Evolutionary and structural relationships among the group-specific component, albumin and alpha-fetoprotein.

The group-specific component (Gc) is a plasma protein that binds vitamin D. Recent characterization of human Gc cDNA demonstrated homology with serum albumin and alpha-fetoprotein. This study compares the sequences of the three proteins and demonstrates a strong evolutionary relationship. Albumin, alpha-fetoprotein and Gc evolved from an ancestral gene containing an intragenic triplication. Comparison of the amino acid sequences and patterns of double disulfide bonds suggests that the Gc gene may have diverged from an ancestral gene earlier in evolution than the genes encoding albumin and alpha-fetoprotein. Analysis of the amino acid and nucleotide sequences of the three internal domains of Gc revealed 19-23% amino acid sequence identity and the localization of three homology blocks with 40-44% nucleotide sequence identity. The deduced amino sequence of Gc furnished data for comparing its molecular configuration based on the predicted secondary structure with those predicted for human albumin and alpha-fetoprotein. Utilization of Gc cDNA has also led to the identification of its genomic DNA and detection of a human DNA polymorphism.     

The amino acid sequence of the NH2-terminal portion of rat and human vitamin D binding protein: evidence for a high degree of homology between rat and human vitamin D binding protein

We determined the amino terminal sequence of rat and human vitamin D binding protein (VDBP). The sequences of the two proteins are: Rat VDBP: LeuGluArgGlyArgAspTyrGluLysAspLysValCysGlnGluLeuSerThrLeuGlyLys Human VDBP: LeuGluArgGlyArgAspTyrGluLysAsnLysValCysLysGluPheSerHisLeuGlyLys AspAspPhe GluAspPhe There are 19 matches out of a total of 24 residues sequenced giving a percent match/length of 79.2%. Differences in the composition of the two proteins at residue 10, 14, 16, and 22 can be accounted for by single base changes in the the gene for the proteins. The difference (Thr----His) at residue 18 requires a change in two bases in the respective genes. We conclude that the sequence of the amino terminus of rat and human VDBP is similar with a high degree of homology between the two proteins. Vitamin D sterols, such as 25-hydroxyvitamin D3, 24,25-dihydroxyvitamin D3, and 25,26-dihydroxyvitamin D3, are bound with high affinity by a plasma alpha-globulin - VDBP, also known as group-specific component (Gc). Other vitamin D sterols, such as 1,25-dihydroxyvitamin D3 and vitamin D3 itself, are bound to this protein with a lesser affinity. VDBP also binds actin with high affinity. Its role in vitamin D physiology is unclear, although it may play a role in the bioavailability of different D sterols. Svasti et al. have shown that human group specific component (Gc) exists as different isoforms that have rapid or slow mobility on gel electrophoresis. The different human Gc isoforms have similar NH2-terminal and COOH-terminal amino acid sequences. The difference in the mobility of the various isoforms is due to post-translational modification of the protein by various carbohydrate residues; treatment of the protein with neuraminidase results in the conversion of the different isoforms to a single isoform. The amino acid sequence of the amino terminus of rat VDBP is not known. Recently, Cooke reported preliminary data from the analysis of cDNA clones showing that rat and human VDBP are partially homologous and that rat and human VDBP exhibit homology with rat and human albumin and alpha-fetoprotein. The NH2-terminal sequence of the rat VDBP, however, has not been reported. In order to learn more about the nature of the NH2-terminal sequence of human and rat VDBP, we isolated these proteins in relatively pure form and determined the NH2-terminal amino acid sequence of both of them.(ABSTRACT TRUNCATED AT 400 WORDS)     

Post-translational heterogeneity of the human vitamin D-binding protein (group-specific component)

The vitamin D-binding protein in human serum (the group-specific component) is an alpha 2-globulin which is genetically polymorphic in all populations studied. Previous work (J. Svasti and B. H. Bowman (1978) J. Biol. Chem. 253, 5188-5194, and J. Svasti, A. Kurosky, A. Bennett, and B. H. Bowman (1979) Biochemistry 18, 1611-1617) has shown that the electrophoretic variations of the proteins controlled by two allelic genes, Gc1 and Gc2, are due to at least three amino acid substitutions between Gc1 and Gc2 (Svasti et al. (1979] and to heterogeneity in the Gc1 phenotype arising from carbohydrate dissimilarities. Gc1 migrates electrophoretically as two protein bands, while Gc2 migrates cathodally as a single band. This study demonstrates a post-translational glycosylation difference occurring in a single area of the Gc1 sequence which accounts for the heterogeneity observed previously. The glycosylation site, a threonine residue, appears to be in a sequence which differs between Gc1 and Gc2. The O-glycosidic bond, which is typical of mucins, is rare in plasma proteins. The cyanogen bromide fragment containing the galactosamine-containing carbohydrate in Gc1 was partially sequenced through 20 residues from the amino terminus. No detectable galactosamine could be found in the homologous cyanogen bromide fragment in Gc2. A new purification procedure for the vitamin D-binding protein in human plasma has been developed. Three chromatographic steps provide purified protein.     

Differential roles of homologous recombination pathways in Neisseria gonorrhoeae pilin antigenic variation, DNA transformation and DNA repair

Neisseria gonorrhoeae (Gc) pili undergo antigenic variation when the amino acid sequence of the pilin protein is changed, aiding in immune avoidance and altering pilus expression. Pilin antigenic variation occurs by RecA-dependent unidirectional transfer of DNA sequences from a silent pilin locus to the expressed pilin gene through high-frequency recombination events that occur at limited regions of homology. We show that the Gc recQ and recO genes are essential for pilin antigenic and phase variation and DNA repair but are not involved in natural DNA transformation. This suggests that a RecF-like pathway of recombination exists in Gc. In addition, mutations in the Gc recB, recC or recD genes revealed that a Gc RecBCD pathway also exists and is involved in DNA transformation and DNA repair but not in pilin antigenic variation.     

Cloning, sequence analysis and expression of a cDNA encoding a novel insulin-like growth factor binding protein (IGFBP-2).

Insulin-like growth factors bind with high affinity to specific binding proteins in extracellular fluids. To identify structural characteristics of IGF-binding proteins that might define their physiological roles, we determined the complete primary structure of a novel human IGF-binding protein (IGFBP-2) from a cloned cDNA. The cDNA encodes a 328 amino acid IGF-binding protein precursor which contains a 39-residue signal peptide. The mature 289 amino acid IGFBP-2 has a predicted Mr of 31,325. Chinese hamster ovary (CHO) cells stably transformed with the IGFBP-2 cDNA secreted a 36 kd protein which bound, with different affinities, IGFII and IGFI, but did not bind insulin. The predicted protein sequence of this IGF-binding protein shares extensive amino acid homology (greater than 85%) with the IGF-binding protein secreted by rat BRL-3A cells, but less than 40% homology with human IGFBP-1. Therefore IGFBP-2, and not IGFBP-1 as previously suggested, represents the human homologue of the rat BRL-BP (alpha IGFBP-2). Moreover, from alignment of the predicted protein sequences of IGFBP-1 and IGFBP-2, extensive conservation of the distribution of cysteine residues is observed. Although the overall amino acid homology shared by these proteins is not high, we suggest that they represent a family of structurally related human IGFBPs. Southern blot analysis of human DNA demonstrates that IGFBP-2 is encoded by a single-copy gene, different from that of IGFBP-1.     

Unfolded transferrin polypeptide chain is immunologically crossreactive with similar derivatives of serum albumin and alpha-fetoprotein

Radioimmunoassays utilizing reduced and carboxymethylated (RC) proteins as antigens reveal a cross-reactivity between alpha-fetoprotein (AFP) and albumin. Similar assays were used to study the relationships of AFP and albumin to other serum proteins. Of the several serum proteins tested, transferrin showed the most similarity with AFP and albumin. There was no cross-reactivity of the native proteins, but antisera prepared against RC-albumin and RC-AFP bound 125I-labeled RC-transferrin at high titers, and antiserum to RC-transferrin bound labeled RC-AFP but not RC-albumin. Inhibition assays utilizing binding of 125I-RC-AFP or 125I-RC-transferrin to anti-RC-albumin showed that the RC derivatives of AFP, albumin, and transferrin were equally efficient inhibitors, whereas other serum proteins inhibited much less. The serum vitamin D carrier protein (Gc protein) showed intermediate reactivity. The reactivities of the antisera to RC-albumins with RC-transferrin and RC-Gc protein were corroborated by immunostaining of proteins separated by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and transferred to nitrocellulose filters. These antisera stained the bands formed by RC derivatives of albumin, AFP, transferrin, and Gc protein, but not other proteins tested. AFP and albumin are known to have amino acid sequence homology. Our results suggest that transferrin and possibly also Gc protein may be structurally related to AFP and albumin.     

A monoclonal antibody against human vitamin-D-binding protein for the analysis of genetic variation in the group-specific component system (Gc)

Summary We have developed a murine hybridoma cell line that is stable in secreting a monoclonal antibody (hDBP-1) directed against the group-specific component (Gc) molecule. The hDBP-1 is monospecific for Gc and does not crossreact with human albumin, which has 23% of its amino acid residues identical with vitamin-D-binding protein (DBP). The subclass of the antibody is IgG1 for the heavy chain, the light chain being of the kappa type. Isoelectric focusing discloses four major bands for the hDBP-1 with isoelectric points between pH 6.5 and 7.8. Binding to the antigen at different pH values was determined: there is high affinity in the physiological range and no binding at pH 3.5 and lower. In the presence of high salt concentrations, binding was reduced to about 50% at 1.5 M NaCl. The hDBP-1 recognizes the common human Gc types and the Gc of all apes and old world monkeys. No reaction was observed with the Gc of other mammals such as horses, cattle, rats, rabbits, sheep, goats and pigs. By testing hDBP-1 against 77 of the more than 120 known rare human Gc variants, it could be shown that this monoclonal antibody cannot recognize seven of these rare variants and can only poorly recognize nine. The binding site of hDBP-1 to Gc is not related to the binding site of Gc with G-actin: it recognizes Gc, the binary complex between Gc and G-actin, as well as the ternary complex between Gc, G-actin and DNase I. Competition assays with vitamin D₃ and Gc in enzyme-linked immunosorbent assay indicate that the epitope of hDBP-1 on the Gc molecule may be related to the vitamin-D₃-binding site.     

Molecular cloning of the human transmembrane secretory component (poly-Ig receptor) and its mRNA expression in human tissues

A 2.5 kilobase (kb) cDNA clone containing 92% of the coding region for human transmembrane secretory component (SC) or poly-Ig receptor, was isolated from a mammary gland cDNA library. The cDNA clone encoded a protein of 693 amino acids which showed 99% homology with the primary amino acid sequence of human free SC as reported by Eiffert et al. (1), and 54% homology with the deduced amino acid sequence of rabbit transmembrane SC for which cDNA was cloned by Mostov et al. (2). Northern blot analysis showed mRNA expression in various human exocrine tissues in good agreement with our previous immunohistochemical studies of SC.     

Amino acid sequence of rabbit apolipoprotein E

The complete amino acid sequence of rabbit apolipoprotein E (apoE) was determined by generating three sets of peptides using cyanogen bromide, endoproteinase AspN, and Staphylococcus aureus V8 protease to cleave the protein. Through twenty cycles of sequence analysis on the whole protein, glutamic acid was identified as the N-terminal residue of rabbit apoE; the C-terminus of the protein was identified as glutamine. Based on the sequence of 294 amino acid residues determined by protein structure analysis, the molecular weight of rabbit apoE was determined to be 33,684. The protein sequence differed from the cDNA inferred sequence in 19 positions, only one of which could be attributed to microheterogeneity. The corrected amino acid sequence of rabbit apoE shares 80% homology with the human apoE sequence, 4% greater homology than that inferred from the cDNA sequence. The great similarity in the amino acid sequences of human and rabbit apoE suggests that their physical and physiological properties may also be similar. This homology and the relative ease with which apoE is isolated from rabbit plasma make it possible to conduct some in vitro experiments with the rabbit apoprotein that would have direct relevance to human apoE, but would be difficult or impossible with the human counterpart because of the quantity of protein required.     

Loss of N-glycolylneuraminic acid in human evolution. Implications for sialic acid recognition by siglecs

The common sialic acids of mammalian cells are N-acetylneuraminic acid (Neu5Ac) and N-glycolylneuraminic acid (Neu5Gc). Humans are an exception, because of a mutation in CMP-sialic acid hydroxylase, which occurred after our common ancestor with great apes. We asked if the resulting loss of Neu5Gc and increase in Neu5Ac in humans alters the biology of the siglecs, which are Ig superfamily members that recognize sialic acids. Human siglec-1 (sialoadhesin) strongly prefers Neu5Ac over Neu5Gc. Thus, humans have a higher density of siglec-1 ligands than great apes. Siglec-1-positive macrophages in humans are found primarily in the perifollicular zone, whereas in chimpanzees they also occur in the marginal zone and surrounding the periarteriolar lymphocyte sheaths. Although only a subset of chimpanzee macrophages express siglec-1, most human macrophages are positive. A known evolutionary difference is the strong preference of mouse siglec-2 (CD22) for Neu5Gc, contrasting with human siglec-2, which binds Neu5Ac equally well. To ask when the preference for Neu5Gc was adjusted in the human lineage, we cloned the first three extracellular domains of siglec-2 from all of the great apes and examined their preference. In fact, siglec-2 had evolved a higher degree of recognition flexibility before Neu5Gc was lost in humans. Human siglec-3 (CD33) and siglec-6 (obesity-binding protein 1) also recognize both Neu5Ac and Neu5Gc, and siglec-5 may have some preference for Neu5Gc. Others showed that siglec-4a (myelin-associated glycoprotein) prefers Neu5Ac over Neu5Gc. Thus, the human loss of Neu5Gc may alter biological processes involving siglec-1, and possibly, siglec-4a or -5.     

Identification of alpha-lactalbumin and beta-lactoglobulin in cynomolgus monkey (Macaca fascicularis) milk.

1. An electrophoretic analysis of whey protein from cynomolgus monkey milk revealed that its constituents are more similar to bovine milk than human milk, i.e. cynomolgus monkey milk whey contains, besides alpha-lactalbumin-like protein (LaP), another predominant component similar to bovine beta-lactoglobulin (LgP), in its electrophoretic behavior on both disc- and SDS-polyacrylamide gel electrophoreses. 2. The amino acid composition of LaP shows close similarity to that of human alpha-lactalbumin, and LaP forms an immunoprecipitin line with anti-human alpha-lactalbumin rabbit antiserum. The homology between LaP and alpha-lactalbumin was further confirmed by an analysis of the N-terminal amino acid sequence. 3. LgP is not immunologically identical to bovine beta-lactoglobulin, but its amino acid composition is similar. The result of the N-terminal amino acid sequence analysis of LgP (up to the 26th residue) strongly suggests homology between this protein and beta-lactoglobulin.     

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.     

A new protein of human atrium

The partial amino acid sequence (23 amino acid residues) of a protein isolated from human atrium has been determined. The sequence homology shows that this protein belongs to the myosin 1 light chain family (an atrium-specific isoform).     

Protein chemical characterization of Gc globulin (vitamin D-binding protein) isoforms; Gc-1f, Gc-1s and Gc-2

Gc globulin, also called vitamin D-binding protein, is a plasma protein involved in the extracellular actin-scavenger system, vitamin D transport and possibly also other biological activities. Low levels of Gc globulin have been found to correlate with multiple organ failure and non-survival of patients with fulminant hepatic failure and trauma. Here, we characterize the dominant isoforms of plasma-derived Gc globulin from Cohn fraction IV paste with respect to amino acid sequence and posttranslational modifications. Gc globulin was purified in large scale and the isoforms separated by ion exchange chromatography. The separated isoforms and several commercial preparations of individual isoforms were characterized by mass spectrometry. This revealed that the major isoforms were non-glycosylated. Compared to the Gc-1f isoform the other dominating isoforms represented an Asp/Glu substitution (Gc-1s) and a Thr/Lys substitution (Gc-2) in agreement with DNA sequencing studies. The commercial preparations were found to represent mainly one or two isoforms. An O-linked glycan with a mass of 656 Da and terminating with a sialic acid residue was detected on a minor proportion of Gc globulin molecules.     

减蛋综合征病毒100K蛋白基因的克隆与序列分析

用常规方法提取减蛋综合征病毒（ＥＤＳＶ）中国分离株（ＡＡ２株）病毒ＤＮＡ,分别构建了限制性内切酶ＨｉｎｄⅢ、ＳｐｈⅠ、ＰｓｔⅠ水解片段的全基因文库,并对其中１００Ｋ蛋白基因的序列进行了分析。ＥＤＳＶ１００Ｋ蛋白基因位于减蛋综合征病毒基因组５５．７～６４．８物理图谱单位（ｍ．ｕ）,共２０９１个核苷酸（ｎｔ）,其编码产物由６９６个氨基酸（ａａ）组成,推测其分子量为７７．７ｋＤ。编码蛋白氨基酸同源性分析表明,ＥＤＳＶ１００Ｋ蛋白与人腺病毒（Ａｄ２、Ａｄ５、Ａｄ１２、Ａｄ４１）、Ⅰ群禽腺病毒（ＣＥＬＯ和ＦＡＶ１０）的同源性为３２．３～３４．４％之间,而与羊腺病毒（ＯＡＶ）的同源性达到５６．４％。     

Cloning and characterization of the homolog of mammalian lipopolysaccharide-binding protein and bactericidal permeability-increasing protein in rainbow trout Oncorhynchus mykiss

We cloned two cDNAs denoted as RT-LBP/BPI-1 and RT-LBP/BPI-2, respectively, which were derived from the mRNA of head kidney from rainbow trout. They showed structural homology with LPS-binding protein (LBP) and bactericidal/permeability-increasing protein (BPI) in mammals. The full-length cDNA of RT-LBP/BPI-1 and RT-LBP/BPI-2 is 1666 and 1741 bp, respectively. Both cDNAs encoded 473 aa residues, including the amino acids conserved in mammalian LBP and BPI proteins that were assumed to be involved in LPS binding. The overall coding sequence of RT-LBP/BPI-1 has 33% amino acid homology to human LBP and 34% to human BPI, and RT-LBP/BPI-2 has 32% amino acid homology to human LBP and 33% to human BPI. Three-dimensional structure analysis by three-dimensional/one-dimensional (3D-1D) methods also demonstrated that RT-LBP/BPI-1 and RT-LBP/BPI-2 proteins showed significant similarity to human BPI, having a boomerang shape with N-terminal and C-terminal barrels. Phylogenetic analysis showed that the LBP and BPI genes seemed to be established after the divergence of mammals from teleosts. These results suggested that RT-LBP/BPI-1 and RT-LBP/BPI-2 may be a putative ortholog for mammalian LBP and/or BPI genes. This is the first study to identify the LBP family genes from nonmammalian vertebrates.     

Complementary DNA sequence of rabbit CAP18--a unique lipopolysaccharide binding protein

CAP18 is a novel 18 kDa cationic protein [pI approximately 10] originally purified from rabbit granulocytes using as an assay the agglutination of lipopolysaccharide (LPS) coated erythrocytes. cDNA clones encoding CAP18 were isolated from a rabbit bone marrow cDNA library using a PCR generated oligonucleotide probe derived from the N-terminal amino acid sequence. The deduced amino acid sequence reveals a putative signal sequence of 29 amino acids and a mature protein of 142 amino acid residues. The predicted size of the encoded protein is 16.6 kDa with a pI of 10. There are no N-linked glycosylation sites. The CAP18 sequence bears no homology with other known LPS-binding proteins including human bacterial permeability increasing protein (BPI)(1) and rabbit LPS binding protein (LBP)(2).     

Cloning,expression, purification,and activity of dog (Canis familiaris) and monkey (Saimiri boliviensis) cathepsin S

Cathepsin S is the key protease responsible for the removal of the invariant chain from MHC class II molecules and, as such, has attracted much attention as a target for developing immunosuppressive drugs. To help in testing candidate compounds, the monkey (Saimiri boliviensis) and dog (Canis familiaris) cathepsin S cDNAs have been cloned. The monkey cDNA sequence encodes a 330 amino acid protein with 95% homology to human cathepsin S. The dog cDNA sequence encodes a 331 amino acid protein with 91% homology to human cathepsin S. The amino acid differences do not have a major effect on the hydrolysis of the substrate Z-VVR-AMC, but may affect the substrate specificity. As for human and bovine cathepsin S, activity against Z-VVR-AMC extends into the neutral pH range. These parameters are important for understanding the role of cathepsin S in different species and for testing inhibitors in animal models of autoimmunity.     

A uniquely human consequence of domain-specific functional adaptation in a sialic acid-binding receptor

Most mammalian cell surfaces display two major sialic acids (Sias), N-acetylneuraminic acid (Neu5Ac) and N-glycolylneuraminic acid (Neu5Gc). Humans lack Neu5Gc due to a mutation in CMP-Neu5Ac hydroxylase, which occurred after evolutionary divergence from great apes. We describe an apparent consequence of human Neu5Gc loss: domain-specific functional adaptation of Siglec-9, a member of the family of sialic acid-binding receptors of innate immune cells designated the CD33-related Siglecs (CD33rSiglecs). Binding studies on recombinant human Siglec-9 show recognition of both Neu5Ac and Neu5Gc. In striking contrast, chimpanzee and gorilla Siglec-9 strongly prefer binding Neu5Gc. Simultaneous probing of multiple endogenous CD33rSiglecs on circulating blood cells of human, chimp, or gorilla suggests that the binding differences observed for Siglec-9 are representative of multiple CD33rSiglecs. We conclude that Neu5Ac-binding ability of at least some human CD33rSiglecs is a derived state selected for following loss of Neu5Gc in the hominid lineage. These data also indicate that endogenous Sias (rather than surface Sias of bacterial pathogens) are the functional ligands of CD33rSiglecs and suggest that the endogenous Sia landscape is the major factor directing evolution of CD33rSiglec binding specificity. Exon-1-encoded Sia-recognizing domains of human and ape Siglec-9 share only approximately 93-95% amino acid identity. In contrast, the immediately adjacent intron and exon 2 have the approximately 98-100% identity typically observed among these species. Together, our findings suggest ongoing adaptive evolution specific to the Sia-binding domain, possibly of an episodic nature. Such domain-specific divergences should also be considered in upcoming comparisons of human and chimpanzee genomes.