In vitro and in vivo iodination of human thyroglobulin in relation to hormone release

Reduced and S-alkylated thyroglobulin (Tgb) from different species were shown by SDS-PAGE to contain small peptides (from 45-9 kDa) rich in thyroxine. Several hypotheses were proposed to explain their origin. The polypeptide composition of iodine-poor (Tgb A) and normally iodinated (Tgb B) human Tgb prepared by two different procedures (one minimizing and the other favoring post-mortem proteolysis) was compared in the native state and after in vitro iodination. Results show that one of the hormonogenic sites of human Tgb is part of a domain of the molecule most susceptible to proteolysis, especially when it is very iodinated.     

Immunological comparison of proline-rich proteins from human and primate parotid secretion.

Antisera raised in response to proline-rich proteins purified from parotid secretions of man and the primate Macaca fascicularis were employed to investigate the interrelationships of these proteins by immunodiffusion, immunoelectrophoresis and the combined use of disc gel acrylamide electrophoresis with radial immunodiffusion. The major human proline-rich proteins, PRP I, PRP II, PRP III and PRP IV as well as several minor proline-rich proteins cross-react with antiserum to PRP I or PRP III. Similarly primate parotid saliva contains several components cross-reacting with antiserum directed against a purified primate proline-rich protein, MPRP. Antiserum to PRP I or PRP III cross-reacted with MPRP and primate parotid saliva protein, whereas antiserum to MPRP cross-reacted only with human parotid saliva protein and not with the isolated human proline-rich proteins. The immunological relationships of these salivary proline-rich proteins within and between species suggest their origin from a common precursor molecule.     

First identification of tannin-binding proteins in saliva of Papio hamadryas using MS/MS mass spectrometry

Hamadryas baboons possess salivary proline-rich proteins (PRP), as indicated by the presence of pink-staining protein bands using 1D SDS gel electrophoresis and Coomassie R250 staining. The ability of these protein bands to interact with tannic acid was further examined. In a tannin-binding assay using 5 μg tannic acid mixed with hamadryas whole saliva, we recently found four distinct protein bands of apparently 72, 55, 20, and 15 kDa that were precipitated during the experiments. In this work, we were able to identify these protein bands in a follow-up analysis using MS/MS mass spectrometry after excising such bands out of air-dried gels. Albumin and α-amylase were present in the tannic acid-protein complexes, with albumin already known to nonspecifically interact with a great diversity of chemical compounds. More interesting, we also identified a basic PRP and a cystatin precursor protein. This was the first successful attempt to identify a PRP from precipitated tannin-protein complexes in hamadryas baboons using MS/MS mass spectrometry. On the other hand, the role of cystatins in tannin binding is not yet well understood. However, there are recent reports on cystatin expression in saliva of rats responding to astringent dietary compounds. In conclusion, the follow-up data on tannin-binding proteins present in salivary secretions from hamadryas baboons adds important knowledge to primate physiology and feeding ecology, in order to shed light on the establishment and development of food adaptations in primates. It also demonstrates that tannin binding is characteristic for PRP, but might not be restricted to this particular group of proteins in primate species.     

Characterization of body louse midgut proteins recognized by resistant hosts

Abstract. The human body louse, Pediculus humanus , showed eighteen midgut proteins ranging between 12 and 117 kDa, when analysed by SDS-PAGE electrophoresis. Seven of them (12 kDa, 17 kDa, 29 kDa, 35 kDa, 40 kDa, 55 kDa and 97 kDa) were major bands based on their intensity of staining. The immunization of rabbits with a midgut extract elicited the production of protective polyclonal antibodies. These antibodies reacted strongly with all major midgut proteins as well as with 63 kDa and 117 kDa proteins when tested by the Western blot technique. The analysis of the proteins revealed that the 12 kDa, 25 kDa, 29 kDa, 35 kDa, 45 kDa, 87 kDa and 97 kDa proteins are glycosylated and none of them contained a lipid moiety. By electroelution, the proteins of 35 kDa and 63 kDa were purified. On trypsinization, the proteins of 35 kDa and 63 kDa produced four major fragments (F, F₂, F₃, and F₄) when resolved on a 18% SDS-PAGE. The Fj fragment of the 35 kDa protein reacted with me polyclonal antibodies by the immunoblot technique.     

Identification of a novel gentisate 1,2-dioxygenase from <Emphasis Type="Italic">Silicibacter pomeroyi</Emphasis>

A 1,125-bp long ORF encoding a novel gentisate 1,2-dioxygenase with two-domain bicupins was cloned from Silicibacter pomeroyi DSS-3 and expressed in Escherichia coli. The resulting product was purified to homogeneity and partially characterized. Non-reductive SDS-PAGE and gel filtration showed that the active recombinant gentisate 1,2-dioxygenase had an estimated molecular mass of 132 kDa, and reductive SDS-PAGE indicated an approximate size of 45 kDa. The enzyme thus appears to be a homotrimeric protein. This is in contrast to the homotetrameric or dimeric protein of the gentisate 1,2-dioxygenases that have been characterized thus far. The K (m) and K (cat)/K (m) for gentisate were 12 muM and 653 x 10(4) M(-1 )s(-1); the pI was 4.6-4.8. It was optimally active at 40 degrees C and pH 8.0.     

Complete primary structure of statherin, a potent inhibitor of calcium phosphate precipitation, from the saliva of the monkey, Macaca arctoides

Human saliva, which is supersaturated with respect to basic calcium phosphate salts, is stabilized primarily by the presence of two classes of phosphoproteins, statherin and the acidic proline-rich proteins (PRP). These molecules act by inhibiting both primary (spontaneous) precipitation of calcium phosphates in saliva and secondary (surface induced) precipitation of these salts onto dental enamel. The complete amino-acid sequences of several human PRP and the N-terminal sequence of PRP from saliva of M. arctoides have been determined. Similarly, the complete sequence of statherin from human and M. fascicularis saliva is known. We now report the complete structure of statherin from the saliva of the stump-tailed monkey, M. arctoides. The structure was determined by gas-phase sequencing of intact statherin, elucidating positions 1-26, and sequencing an unpurified mixture of tryptic peptides which elucidated the remaining positions through the C-terminus (residue 42) of the molecule. This latter degradation produced an eight amino-acid overlap with that of intact statherin and was confirmed by C-terminal analysis and amino-acid composition of native statherin. The complete amino-acid sequence of M. arctoides statherin is: NH2-Asp-PSer-PSer-Glu-Glu5-Lys-Phe-Leu-Arg-Arg10 -Leu-Arg-Arg-Phe-Asp15-Glu- Gly-Arg-Tyr-Gly20-Pro-Tyr-Gln-Pro-Phe25-Val-Pro-Pro- Pro29Leu30-Tyr- Pro-Gln-Pro-Tyr35-Gln-Pro-Tyr-Gln-Pro40-Gln-Tyr-COOH This sequence differs from human statherin at positions 11, 12, 15, 16, 18, 25-27, 38-40 and from M. fascicularis statherin at positions 26 and 28.     

A physical map of the human salivary proline-rich protein gene cluster covers over 700 kbp of DNA

By using a linking library, we have experimentally linked, ordered, and spaced four of the six loci that constitute the human salivary proline-rich protein (PRP) multigene family. The methods used for mapping these four PRP genes may be useful in other multigene systems in which no probes unique to each member of genes are available, but in which some enzyme site that occurs only once in each member of the family can be found. The remaining two PRP loci have been provisionally mapped and linked within the gene cluster primarily on the basis of the resulting order giving a simple map. The order of the six loci that most simply accounts for our data is PRB2, PRB1, PRB4, PRH2, PRB3, and PRH1. The PRP gene cluster spans at least 700 kbp on chromosome 12 at p13.2. A scheme for the evolution of the cluster that requires an initial gene duplication followed by three unequal but homologous crossovers is given.     

Length Polymorphisms in Human Proline-Rich Protein Genes Generated by Intragenic Unequal Crossing over

Southern blot hybridization analysis of genomic DNAs from 44 unrelated individuals revealed extensive insertion/deletion polymorphisms within the BstNI-type loci (PRB1, PRB2, PRB3 and PRB4) of the human proline-rich protein (PRP) multigene family. Ten length variants were cloned, including alleles at each of the four PRB loci, and in every case the region of length difference was localized to the tandemly repetitious third exon. DNA sequences covering the region of length variation were determined for seven of the alleles. The data indicate (1) that the PRB loci can be divided into two subtypes, PRB1 plus PRB2, and PRB3 plus PRB4, and (2) that the length differences result from different numbers of tandem repeats in the third exons. Variant chromosomes were also identified with different numbers of PRP loci resulting from homologous but unequal exchange between the PRB1 and PRB2 loci. The overall data are compatible with the observed length variants having been generated via homologous but unequal intragenic exchange. The results also indicate that these crossover events are sensitive to the amount of homology shared between the interacting DNA strands. Allelic length variants have arisen independently at least 20 times at the PRB loci, but only one has been detected at a PRH locus. Comparison of the detailed structures of the repetitious regions in PRB and PRH loci shows that the repeats in PRB genes are very similar to each other in sequence and in length. The PRH genes contain fewer repeats, which differ considerably in their individual lengths. These differences suggest that the larger number of length variants in PRB genes is related to their greater ease of homologous but unequal pairing compared to PRH genes.     

Alleles at the PRB3 locus coding for a disulfide-bonded human salivary proline-rich glycoprotein (Gl 8) and a null in an Ashkenazi Jew.

From electrophoretic analysis, we identified in the saliva of an Ashkenazi Jew a disulfide-bonded major glycoprotein variant (Gl 8) that is a product of the proline-rich protein (PRP) locus PRB3. A previous study of this variant protein misidentified it as Pa 2 and as a product of a different PRP locus. The other PRB3 allele in this individual is an apparent null. To identify the mutations, we sequenced the tandemly repetitious exon 3 (the major protein-coding portions) of both alleles. A CGT----TGT (Arg----Cys) mutation was found in one allele (PRB3Scys), which accounts for the disulfide-bonded and peroxidase-modifying properties of Gl 8. A single nucleotide insertion was found in the other allele (PRB3Mnull) that leads to a frameshift with a premature termination codon that causes an apparent lack of gene expression. Null alleles are frequent at PRP loci coding for basic and glycosylated PRPs, and the mechanism described might explain other null phenotypes among PRPs. From nucleotide comparisons, a model of intragenic unequal crossing-over is proposed to explain, in part, the generation of the PRB3Mnull allele. The Gl 8 protein variant is found in Ashkenazi Jews (gene frequency around .008) but not in the general white, black, or Japanese populations. It is interesting that products of different PRP genes, Gl 8 from PRB3 and Pa 1 from PRH1, are both disulfide bonded and probably modify salivary peroxidase (part of an important intraoral antibacterial system) through formation of disulfide-bonded heterodimers.     

Toward defining the human parotid gland salivary proteome and peptidome: identification and characterization using 2D SDS-PAGE, ultrafiltration, HPLC, and mass spectrometry

Saliva plays many biological roles, from lubrication and digestion to regulating bacterial and leukocyte adhesion. To understand the functions of individual components and families of molecules, it is important to identify as many salivary proteins as possible. Toward this goal, we used a proteomic approach as the first step in a global analysis of this important body fluid. We collected parotid saliva as the ductal secretion from three human donors and separated the protein components by two-dimensional SDS-polyacrylamide gel electrophoresis (2D SDS-PAGE). Proteins in gel spots were identified by peptide mass fingerprinting, and the results were confirmed by tandem mass spectrometry of selected peptides. Complementing this approach we used ultrafiltration to prepare a low-molecular-weight fraction of parotid saliva, which was analyzed directly or after reversed phase high-performance liquid chromatography separation by using mass spectrometric approaches. MS analyses of 2D SDS-PAGE spots revealed known components of saliva, including cystatins, histatins, lysozyme, and isoforms and/or fragments of alpha-amylase, albumin, and proline-rich proteins. We also discovered novel proteins, such as several isoforms of Zn-alpha-2-glycoprotein and secretory actin-binding protein. MS analyses of the ultrafiltrate showed that the low-molecular-weight fraction of parotid saliva was peptide-rich, with novel fragments of proline-rich proteins and histatins in abundance. Experiments using Candida albicans as the test organism showed that at least one of the novel peptides had antifungal activity. Our results show that saliva is a rich source of proteins and peptides that are potential diagnostic and therapeutic targets.     

Accumulation of extracellular proteins bearing unique proline-rich motifs in intercellular spaces of the legume nodule parenchyma

Summary. Nodulins encoding repetitive proline-rich cell wall proteins (PRPs) are induced during early interactions with rhizobia, suggesting a massive restructuring of the plant extracellular matrix during infection and nodulation. However, the proteins corresponding to these gene products have not been isolated or characterized, nor have cell wall localizations been confirmed. Posttranslational modifications, conformation, and interactions with other wall polymers are difficult to predict on the basis of only the deduced amino acid sequence of PRPs. PsENOD2 is expressed in nodule parenchyma tissue during nodule organogenesis and encodes a protein with distinctive PRP motifs that are rich in glutamate and basic amino acids. A database search for the ENOD2 signature motifs indicates that similar proteins may have a limited phylogenetic distribution, as they are presently only known from legumes. To determine the ultrastructural location of the proteins, antibodies were raised against unique motifs from the predicted ENOD2 sequence. The antibodies recognized nodule-specific proteins in pea (Pisum sativum), with a major band detected at 110 kDa, representing a subset of PRPs from nodules. The protein was detected specifically in organelles of the secretory pathway and intercellular spaces in the nodule parenchyma, but it was not abundant in primary walls. Similar proteins with an analogous distribution were detected in soybean (Glycine max). The use of polyclonal antibodies raised against signature motifs of extracellular matrix proteins thus appears to be an effective strategy to identify and isolate specific structural proteins for functional analysis. Correspondence and reprints: Delaware Biotechnology Institute, Newark, DE 19711, U.S.A.     

Molecular characterization and comparative study of 6 salivary gland metalloproteases from the hard tick, Haemaphysalis longicornis

Six genes encoding metalloproteases were identified from the salivary gland of the hard tick, Haemaphysalis longicornis. Comparative analyses have shown the evolutionary distinct and different mRNA expression patterns of each gene during blood feeding. The proteins are synthesized as proenzymes with a prodomain and a metalloprotease/cysteine-rich domain of the reprolysin family. Within the active site, amino acid substitutions were observed. The recombinant Escherichia coli expression of one gene, hlESTMP1, was performed. The immunoblot analysis and indirect fluorescent assay using anti-hlESTMP1 suggested that this protein is mainly expressed in the cytoplasm of the salivary glands and only the mature form of 34 kDa was detectable. The proenzyme expressed by baculovirus was processed into a mature domain, suggesting that proenzyme activation possibly occurs through a pro-protein convertase dependent pathway. The presence of these diverse enzymes might contribute to the greater functional complexity of bioactive molecules in tick saliva to facilitate blood feeding.     

Chelation affects the conformation, lability and aggregation of channel catfish (Ictalurus punctatus) phosphorylcholine-reactive protein (PRP).

1. Phosphorylcholine-reactive protein (PRP) affinity-purified from channel catfish (Ictalurus punctatus) serum on phosphorylcholine-Sepharose, eluted from Bio-Gel A-5M as a 94.6 +/- 2.4 kDa protein when the gel filtration column buffer (Tris-saline) contained 25mM ethylenediaminetetraacetic acid (EDTA). 2. PRP chelated with EDTA immediately after affinity purification and gel-filtered in Tris-saline-EDTA, eluted as a 75.5 +/- 2.67 kDa protein referred to as fast-PRP (F-PRP). 3. PRP and F-PRP were identical on SDS-PAGE. Both resolved as a broad band of protein (ca 86-100 kDa) on non-reducing gels or as a ca 100 kDa protein after reduction with 2-mercaptoethanol (2-ME). 4. After gel-filtration in Tris-saline-EDTA, nearly complete reduction of 100 kDa PRP was achieved on SDS-PAGE. However, the protein regained its resistance to reduction upon storage at -60 degrees C. 5. SDS-PAGE and native PAGE also revealed that during storage, PRP and F-PRP combined to form 3 different aggregates referred to as aggregated-PRP (aggPRP). These aggregates are readily dissociated in the presence of 2-ME, suggesting a covalent interaction between adjacent pentamers comprising decameric aggPRPs. 6. PRP, F-PRP, and aggPRP have similar amino acid compositions.     

PRBI gene variants coding for length and null polymorphisms among human salivary Ps, PmF, PmS, and Pe proline-rich proteins (PRPs).

Six closely linked PRP (proline-rich protein) genes code for salivary PRPs that show frequent length and null polymorphisms. We report assignment of Ps proteins to the PRB1 gene, the derived primary structures of Ps 1 and Ps 2 proteins, and the molecular basis for some null alleles among PRB1-coded PRPs (Ps, PmF, PmS, and Pe). The derived primary structures of Ps 1 and Ps 2 proteins were determined by sequencing exon 3 of the different-length PRB1M (medium) and PRB1L (large) copies from subject C.J. with the Ps 1-2 phenotype. The PRB1L copy (coding for Ps 2) contained three additional tandem repeats within the Ps coding region, and the different-length Ps 1 and Ps 2 proteins can be explained on this basis. The molecular basis for the Ps 0 and the Pe- phenotypes was determined in another individual (M.V.O., a PRB2/1 fusion-gene heterozygote) with a single PRB1L copy. A premature stop mutation (CGA [Arg]-->TGA [stop]) occurred at residue 61 in the Ps-coding region. The identical mutation was found in the PRB1L and PRB1/2S (small) copies of a second individual (E.A.) with reduced Pe protein and the Ps 0 phenotype. This individual is a PRB1/2 fusion-gene heterozygote (Azen et al. 1992) with probably three mutated PRB1 copies (PRB1L-PRB1L-PRB1/2S). DNA sequences of the postulated crossover region of the PRB1/2S fusion-gene copy supported the postulated crossover. The PmF- and PmS- phenotypes in the three subjects were due to both the stop mutation and the lack of suitable proteolytic cleavage sites in the PRB1-coded precursor proteins.     

Multiple small molecular weight guanine nucleotide-binding proteins in human erythrocyte membranes

Native membranes from human erythrocytes contain the following G proteins which are ADP-ribosylated by a number of bacterial toxins: Gi alpha and Go alpha (pertussis toxin), Gs alpha (cholera toxin), and three proteins of 27, 26 and 22 kDa (exoenzyme C3 from Clostridium botulinum). Three additional C3 substrates (18.5, 16.5 and 14.5 kDa) appeared in conditions of unrestrained proteolysis during hemolysis. SDS-PAGE separation of erythrocyte membrane proteins followed by electroblotting and incubation of nitrocellulose sheets with radiolabeled GTP revealed consistently four GTP-binding proteins with Mr values of 27, 26, 22 and 21 kDa. Although a 22 kDa protein was immunochemically identified as ras p21, the C3 substrate of 22 kDa is a different protein probably identifiable with a rho gene product. Accordingly, at least five distinct small molecular weight guanine nucleotide-binding proteins, whose functions are so far undetermined, are present in native human erythrocyte membranes.     

Characterization of recombinant and natural forms of the human LIM domain-containing protein FHL2

FHL2 (Four and a Half LIM domain-containing protein 2) is a member of a small family of proteins with four LIM domains and an N-terminal half LIM domain. It is an intracellular protein thought to function as an adaptor in the formation of multi-protein complexes involved in signaling. To obtain human FHL2 in amounts allowing further characterization, we evaluated different expression systems and chose to express FHL2 with a His6 tag in insect cells using the baculovirus system. The recombinant protein was highly expressed and could be purified to >98% homogeneity as judged by SDS-PAGE analysis. Purified recombinant FHL2 was used to generate antibodies allowing detection and immunoprecipitation of FHL2 from human cells. Both recombinant and natural FHL2 were characterized by SDS-PAGE and MALDI-TOF mass spectrometry. The molecular mass of the recombinant His6-tagged protein obtained by mass spectrometry was 36,995Da, in good agreement with the apparent mass of 36kDa in SDS-PAGE and slightly higher than the 35,981Da calculated from the sequence of the construct. The measured molecular mass of natural human FHL2 was 32,742Da and the calculated mass was 32,192Da. However, the apparent molecular mass in SDS-PAGE is 41kDa, indicating that the natural protein has an abnormal electrophoretic mobility. The results show that both the recombinant and the natural proteins are post-translationally modified and indicate that such modifications may lead to an abnormal electrophoretic behavior of natural human FHL2.     

Group A streptococcus adheres to pharyngeal epithelial cells with salivary proline-rich proteins via GrpE chaperone protein

Group A Streptococcus pyogenes (GAS) is an important human pathogen that frequently causes pharyngitis. GAS organisms can adhere to and invade pharyngeal epithelial cells, which are overlaid by salivary components. However, the role of salivary components in GAS adhesion to pharyngeal cells has not been reported precisely. We collected human saliva and purified various salivary components, including proline-rich protein (PRP), statherin, and amylase, and performed invasion assays. The GAS-HEp-2 association ratio (invasion/adhesion ratio) and invasion ratio of GAS were increased significantly with whole human saliva and PRP, while the anti-PRP antibody inhibited the latter. GAS strain NY-5, which lacks M and F proteins on the cell surface, was promoted to cohere with HEp-2 cells by whole human saliva and PRP. The 28-kDa protein of GAS bound to PRP and was identified as GrpE, a chaperone protein, whereas the N-terminal of GrpE was found to bind to PRP. A GrpE-deficient mutant of GAS strain B514Sm, TR-45, exhibited a reduced ability to adhere to and invade HEp-2 cells. Microscopic observations showed the GrpE was mainly expressed on the surface of the cell division site of GAS. Furthermore, GrpE-deficient mutants of GAS and Streptococcus pneumoniae showed an elongated morphology as compared with the wild type. Taken together, this is the first study to show an interaction between salivary PRP and GAS GrpE, which plays an important role in GAS infection on the pharynx, whereas the expression of GrpE on the surface of GAS helps to maintain morphology.     

Characterization of the post-translational modification of recombinant human BMP-15 mature protein

Bone morphogenetic protein-15 (BMP-15) is an oocyte-secreted factor critical for the regulation of ovarian physiology. When recombinant human BMP-15 (rhBMP-15) produced in human embryonic kidney 293 cells was subjected to SDS-PAGE analysis, two mature protein forms corresponding to 16 kDa (P16) and 17 kDa (P17) were observed. Despite the physiological relevance and critical function of BMP-15 in female reproduction, little is known about the structure of rhBMP-15. Here, we have analyzed the structure of the rhBMP-15 mature proteins (P16 and P17) using state-of-the-art proteomics technology. Our findings are as follows: (1) the N-terminal amino acid of P16 and P17 is pyroglutamic acid; (2) the Ser residue at the sixth position of P16 is phosphorylated; (3) P17 is O-glycosylated at Thr10; and (4) the C-terminal amino acid of P16 and P17 is truncated. These findings are the first knowledge of the structure of rhBMP-15 mature protein toward understanding the molecular basis of BMP-15 function and could provide an important contribution to the rapidly progressing research area involving oocyte-specific growth factors in modulation of female fertility.     

Purification and characterization of human recombinant insulin-like growth factor binding protein 3 expressed in Chinese hamster ovary cells.

Recombinant human insulin-like growth factor binding protein 3 (hIGFBP-3) stably expressed in chinese hamster ovary cells (CHO cells) has been purified to homogeneity from serum-free culture media. The purified protein migrates as a doublet (45/43 kDa) upon SDS-PAGE. The purified recombinant hIGFBP-3 is fully active and binds one mole of IGF-I per mole of recombinant binding protein. When the transfected CHO cells are treated with tunicamycin a single 29 kDa hIGFBP-3 protein is observed. This expressed hIGFBP-3 protein maintains its ability to bind IGF-I. N-Glycanase treatment of the purified hIGFBP-3 protein results in a protein that migrates similar to E. coli-derived IGFBP-3 upon SDS-PAGE under reducing conditions (30 kDa). Carboxymethylation of hIGFBP-3 suggests that all 18 cysteines are involved in disulfide linkages. These results represent the first purification and characterization of recombinant hIGFBP-3 expressed in CHO cells.