Fatty-acid-binding protein from bovine brain. Amino acid sequence and some properties

A fatty-acid-binding protein (FABP) from the cytosol of bovine brain was purified by Sephadex G-75 filtration and electrofocusing. The purified FABP behaved as an anionic protein with an apparent molecular mass of 14.7 kDa; its complete amino acid sequence was determined and microheterogeneity was observed. Sequence comparison with other FABPs of known sequence and the observed microheterogeneity demonstrated the presence in brain of several homologous FABPs closely related to heart FABP and bovine mammary-derived growth inhibitor (MDGI).     

Candida albicans produces a cystatin-type cysteine proteinase inhibitor.

A cysteine proteinase inhibitor was found in culture media of Candida albicans. Purification to homogeneity of the inhibitor was performed by carboxymethyl-papain-Sepharose affinity, DE-52 ion-exchange, and reverse-phase high performance liquid chromatographies. The purified inhibitor had an M(r) of 15 kDa and a pI of 4.9. It was more stable to heat and pH than most proteins. The N-terminal sequence of the first 30 residues demonstrated high similarity with that of human cystatin A. Thus, C. albicans cysteine proteinase inhibitor seems to belong to the cystatin superfamily. The inhibitor activity of the yeast cellular form was 4.0 times higher than that of the hyphal cellular form in 7-day culture media. It is suggested that the inhibitor has regulatory functions similar to those of its counterpart proteinases in the invasion of host cells.     

BSTI, a trypsin inhibitor from skin secretions of Bombina bombina related to protease inhibitors of nematodes.

From skin secretions of the European frog Bombina bombina, a new peptide has been isolated that contains 60 amino acids, including 10 cysteine residues. Its sequence was determined by automated Edman degradation and confirmed by analysis of the cDNA encoding the precursor. A search in the databanks demonstrated that the pattern of cysteine residues in this skin peptide is similar to the ones found in protease inhibitors from Ascaris and in a segment of human von Willebrand factor. The 3D structure of the trypsin inhibitor from Ascaris suum could be used as a template to build a model of the amphibian peptide. In addition, we have demonstrated that this constituent of skin secretion is indeed an inhibitor of trypsin and thrombin, with K(i) values in the range of 0.1 to 1 microM. The new peptide was thus named BSTI for Bombina skin trypsin/thrombin inhibitor.     

Trypsin inhibitor from Dimorphandra mollis seeds: purification and properties

A trypsin inhibitor from Dimorphandra mollis seeds was isolated to apparent homogeneity by a combination of ammonium sulfate precipitation, gel filtration, ion-exchange and affinity chromatographic techniques. SDS-PAGE analysis gave an apparent molecular weight of 20 kDa, and isoelectric focusing analysis demonstrated the presence of three isoforms. The partial N-terminal amino acid sequence of the purified protein showed a high degree of homology with various members of the Kunitz family of inhibitors. This inhibitor, which inhibited trypsin activity with a Ki of 5.3 x 10(-10) M, is formed by a single polypeptide chain with an arginine residue in the reactive site.     

Aberrant double replication of segments of chromosomal DNA following DNA synthesis inhibition by cytosine arabinoside.

Using two different cell lines growing logarithmically, it is demonstrated that inhibition of DNA synthesis by cytosine arabinoside leads to a disruption of the sequence of replication of the chromosomal DNA. After release of the inhibition, some DNA synthesis is reinitiated in DNA segments replicated earlier in that S phase, leading to double replication of some DNA segments. This was directly demonstrated by showing that, following removal of the inhibitor, DNA was synthesized off template strands which had themselves been synthesized only 1–2 h before the addition of the inhibitor.     

Identification of small molecule compounds that selectively inhibit varicella-zoster virus replication

A series of nonnucleoside, N-alpha-methylbenzyl-N'-arylthiourea analogs were identified which demonstrated selective activity against varicella-zoster virus (VZV) but were inactive against other human herpesviruses, including herpes simplex virus. Representative compounds had potent activity against VZV early-passage clinical isolates and an acyclovir-resistant isolate. Resistant viruses generated against one inhibitor were also resistant to other compounds in the series, suggesting that this group of related small molecules was acting on the same virus-specific target. Sequencing of the VZV ORF54 gene from two independently derived resistant viruses revealed mutations in ORF54 compared to the parental VZV strain Ellen sequence. Recombinant VZV in which the wild-type ORF54 sequence was replaced with the ORF54 gene from either of the resistant viruses became resistant to the series of inhibitor compounds. Treatment of VZV-infected cells with the inhibitor impaired morphogenesis of capsids. Inhibitor-treated cells lacked DNA-containing dense-core capsids in the nucleus, and only incomplete virions were present on the cell surface. These data suggest that the VZV-specific thiourea inhibitor series block virus replication by interfering with the function of the ORF54 protein and/or other proteins that interact with the ORF54 protein.     

Molecular Cloning and Expression of Proteinaceous α-Amylase Inhibitor Gene from Streptomyces nitrosporeus in Escherichia coli

The proteinaceous α-amylase inhibitor, T-76, gene was cloned by screening a Streptomyces nitrosporeus genomic library using a deoxyinosine-containing probe corresponding to the amino acid sequence of the inhibitor. The nucleotide sequence of the insert of a positive clone had an open reading frame of 330 bp that encoded a polypeptide of 110 amino acid residues with a calculated molecular mass of 11,306 daltons. The polypeptide begins with proximal basic amino acids and a region rich in hydrophobic amino acids that possibly act as a signal peptide for secretion, which is followed by a sequence consistent with the amino-terminal amino acid sequence of the T-76 inhibitor. Escherichia coli cells harboring the plasmid derivatives for expression produced the inhibitor in their periplasmic space. The amino-terminal sequence of the inhibitor produced by an E. coli transformant was identical to that of the T-76 inhibitor secreted by S. nitrosporeus. The amino acid sequence of the inhibitor deduced from nucleotide sequence showed significant homology to other proteinaceous α-amylase inhibitors.     

Purification and sequence analysis of two rat tissue inhibitors of metalloproteinases.

Two protein inhibitors of metalloproteinases (TIMP) were isolated from medium conditioned by the clonal rat osteosarcoma line UMR 106-01. Initial purification of both a 30-kDa inhibitor and a 20-kDa inhibitor was accomplished using heparin-Sepharose chromatography with dextran sulfate elution followed by DEAE-Sepharose and CM-Sepharose chromatography. Purification of the 20-kDa inhibitor to homogeneity was completed with reverse-phase high-performance liquid chromatography. The 20-kDa inhibitor was identified as rat TIMP-2. The 30-kDa inhibitor, although not purified to homogeneity, was identified as rat TIMP-1. Amino terminal amino acid sequence analysis of the 30-kDa inhibitor demonstrated 86% identity to human TIMP-1 for the first 22 amino acids while the sequence of the 20-kDa inhibitor was identical to that of human TIMP-2 for the first 22 residues. Treatment with peptide:N-glycosidase F indicated that the 30-kDa rat inhibitor is glycosylated while the 20-kDa inhibitor is apparently unglycosylated. Inhibition of both rat and human interstitial collagenase by rat TIMP-2 was stoichiometric, with a 1:1 molar ratio required for complete inhibition. Exposure of UMR 106-01 cells to 10(-7) M parathyroid hormone resulted in approximately a 40% increase in total inhibitor production over basal levels.     

Partial amino terminal sequence of the precursor of mitochondrial ATPase inhibitor protein synthesized with mRNA partially purified by gel permeation chromatography

Messenger RNA coding mitochondrial ATPase inhibitor protein, a small peptide comprised of 63 amino acid residues, was separated from a large quantity of mRNAs of larger molecules by high speed gel permeation chromatography. Messenger RNA coding a small stabilizing factor of inactivated F1F0-ATPase complex, which is also comprised of 63 amino acids, was recovered in the same fraction as the ATPase inhibitor, whereas mRNA for a large stabilizing factor with an apparent molecular weight of 15,000 was recovered in a fraction of slightly larger molecules. ATPase inhibitor precursor labeled with various kinds of radioactive amino acids was prepared separately by cell-free translation with the purified mRNA, and the amino terminal sequence of the precursor was examined. It was demonstrated that an extra peptide of 21 amino acid residues, including 5 leucine, 4 serine, 1 glycine, and 1 methionine residues, is located at the amino terminus of the ATPase inhibitor precursor.     

Isolation, characterization and cDNA sequencing of a Kazal family proteinase inhibitor from seminal plasma of turkey (Meleagris gallopavo)

The turkey reproductive tract and seminal plasma contain a serine proteinase inhibitor that seems to be unique for the reproductive tract. Our experimental objective was to isolate, characterize and cDNA sequence the Kazal family proteinase inhibitor from turkey seminal plasma and testis. Seminal plasma contains two forms of a Kazal family inhibitor: virgin (Ia) represented by an inhibitor of moderate electrophoretic migration rate (present also in the testis) and modified (Ib, a split peptide bond) represented by an inhibitor with a fast migration rate. The inhibitor from the seminal plasma was purified by affinity, ion-exchange and reverse phase chromatography. The testis inhibitor was purified by affinity and ion-exchange chromatography. N-terminal Edman sequencing of the two seminal plasma inhibitors and testis inhibitor were identical. This sequence was used to construct primers and obtain a cDNA sequence from the testis. Analysis of a cDNA sequence indicated that turkey proteinase inhibitor belongs to Kazal family inhibitors (pancreatic secretory trypsin inhibitors, mammalian acrosin inhibitors) and caltrin. The turkey seminal plasma Kazal inhibitor belongs to low molecular mass inhibitors and is characterized by a high value of the equilibrium association constant for inhibitor/trypsin complexes.     

Protein-protein interactions: additivity of the free energies of association of amino acid residues

Additivity of contributions to the free energies of association of ovomucoid third domain inhibitors with elastase, chymotrypsin and subtilisin (Laskowski, 1980; Laskowski et al., 1981, 1983; Empie & Laskowski, 1982) is fully demonstrated by applying the mathematical method of Free and Wilson (1964) for calculating the effects of substitutions in a family of drugs. Also demonstrated is the ability to predict the activity of third domain sequences. Sensitive regions in the contact area of inhibitor and enzyme are mapped, and a sequence is suggested for a new, more powerful and selective ovomucoid third domain inhibitor of subtilisin.     

Identification and characterization of inhibitory sequences in four repeating domains of the endogenous inhibitor for calcium-dependent protease

We reported previously the cDNA cloning of the endogenous inhibitor for calcium-dependent protease (CANP inhibitor, calpastatin) and the expression of its fragments in Escherichia coli. The CANP inhibitor has four internal repeating domains each spanning about 140 amino acid residues. The inhibitory activity arises from these domains which have a well-conserved sequence, TIPPXYR, in their central positions. The inhibitory activities of various fragments expressed in E. coli suggest the involvement of the regions around the well-conserved sequences. In this report, we describe further detailed investigation on the interaction site of the CANP inhibitor with CANP by truncating inhibitor fragments and by using chemically synthesized peptides. The results clearly indicate that the sequence around the well-conserved sequence, TIPPXYR, is an interaction site. A peptide as short as 23 amino acid residues retained inhibitory activity, but a 9-residue peptide corresponding to the conserved sequence, VTIPPKYRE had none. The inhibitory sequence is suggested as LGXKDREXTIPPXYRXLL. The analysis of the competition between an inhibitor peptide and an irreversible inhibitor, E-64 for the reaction with the active site suggests no involvement of the active site cysteine residue of CANP in the inhibitory interaction between CANP and the CANP inhibitor. The high specificity of the CANP inhibitor to CANP arises from its interaction with residues other than the active site cysteine residue, possibly the subsite for substrate-binding of CANP.     

Characterization and cDNA cloning of a platelet aggregation inhibitor

A novel platelet aggregation inhibitor, sal-C, was purified to homogeneity from the venom of Korean snake (Agkistrodon halys brevicaudus). Several lines of experimental evidence clearly indicated that sal-C inhibits not only the collagen-induced platelet aggregation, but also the aggregation mediated by the cell surface glycoprotein IIb-IIIa (GP IIb-IIIa). We have isolated the cDNA encoding sal-C from the cDNA library of the snake venom gland and analyzed its complete nucleotide sequence. Sal-C is a single-chain polypeptide composed of 212 amino acids including 24 cysteines. The deduced polypeptide sequence of sal-C demonstrated considerable homology to previously described protein species of the collagen-induced platelet aggregation inhibitor family. Sal-C does not have the Arg-Gly-Asp (RGD) motif, but contains the Ser-Glu-Cys-Asp sequence. Interestingly, sal-C was found to inhibit GP IIb-IIIa binding to immobilized fibrinogen which is antagonized by the typical RGD motif of disintegrins.     

Purification and characterization of a trypsin inhibitor from Putranjiva roxburghii seeds

A highly stable and potent trypsin inhibitor was purified to homogeneity from the seeds of Putranjiva roxburghii belonging to Euphorbiaceae family by acid precipitation, cation-exchange and anion-exchange chromatography. SDS-PAGE analysis, under reducing condition, showed that protein consists of a single polypeptide chain with molecular mass of approximately 34 kDa. The purified inhibitor inhibited bovine trypsin in 1:1 molar ratio. Kinetic studies showed that the protein is a competitive inhibitor with an equilibrium dissociation constant of 1.4x10(-11) M. The inhibitor retained the inhibitory activity over a broad range of pH (pH 2-12), temperature (20-80 degrees C) and in DTT (up to100 mM). The complete loss of inhibitory activity was observed above 90 degrees C. CD studies, at increasing temperatures, demonstrated the structural stability of inhibitor at high temperatures. The polypeptide backbone folding was retained up to 80 degrees C. The CD spectra of inhibitor at room temperature exhibited an alpha, beta pattern. N-terminal amino acid sequence of 10 residues did not show any similarities to known serine proteinase inhibitors, however, two peptides obtained by internal partial sequencing showed significant resemblance to Kunitz-type inhibitors.     

The primary sequence and the subunit structure of mouse alpha-2-macroglobulin, deduced from protein sequencing of the isolated subunits and from molecular cloning of the cDNA.

Mouse plasma alpha-2-macroglobulin (m alpha 2M) was isolated and the N-terminal amino-acid sequences determined after separation of the 165-kDa and 35-kDa subunits. These sequences were compared to the protein sequence predicted by the cDNA, which was cloned from a mouse liver library and sequenced. From these data it is evident that both subunits are encoded by one mRNA of approximately 5 kb expressed predominantly in liver. The smaller subunit, with the N-terminal sequence DLSSSDLT, comprises the C-terminal 257 residues of m alpha 2M and is derived from a single-chain precursor probably by proteolytic processing at an arginine residue in the sequence PTRDLSS. Analysis of the predicted protein further showed all the salient features of a proteinase inhibitor of the macroglobulin family: a bait region that deviates from all known sequences in this family, a very conserved internal thiolester site and conserved cysteine residues and putative N-glycosylation sites. The synthesis of m alpha 2M in adult liver was demonstrated by Northern blotting and in fetal liver by in-situ hybridization. Transient transfection of COS cells with the cDNA under control of a viral promoter demonstrated the secretion and partial processing of m alpha 2M in the culture medium. In plasma the level of m alpha 2M was found to be stable as expected for the murine counterpart of human plasma alpha-2-macroglobulin. The possibilities of using the mouse as a genetic model to study this proteinase inhibitor in vivo are discussed.     

Human plasma kininogens are identical with alpha-cysteine proteinase inhibitors. Evidence from immunological, enzymological and sequence data

Human high- and low-Mr kininogens were shown to be potent inhibitors of cysteine proteinases such as cathepsin L and papain (Ki = 17-48 pM). A strong immunological cross-reaction between the kininogens and low-Mr alpha-cysteine proteinase inhibitor from human plasma was found. Comparison of partial amino acid sequences from high- and low-Mr kininogen and low-Mr alpha-cysteine proteinase inhibitor demonstrated sequence identity for all segments analyzed. These findings suggest that the kininogens and the alpha-cysteine proteinase inhibitors from human plasma are identical proteins.     

Low molecular weight serine protease inhibitors from insects are proteins with highly conserved sequences

A low molecular weight protease inhibitor peptide found in ovaries of the desert locust Schistocerca gregaria (SGPI-2), was purified from plasma of the same locust and sequenced. It was named SGCI. It was found active towards chymotrypsin and human leukocyte elastase. SGCI was synthesized using a solid-phase procedure and the sequence of its reactive site for chymotrypsin was determined. Compared with an inhibitor purified earlier from another locust species, the total sequence of SGCI showed 88% identity. In particular, the sequence of the reactive site of these inhibitors was identical. Our search for a closely related peptide in an insect species far removed from locusts, the lepidopteran Spodoptera littoralis, was unfruitful but a different chymotrypsin inhibitor, belonging to the Kazal family, was found whose mass is greater than that of SGCI (20 vs 3.6 kDa). Its N-terminal sequence shares 80% identity with that of a chymotrypsin inhibitor purified earlier from the haemolymph of another lepidopteran. Conservation of the amino acid sequence in the reactive site seems to be an exception among protease inhibitors.     

Endothelial plasminogen activator inhibitor (PAI): a new member of the Serpin gene family.

A human endothelial cDNA expression library, based on the Escherichia coli plasmid pUC9, was screened with a heterologous antibody raised against purified bovine aortic endothelial plasminogen activator inhibitor (PAI). A synthetic oligonucleotide, derived from a partial PAI cDNA expression clone, was used to select a full-length PAI cDNA, the size of which coincides with the length of PAI mRNA (approximately 2350 nucleotides) as determined by Northern blot analysis. The authenticity of full-length PAI cDNA is demonstrated by the expression of biologically active PAI both in lysates of transformed E. coli cells and in conditioned media of mouse Ltk- cells, transfected with PAI cDNA inserted into vector pSV2. Analysis of the de novo synthesized anti-plasminogen activator activity, employing reverse fibrin autography, shows that transfected mouse Ltk- cells synthesize a polypeptide with a mol. wt identical to that of the native PAI glycoprotein (Mr 52,000), whereas in E. coli an unglycosylated, active product with a mol. wt of 43,000 is made. The amino acid sequence, derived from the determined nucleotide sequence, shows that pre-PAI consists of 402 amino acids. It is proposed that the mature PAI is preceded by a signal peptide of 23 amino acid residues. The amino acid sequence of mature PAI includes three potential asparagine-linked glycosylation sites and lacks cysteine residues. The predicted amino acid sequence reveals significant homology with members of the serine protease inhibitor (Serpin) family, e.g. alpha 1-proteinase inhibitor and antithrombin III.(ABSTRACT TRUNCATED AT 250 WORDS)     

Biosynthesis of bacillomycin D by Bacillus subtilis. Evidence for amino acid-activating enzymes by the use of affinity chromatography.

Bacillomycin D is an antifungal lipopeptide produced by B. subtilis. The formation of the peptidyl bonds of bacillomycin D occurs non-ribosomally, as demonstrated by the use of chloramphenicol, an inhibitor of protein biosynthesis. Amino acid-activating enzymes were found in B. subtilis cell lysates purified by affinity chromatography on a gel containing L-Pro, an amino acid of bacillomycin D. Presence of ATP during this purification increases the binding of enzymatic proteins and their activity. An enzyme, with an apparent molecular weight of 230 kDa, catalyzed ATP-PPi exchange reactions, which were mediated by specific amino acids, corresponding to a partial sequence of bacillomycin D.