elegans. Deletion of the carboxy termini of four of the bli-4/kpc-4 convertase isoforms results in blistering of the adult cuticle. The blisters vary in severity (expressivity) and are not evident in all individuals (reduced penetrance). We have isolated 13 bli-4/kpc-4 mutants that arrest development in late embryogenesis. Using a PCR-based heteroduplex technique, we have identified nucleotide changes responsible for eight of these lethal mutations. The lesions reside within the first 12 exons that are shared by all of the bli-4/kpc-4 gene products, with the majority of mutations clustered within the protease domain. This finding suggests that the protease domain represents a large mutable target. Among these mutations, allele h384 represents a molecular null mutant in which the catalytically essential serine residue (Ser415) is replaced by phenylalanine. Novel missense mutations that change the identity of amino acids evolutionary conserved in all kex2/subtilisin-convertases highlight critical residues essential for activity. We examined the functional activity of BLI-4/KPC-4 products expressed from several lethal mutants by testing their effect on the variable penetrance of blistering exhibited by the e937 allele. We found that the combination of a bli-4/kpc-4 lethal mutation in trans to the bli-4(e937) mutation was sufficient to cause severe blistering in heteroallelic progeny, even in the presence of a known dominant suppressor.     

C6-Like and C3-Like Molecules from the Cephalochordate, Amphioxus, Suggest a Cytolytic Complement System in Invertebrates

The mammalian immune system has cytotoxic mechanisms, both cellular and humoral, that destroy the membrane integrity of target cells. The main effector molecules of these cytolytic mechanisms—perforin, used by killer lymphocytes, and the membrane attack complex (MAC) components of the complement system—share a unique module called the MAC/perforin module. Until now, both immunological cytotoxicity and the MAC/perforin module have been reported only in jawed vertebrates. Here, we report the identification of a protein containing the MAC/perforin module from the invertebrate cephalochordate, amphioxus (Branchiostoma belcheri), using expressed sequence tag (EST) analysis of the notochord. The deduced amino acid sequence of this molecule is most similar to the primary structure of human complement component C6 and is designated AmphiC6. AmphiC6 shares a unique modular structure, including the MAC/perforin module, with human C6 and other MAC components. Another EST clone predicts the presence of a thioester-containing protein with the closest structural similarity to vertebrate C3 (therefore designated AmphiC3). AmphiC3 retains most of the functionally important residues of vertebrate C3 and is shown by phylogenetic analysis to be derived directly from the common ancestor of vertebrate C3, C4, and C5. Only opsonic activity has been assigned to the invertebrate complement system until now. Therefore, this is the first molecular evidence for complement-mediated immunological cytotoxicity in invertebrates. Received: 24 August 2001 / Accepted: 12 November 2001     

Rat Chromosome 2: assignment of the genes encoding cyclin B1, interleukin 6 signal transducer, and proprotein convertase 1 to the Mcs1-containing region and identification of new microsatellite markers

The rat Chromosome (Chr) 2 harbors several genes controlling tumor growth or development, blood pressure, and non-insulin-dependent diabetes mellitus. We report that the region (2q1) containing the mammary susceptibility cancer gene Mcs1 also harbors the genes encoding cyclin B1, interleukin 6 signal transducer (gp130), and proprotein convertase 1. We also generated 13 new anonymous microsatellite markers from Chr 2-sorted DNA. These markers, as well as a microsatellite marker in the cyclin B1 gene, were genetically mapped in combination with known markers. A cyclin B1-related gene was also cytogenetically assigned to rat Chr 11q22-q23. Received: 21 July 1998 / Accepted: 28 August 1998     

Phylogenetic analysis of the stress-70 protein family

The eukaryotic cyto-/nucleoplasmatic 70-kDa heat-shock protein (HSP70) has homologues in the endoplasmic reticulum as well as in bacteria, mitochondria, and plastids. We selected a representative subset from the large number of sequenced stress-70 family members which covers all known branches of the protein family and calculated and manually improved an alignment. Here we present the consensus sequence of the aligned proteins and putative nuclear localization signals (NLS) in the eukaryotic HSP70 homologues. The phylogenetic relationships of the stress-70 group family members were estimated by use of different computation methods. We present a phylogenetic tree containing all known stress-70 subfamilies and demonstrate the usefulness of stress-70 protein sequences for the estimation of intertaxonic phylogeny. Correspondence to: S.A. Reusing     

Binding of BiP to the processing enzyme lymphoma proprotein convertase prevents aggregation, but slows down maturation

Lymphoma proprotein convertase (LPC) is a subtilisin-like serine protease of the mammalian proprotein convertase family. It is synthesized as an inactive precursor protein, and propeptide cleavage occurs via intramolecular cleavage in the endoplasmic reticulum. In contrast to other convertases like furin and proprotein convertase-1, propeptide cleavage occurs slowly. Also, both a glycosylated and an unglycosylated precursor are detected. Here we demonstrate that the unglycosylated precursor form of LPC is localized in the cytosol due to the absence of a signal peptide. Using a reducible cross-linker, we found that glycosylated pro-LPC is associated with the molecular chaperone BiP. In addition, we show that pro-LPC is prone to aggregation and forms large complexes linked via interchain disulfide bonds. BiP is associated mainly with non-aggregated pro-LPC and pro-LPC dimers and trimers, suggesting that BiP prevents aggregation. Overexpression of wild-type BiP or a dominant-negative BiP ATPase mutant resulted in reduced processing of pro-LPC. Taken together, these results suggest that binding of BiP to pro-LPC prevents aggregation, but results in slower maturation.     

Phylogenetic characterization of the epithelial Na+ channel (ENaC) family

Summary

Twenty-one sequenced protein members of the epithelial Na⁺ channel (ENaC) family have been identified and characterized in terms of their sizes, hydropathy profiles, sequence similarities and phylogenies. These proteins derive from mammals, the frog Xenopus laevis and the worm Caenorhabditis elegans. The eleven sequenced vertebrate proteins fall into four subfamilies designated α, β, γ, and δ. The 10 C. elegans proteins do not cluster with the vertebrate proteins, and they all proved to be distantly related to each other. Nonetheless, the 21 ENaC proteins exhibit the same apparent topology, each with two transmembrane spanning segments separated by a large extracellular loop. All but two ENaC proteins possess highly conserved extracellular domains containing numerous conserved cysteine residues as well as adjacent C-terminal amphipathic transmembrane spanning segments, postulated to contribute to the formation of the hydrophilic pores of these oligomeric channel protein complexes. It is proposed that the well-conserved extracellular domains serve as receptors to control the activities of the channels. A topological model for the ENaC family proteins is presented.     

Phylogenetic analysis of alpha-galactosidases of the GH27 family

Amino acid sequence analysis of alpha-galactosidases and other proteins of glycoside hydrolase family 27 (GH27) allowed isolation of three major subfamilies, 27a-27c. Unique isomalto-dextranase of Arthrobacter globiformis clustered separately. Eukaryotic proteins formed five clusters on a phylogenetic tree of the family. Bacterial GH27 proteins, which are relatively few, did not form stable clusters. A monophyletic origin of the GH27 family was demonstrated with the use of related proteins of the GH36 family. The structure of the active center and evolution of alpha-galactosidases are discussed.     

Identification and analysis of Dictyostelium actin genes,a family of moderately repeated genes

Plasmid M6 has been shown to contain sequences complementary to two related abundant mRNA species which differ in length by 100 nucleotides and code for Dictyostellum actin. M6 complementary RNA was isolated by hybridization to immobilized M6 DNA and translated in vitro. The product is identical to major forms of in vivo labeled actin in both mobility on two-dimensional gels and two-dimensional fingerprints of tryptic peptides. Both plasmid M6 and a second plasmid complementary to the actin mRNA complementary region in M6, pDd actin 2 (McKeown et al., 1978), direct the synthesis in minicells of a number of similar polypeptides that are not seen in minicells containing other recombinant plasmids. Three of these polypeptides are similar in two-dimensional gel mobility to Dictyostelium actin and bind to DNAase I agarose.The repetition frequency of isolated restriction fragments from actin mRNA complementary plasmid M6 has been examined. The data from two different experimental approaches (DNA excess hybridizations using plasmid DNA as probe, and hybridization of plasmid probe to DNA blot filters of restriction enzyme-digested Dictyostelium DNA) indicate that the mRNA complementary region is reiterated 15–20 times. When an actin cDNA probe is used in the same experiments, the results suggest that the entire coding region is reiterated.When the two major actin mRNA species are separated and independently translated, each appears to code for one of the two major actin species. The results suggest that there are at least two different functional genes, and possibly more, for Dictyostelium actin.     

Phylogenetic analysis of the Argonaute protein family in platyhelminths

Argonaute proteins (AGOs) are mediators of gene silencing via recruitment of small regulatory RNAs to induce translational regression or degradation of targeted molecules. Platyhelminths have been reported to express microRNAs but the diversity of AGOs in the phylum has not been explored. Phylogenetic relationships of members of this protein family were studied using data from six platyhelminth genomes. Phylogenetic analysis showed that all cestode and trematode AGOs, along with some triclad planarian AGOs, were grouped into the Ago subfamily and its novel sister clade, here referred to as Cluster 1. These were very distant from Piwi and Class 3 subfamilies. By contrast, a number of planarian Piwi-like AGOs formed a novel sister clade to the Piwi subfamily. Extensive sequence searching revealed the presence of an additional locus for AGO2 in the cestode Echinococcus granulosus and exon expansion in this species and E. multilocularis. The current study suggests the absence of the Piwi subfamily and Class 3 AGOs in cestodes and trematodes and the Piwi-like AGO expansion in a free-living triclad planarian and the occurrence of exon expansion prior to or during the evolution of the most-recent common ancestor of the Echinococcus species studied.     

Phylogenetic analysis of proteolytic Acinetobacter strains based on the sequence of genes encoding aminoglycoside 6'-N-acetyltransferases

The sequence of seven aac(6')-I genes encoding aminoglycoside 6'-N-acetyltransferases from proteolytic Acinetobacter strains including genomic species 14, 15, 16, and 17 and from ungrouped proteolytic strains 631, 640, and BM2722 was determined. Pulsed-field gel electrophoresis of genomic DNA of these strains and of Acinetobacter sp. 6 CIP A165 digested with SfiI followed by hybridization with rRNA and aac(6')-I specific probes indicated that these genes were located in the chromosome. Phylogenetic analysis of the genes indicated that aac(6')-I of A. baumannii, Acinetobacter ungrouped strain 631, and Acinetobacter sp. 16 formed a cluster (91.5 to 92.3% identity) whereas aac(6')-I of Acinetobacter sp. 15, sp. 17, and Acinetobacter ungrouped strain BM2722 formed another cluster (90.7 to 94.6% identity). A third cluster was constituted by A. haemolyticus and Acinetobacter sp. 6 (83.6% identity). The phylogeny drawn from aac(6')-I sequences was consistent with that based on DNA-DNA hybridization and phenotype comparison. The aac(6')-I genes were all species specific except for aac(6')-Ih located in a 13.7-kb non conjugative plasmid from A. baumannii BM2686. We conclude that aac(6')-I genes may be suitable for identification at the species level and for analysis of the phylogenetic relationships of Acinetobacter.     

Variabilin, a chemotaxonomic marker for the family Irciniidae

The furanosesterterpene variabilin was isolated from the sponge Sarcotragus. From a chemical point of view, the family Irciniidae has been the source of furanosesterterpenes, and especially variabilin is an important chemotaxonomic marker for the family Irciniidae.