Molecular cloning of a Chinese hamster mitochondrial protein related to the "chaperonin" family of bacterial and plant proteins

The complete cDNA sequence of a mitochondrial protein from Chinese hamster ovary cells, designated P1, which was originally identified as a microtubule-related protein (Gupta, R.S., Ho, T.K.W., Moffat, M.R.K., and Gupta, R. (1982) J. Biol. Chem. 257, 1071-1078), has been determined. The P1 cDNA encodes a protein of 60,983 Da including a 26-amino acid putative mitochondrial targeting sequence at its N-terminal end. The deduced amino acid sequence of Chinese hamster P1 shows 97% identity to the human P1 protein. Most interestingly, the amino acid sequences of mammalian P1 proteins show extensive sequence homology (42-60% identical residues and an additional 15-25% conservative replacements) to the "chaperonin" family of bacterial, yeast, and plant proteins (viz. groEL protein of Escherichia coli, hsp 60 protein of yeast, and ribulose-1,5-bisphosphate carboxylase subunit binding protein of plant chloroplasts) and to the 60-65-kDa major antigenic protein of mycobacteria and Coxiella burnetii. The homology between mammalian P1 and other proteins begins after the putative mitochondrial presequence and extends up to the C-terminal end. Furthermore, similar to the chaperonin family of proteins, P1 appears to exist in cells as a homooligomeric complex of seven subunits and shows ATPase activity. These observations strongly indicate that P1 protein is a member of the chaperonin family and that it may be involved in a similar function in mammalian cells.     

Characterisation of a plant 3-phosphoinositide-dependent protein kinase-1 homologue which contains a pleckstrin homology domain.

A plant homologue of mammalian 3-phosphoinositide-dependent protein kinase-1 (PDK1) has been identified in Arabidopsis and rice which displays 40% overall identity with human 3-phosphoinositide-dependent protein kinase-1. Like the mammalian 3-phosphoinositide-dependent protein kinase-1, Arabidopsis 3-phosphoinositide-dependent protein kinase-1 and rice 3-phosphoinositide-dependent protein kinase-1 possess a kinase domain at N-termini and a pleckstrin homology domain at their C-termini. Arabidopsis 3-phosphoinositide-dependent protein kinase-1 can rescue lethality in Saccharomyces cerevisiae caused by disruption of the genes encoding yeast 3-phosphoinositide-dependent protein kinase-1 homologues. Arabidopsis 3-phosphoinositide-dependent protein kinase-1 interacts via its pleckstrin homology domain with phosphatidic acid, PtdIns3P, PtdIns(3,4,5)P3 and PtdIns(3,4)P2 and to a lesser extent with PtdIns(4,5)P2 and PtdIns4P. Arabidopsis 3-phosphoinositide-dependent protein kinase-1 is able to activate human protein kinase B alpha (PKB/AKT) in the presence of PtdIns(3,4,5)P3. Arabidopsis 3-phosphoinositide-dependent protein kinase-1 is only the second plant protein reported to possess a pleckstrin homology domain and the first plant protein shown to bind 3-phosphoinositides.     

Isolation, characterization, and chromosomal mapping of mouse P450 17 alpha-hydroxylase/C17-20 lyase.

Cytochrome P450 17 alpha-hydroxylase/C17-20 lyase (P45017 alpha) catalyzes the conversion of C-21 steroids to C-19 steroids in gonads. A full-length mouse cDNA encoding P450 17 alpha was isolated from a mouse Leydig cell library and characterized by restriction mapping and sequencing. The predicted amino acid sequence has 83% homology to rat, 66% homology to human, and 62% homology to bovine P45017 alpha amino acid sequences. The protein is 507 amino acids in length, which is 1 amino acid shorter than the human protein and 2 amino acids shorter than the bovine protein. The structural gene encoding P450 17 alpha (Cyp17) was localized utilizing an interspecific testcross to mouse chromosome 19, distal to Got-1. Another cytochrome P450, P4502c (Cyp2c), also is located at the distal end of chromosome 19. CYP17, CYP2c, and GOT1 have been mapped to human chromosome 10, with CYP2C and GOT1 mapped to the distal region, q24.3 and q25.3, respectively. The data in the present study indicate conserved syntenic loci on mouse chromosome 19 and human chromosome 10 and predict that the structural gene encoding P45017 alpha will be found distal to GOT1 on human chromosome 10.     

Purification and N-terminal sequence of the alpha subunit of antigen 43, a unique protein complex associated with the outer membrane of Escherichia coli.

Antigen 43 has been identified as a unique protein complex in the outer membrane of Escherichia coli. The complex contains two different polypeptides, alpha (Mr, 60,000) and beta (Mr, 53,000), in equal stoichiometry (P. Owen, P. Caffrey, and L.-G. Josefsson, J. Bacteriol. 169:3770-3777, 1987). The alpha subunit was released in a water-soluble form upon heating of outer membranes to 60 degrees C and was purified to apparent homogeneity by gel filtration and ion-exchange chromatography. The purified protein was acidic (pI 4.6) and had a polarity of 49.2%. The N-terminal sequence showed homology with the N termini of certain enterobacterial fimbrial subunits. In addition, antigen 43 underwent a reversible phase variation similar to that of type 1 fimbriae. By use of subunit-specific antisera, it was shown that the purified alpha subunit was capable of reassociating with the beta polypeptide. However, electron microscopic examination indicated that antigen 43 does not form a recognizable surface structure. The available evidence supports the view that antigen 43 is a complex consisting of a peripheral membrane protein (alpha) anchored to a subunit (beta) that is integral to the outer membrane.     

The 40-kilodalton to autoantigen associates with nucleotides 21 to 64 of human mitochondrial RNA processing/7-2 RNA in vitro.

A 40-kDa To antigen recognized by sera from some patients with autoimmune diseases is an integral component of both human RNase P and mitochondrial RNA processing (MRP) RNase. Human MRP and RNase P RNAs, synthesized in vitro, readily associate with the To antigen present in the HeLa cell extract. Using this in vitro reconstitution system, the binding site of the To antigen is localized to a 44-nucleotide-long sequence corresponding to nucleotides 21 to 64 of the human MRP RNA. UV cross-linking experiments showed that the To antigen binds directly to MRP RNA and to RNase P (H1) RNA through RNA-protein interactions. Although the MRP RNA and RNAse P (H1) RNA show sequence homology in four conserved blocks (H. A. Gold, J. N. Topper, D. A. Clayton, and J. Craft, Science 245:1377-1380, 1989), the To antigen-binding site in MRP RNA does not show any obvious primary sequence homology with H1 RNA. These data suggest that the To antigen binds to a conserved and presumably a common secondary or tertiary structure in human MRP and RNase P RNAs.     

T-cell-activating monoclonal antibodies, reacting with both leukocytes and erythrocytes, recognize the guinea pig Thy-1 differentiation antigen: characterization and cloning of guinea pig CD90

A glycophosphatidylinositol (GPI)-linked differentiation antigen expressed on guinea pig T and B lymphocytes was identified by several monoclonal antibodies; it has been shown previously that this membrane protein induced strong polyclonal T cell proliferation upon antibody binding and costimulation by PMA. Purification by immunoadsorption and microsequencing revealed that this T-cell-activating protein is the homologue of Thy-1 or CD90. In contrast to the Thy-1 antigen of most other species, guinea pig Thy-1 has a much higher molecular weight, which is due to a more extensive N-linked glycosylation, bringing the molecular weight of the total antigen up to 36 kDa. Molecular cloning of guinea pig Thy-1 indicated that the deduced molecular weight of the protein backbone is 12,777 after removal of an N-terminal 19-amino-acid leader peptide and cleavage of the 31 amino acids for GPI anchoring the C-terminal end. Sequence comparison showed that guinea pig Thy-1 has an 82% homology to human and a 72% homology to mouse Thy-1 on the amino acid level. Immunohistological staining of cryostat sections revealed intensive staining with the monoclonal antibody H154 on fibroblasts, fibrocytes, Kupffer cells, alveolar macrophages, and mesangial cells. As observed in the human, mouse, and rat, Thy-1 is abundant in the guinea pig brain. Unlike Thy-1 expression in other species, guinea pig Thy-1 is strongly expressed on most resting, nonactivated B cells and, to a lesser extent, on erythrocytes. While treatment of erythrocytes and lymphocytes with GPI-specific phospholipase C largely decreased reactivity with mAb H154, T cells retained the proliferative response to antibody and phorbol esters.     

Molecular cloning of gp 80, a glycoprotein complex secreted by kidney cells in vitro and in vivo. A link to the reproductive system and to the complement cascade

cDNA clones coding for the gp 80 heterodimeric glycoprotein complex secreted constitutively at the apical surface of Madin-Darby canine kidney (MDCK) cells have been isolated from MDCK cDNA libraries in lambda gt11 and lambda gt10. The cloned sequences encode a polypeptide chain of 445 amino acids. The deduced amino acid sequence of the gp 80 protein reveals 80% homology to rat SGP-2, a major secretory protein of the testes epithelium and 83% homology to SP-40,40, a human complement-associated protein. SGP-2 and SP-40,40 have been proposed to be serum and seminal forms of the same protein. The sequence homology as well as the results of Southern and Northern blot analyses and immunological studies suggest that gp 80 is the canine homolog of the rat SGP-2 and the human SP-40,40. The protein is expressed in the embryonic kidney already early during organogenesis. In the adult kidney the protein has been localized along the luminal surfaces of the proximal and distal tubule and the collecting duct cells.     

Multifunctional activities of human fibroblast 34-kDa hyaluronic acid-binding protein

We have already reported that human fibroblast 34-kDa hyaluronic acid-binding protein (HABP) is identical with P32, the protein co-purified with splicing factor SF-2 [Deb and Datta (1996) J. Biol. Chem. 271, 2206–2212]. Data search further revealed that it has 92% sequence homology with a murine protein YL2 which interacts with HIV1 Rev. In this paper we have successfully demonstrated that HIV1 Rev binds with labeled 34-kDa HABP which can be competed with excess unlabeled HABP, suggesting this protein can be a cellular factor promoting HIV1 Rev to function. Interestingly, the multifunctional nature of HABP has been elucidated as it has 100% homology with another protein gClq, the complement protein. The distinct non-overlapping binding motifs for HA and gClq have been identified in the same protein, suggesting that either the protein can function independently or its activity is regulated by ligand binding, wherein its binding to one of the ligands may modulate the receptor activity of the other ligand.     

Rat heart fatty acid-binding protein is highly homologous to the murine adipocyte 422 protein and the P2 protein of peripheral nerve myelin

The rat heart contains an abundant cytosolic protein which binds long chain fatty acids. We have determined its primary structure by Edman degradation of peptides generated from chymotryptic, tryptic, and elastase digestions. This polypeptide (Mr = 14,992) contains 134 amino acids and has a blocked (acetylated) NH2 terminus. The sequence of rat heart fatty acid-binding protein (FABP) is remarkably similar to the murine adipocyte 422 protein and the P2 protein of peripheral nerve myelin. Computer-assisted alignment of heart FABP and 422 revealed that 82 of 132 comparable residues are identical (62%). There are 77 identities out of 131 possible matches between this protein and the human myelin P2 protein (59%). Similar comparisons demonstrate that heart FABP has significant homology to several other proteins which bind hydrophobic ligands. The rank of order of similarity to heart FABP is: 422 greater than myelin P2 greater than cellular retinoic acid-binding protein greater than cellular retinol-binding protein II greater than cellular retinol-binding protein greater than intestinal FABP greater than liver FABP. These eight sequences form a family of paralogous homologues. Heart FABP has a region of internal homology involving tandemly arrayed oligopeptides spanning residues 71-100 and 101-131. This feature is not found in the 422 and P2 sequences. The endogenous ligands bound by the 422, P2, and heart FABP sequences have not been defined. Interpretation of the biological significance of their structural similarities and differences will require information about their ligand specificities and affinities.     

Three epitopic peptides of the simian immunodeficiency virus Nef protein recognized by macaque cytolytic T lymphocytes.

In 8 of 12 experimentally infected macaques, the Nef SIVmac 251 protein was recognized by cytolytic T lymphocytes (CTL) and appeared strongly immunogenic. Here, we report experiments which have been performed by using synthetic peptides to precisely determine the epitopes recognized by macaque CTL. Three epitopes of the Nef protein have been defined as CTL targets in three macaques. The epitopic peptides are located in the central region of the protein, and all of them show high homology with peptides of the human immunodeficiency virus type 1 Nef protein recognized by human CTL in association with several human leukocyte antigen molecules. These results suggest that (i) the Nef protein is a good candidate for vaccination not only because of its early expression but also because of its high immunogenicity for CTL, (ii) long peptides covering the central region of this protein could be used as vaccines and could cross the major histocompatibility complex barrier in a large variety of individuals, and (iii) the rhesus macaque is a good animal model in which to test for protection by CTL.     

Plasmodium vivax: cloning and expression of a major blood-stage surface antigen

Plasmodium vivax is a highly prevalent malaria pathogen of man; the following report is the first to describe the cloning and expression of a major asexual erythrocytic stage antigen of this species. The screening of a genomic DNA expression library with a monoclonal antibody directed against a 200-kDa surface component (Pv200) of the more mature schizonts of P. vivax led to the selection of a recombinant bacterial clone which produced a fusion protein. Mouse and rabbit immune sera raised against the purified fusion protein recognized the 200-kDa parasite antigen on Western blots and reacted with the surface of segmenters by immunofluorescence. Sequencing of the 1.9-kb P. vivax DNA insert coding for this fusion protein revealed a 45-47% homology at the nucleotide level with the P. falciparum gene of a parasite surface antigen, Pf195, which has been shown to be a promising candidate for a malaria vaccine in primates and in man.     

The 3BP2 adapter protein is required for optimal B-cell activation and thymus-independent type 2 humoral response

3BP2 is a pleckstrin homology domain- and Src homology 2 (SH2) domain-containing adapter protein that is mutated in the rare human bone disorder cherubism and which has also been implicated in immunoreceptor signaling. However, a function for this protein has yet to be established. Here we show that mice lacking 3BP2 exhibited a perturbation in the peritoneal B1 and splenic marginal-zone B-cell compartments and diminished thymus-independent type 2 antigen response. 3BP2(-/-) B cells demonstrated a proliferation defect in response to antigen receptor cross-linking and a heightened sensitivity to B-cell receptor-induced death via a caspase-3-dependent apoptotic pathway. We show that 3BP2 binds via its SH2 domain to the CD19 signaling complex and is required for optimum Syk phosphorylation and calcium flux.     

Properties of the nuclear P1 protein, a mammalian homologue of the yeast Mcm3 replication protein.

Polyclonal antibodies were raised against a multiprotein 'holoenzyme' form of calf thymus DNA polymerase alpha-primase and used to probe a human cDNA-protein expression library constructed in the lambda gt11 vector. The probe identified a series of cDNA clones derived from a 3.2 kb mRNA which encodes a novel 105 kDa polypeptide, the P1 protein. In intact cells, the P1 protein was specifically associated with the nucleus, and in cell extracts, it was associated with complex forms of DNA polymerase alpha-primase. The synthesis of human P1-specific mRNA was stimulated upon addition of fresh serum to growth-arrested cells, and RNA blot analyses with the human P1-cDNA probe indicated that P1 is encoded by a strictly conserved mammalian gene. The amino acid sequence deduced from a 240-codon open reading frame resident in the largest human P1-cDNA (0.84 kb) displayed greater than 96% identity with that deduced from the equivalent segment of a 795-codon open reading frame of a larger mouse P1-cDNA (2.8 kb). Throughout its length, the primary structure of mammalian P1 displayed strong homology with that of Mcm3, a 125 kDa yeast protein thought to be involved in the initiation of DNA replication (Gibson et al. 1990. Mol. Cell. Biol. 10: 5707-5720). The P1-Mcm3 homology, the strong conservation of P1 among mammals, its nuclear localization, and its association with the replication-specific DNA polymerase alpha strongly suggest an important role of the P1 protein in the replication of mammalian DNA.     

Molecular cloning, expression, and chromosomal localization of a human tubulointerstitial nephritis antigen

Tubulointerstitial nephritis antigen (TIN-ag) is an extracellular matrix basement protein which was originally identified as a target antigen involved in anti-tubular basement membrane (TBM) antibody-mediated interstitial nephritis (TIN). Further investigations elucidated that TIN-ag plays a role in renal tubulogenesis and that TIN-ag is defected in hereditary tubulointerstitial disorder such as juvenile nephronophthisis. We previously isolated and characterized 54 kDa glycoprotein as TIN-ag. cDNA encoding rabbit and mouse TIN-ag has recently been identified. In the present study, the cDNA of the human homologue of TIN-ag was cloned and its nucleotide sequence was determined (Accession No. AB022277; the DDBJ nucleotide sequence database). Deduced amino acid sequence (476 aa) exhibited the presence of a signal peptide (1-18 aa), cysteine residues termed follistatin module, six potential glycosylation sites, and an ATP/GTP-binding site. Homology search revealed approximately 85% homology with both rabbit and mouse TIN-ag, and also some ( approximately 40%) similarity with C. elegans. Human TIN-ag contained a sequence similar to several classes of extracellular matrix molecules in amino terminal region and to cathepsin family of cysteine proteinases in the carboxyl terminal region. Northern blot analysis revealed exclusive expression of this molecule in human adult and fetal kidney tissues. Using a monoclonal antibody recognizing human TIN-ag, protein expression ( approximately 50 kDa) was identified in cultured COS-1 cells transfected with human TIN-ag cDNA. The human TIN-ag was mapped to chromosome 6p11.2-12 by fluorescence in situ hybridization. These results may provide further evidence for understanding TIN-ag molecule and clues for gene analysis of juvenile nephronophthisis.     

The murine Ah locus. Comparison of the complete cytochrome P1-450 and P3-450 cDNA nucleotide and amino acid sequences

Mouse cytochrome P1-450 and P3-450 are most closely associated with induced aryl hydrocarbon (benzo[a]pyrene) hydroxylase (EC 1.14.14.1) and acetanilide 4-hydroxylase activity, respectively. Full-length cDNA clones of P1-450 and P3-450 were generated from mRNA isolated from 3-methylcholanthrene-treated C57BL/6N mouse liver. P1-450 cDNA is 2620 nucleotides in length and has a coding region (base 110 to 1,675) that produces a protein with 521 residues (Mr = 58,914). P3-450 cDNA is 1,894 nucleotides in length and yields a protein with 513 residues (Mr = 58,183). P1-450 mRNA is the first reported example in mouse in which UAG is used as the termination codon. P1-450 and P3-450, both induced by polycyclic hydrocarbons and regulated by the Ah receptor, exhibit overall nucleotide and protein homology of 68, and 73%, respectively. Segments of high homology, interspersed with regions of low homology, support the hypothesis of gene conversion or unequal crossing over as possible mechanisms for divergence of these two genes. Mouse P1-450 and P3-450 cDNAs were compared with previously published data on rat P-450e cDNA and rabbit form 2 protein, corresponding to two P-450 genes from the "phenobarbital inducible" P-450 gene subfamily. Nucleotide homology between a member of either gene subfamily is about 30%, and protein homology is about 15%, suggesting that the Ah locus-associated P-450 gene subfamily diverged from the phenobarbital inducible P-450 subfamily more than 200 million years ago. An N-terminal and a C-terminal cysteinyl fragment corresponding to the regions around P1-450 Cys-158 and Cys-458, respectively, are the only two cysteinyl peptides conserved among all four proteins compared. Because of greater homology in the C-terminal conserved cysteinyl fragment between the two gene subfamilies and a greater hydrophobic pocket in the C-terminal conserved cysteinyl fragment, the data favor this cysteine as the more likely candidate for the thiolate ligand to the heme iron in the P-450 enzyme active-site.     

Cloning of genes whose expression is correlated with mitosis and localized in dividing cells in root caps of Pisum sativum L.

Removal of border cells from pea roots synchronizes and induces root cap cell division, wall biogenesis and differentiation. Three messages which are expressed differentially in such induced root caps have been cloned. Sequence analyses showed that the PsHRGP1-encoded protein has high homology with a hydroxyproline-rich glycoprotein. The PsCaP23-encoded protein has high homology with an alfalfa callus protein or translationally controlled human or mouse tumor protein P23. The PsRbL41-encoded protein has high homology with a highly basic 60S ribosomal protein L41. In situ hybridization showed that PsHRGP1, PsCaP23 and PsRbL41 messages are localized within dividing cells of the root cap. PsHRGP1 is highly expressed in uninduced root caps, but its message is repressed by 10–11 times as soon as cell division and differentiation begin. Expression of PsHRGP1 recovers to higher than (180%) its initial level in 30 min. PsHRGP1 is root-specific. PsCaP23 and PsRbL41 messages increase ca. 3-fold within 15 min after root cap induction. All three genes represent small families of 3–5 closely related genes in the pea genome.