Predicting human immunodeficiency virus protease cleavage sites in proteins by a discriminant function method.

Based on the sequence-coupled (Markov chain) model and vector-projection principle, a discriminant function method is proposed to predict sites in protein substrates that should be susceptible to cleavage by the HIV-1 protease. The discriminant function is defined by delta = phi+ - phi-, where phi+ and phi- are the cleavable and noncleavable attributes for a given peptide, and they can be derived from two complementary sets of peptides, S+ and S-, known to be cleavable and noncleavable, respectively, by the enzyme. The rate of correct prediction by the method for the 62 cleavable peptides and 239 noncleavable peptides in the training set are 100 and 96.

CXC chemokines connective tissue activating peptide-III and neutrophil activating peptide-2 are heparin/heparan sulfate-degrading enzymes.

Heparan sulfate proteoglycans at cell surfaces or in extracellular matrices bind diverse molecules, including growth factors and cytokines, and it is believed that the activities of these molecules may be regulated by the metabolism of heparan sulfate. In this study, purification of a heparan sulfate-degrading enzyme from human platelets led to the discovery that the enzymatic activity residues in at least two members of the platelet basic protein (PBP) family known as connective tissue activating peptide-III (CTAP-III) and neutrophil activating peptide-2. PBP and its N-truncated derivatives, CTAP-III and neutrophil activating peptide-2, are CXC chemokines, a group of molecules involved in inflammation and wound healing.

The HIV-1 protease as enzyme and substrate: mutagenesis of autolysis sites and generation of a stable mutant with retained kinetic properties.

Site-directed mutagenesis of autolysis sites in the human immunodeficiency virus type 1 (HIV-1) protease was applied in an analysis of enzyme specificity; the protease served, therefore, as both enzyme and substrate in this study. Inspection of natural substrates of all retroviral proteases revealed the absence of beta-branched amino acids at the P1 site and of Lys anywhere from P2 through P2'. Accordingly, several mutants of the HIV-1 protease were engineered in which these excluded amino acids were substituted at their respective P positions at the three major sites of autolysis in the wild-type protease (Leu5-Trp6, Leu33-Glu34, and Leu63-Ile64), and the mutant enzymes were evaluated in terms of their resistance to autodegradation.

Human immunodeficiency virus type-1 reverse transcriptase and ribonuclease H as substrates of the viral protease.

A study has been made of the susceptibility of recombinant constructs of reverse transcriptase (RT) and ribonuclease H (RNase H) from human immunodeficiency virus type 1 (HIV-1) to digestion by the HIV-1 protease. At neutral pH, the protease attacks a single peptide bond, Phe440-Tyr441, in one of the protomers of the folded, active RT/RNase H (p66/p66) homodimer to give a stable, active heterodimer (p66/p51) that is resistant to further hydrolysis (Chattopadhyay, D., et al.

An active FK506-binding domain of 17,000 daltons is isolated following limited proteolysis of chicken thymus hsp56.

We have previously identified hsp56, a protein component of steroid receptor complexes, as an FK506 binding protein [Yem et al. (1992) J. Biol.

Large scale purification and refolding of HIV-1 protease from Escherichia coli inclusion bodies.

The protease encoded by the human immunodeficiency virus type 1 (HIV-1) was engineered in Escherichia coli as a construct in which the natural 99-residue polypeptide was preceded by an NH2-terminal methionine initiator. Inclusion bodies harboring the recombinant HIV-1 protease were dissolved in 50% acetic acid and the solution was subjected to gel filtration on a column of Sephadex G-75. The protein, eluted in the second of two peaks, migrated in SDS-PAGE as a single sharp band of M(r) approximately 10,000.

An examination of structural interactions presumed to be of importance in the stabilization of phospholipase A2 dimers based upon comparative protein sequence analysis of a monomeric and dimeric enzyme from the venom of Agkistrodon p. piscivorus.

Phospholipases A2 may exist in solution both as monomers and dimers, but enzymes that form strong dimers (KD approximately 10(-9) M) have been found, thus far, only in venoms of the snake family Crotilidae. The complete amino acid sequences of a basic monomeric and an acidic dimeric phospholipase A2 from Agkistrodon piscivorus piscivorus (American cottonmouth water moccasin) venom have been determined by protein sequencing methods as part of a search for aspects of structure contributing to formation of stable dimers. Both the monomeric and dimeric phospholipases A2 are highly homologous to the dimeric phospholipases A2 from Crotalus atrox and Crotalus adamanteus venoms, and both have the seven residue carboxy-terminal extension characteristic of the crotalid and viperid enzymes.

Structural alterations in the peptide backbone of beta-amyloid core protein may account for its deposition and stability in Alzheimer's disease.

The structure of beta-amyloid (beta A) from Alzheimer disease brains was examined to determine if post-translational modifications might be linked to the abnormal deposition of this peptide in the diseased tissue. The beta A peptides were isolated from the compact amyloid cores of neuritic plaques and separated from minor glycoprotein components by size-exclusion high-pressure liquid chromatography (HPLC). This parenchymal beta A has a maximal length of 42 residues, but shorter forms with "ragged" NH2 termini are also present.

Sequence analysis and expression of the cDNA for the phenol-sulfating form of human liver phenol sulfotransferase.

A cDNA encoding the human liver phenol-sulfating form of phenol sulfotransferase (P-PST) has been isolated and characterized from a lambda Uni-Zap XR human liver cDNA library. P-PST is the major form of phenol sulfotransferase involved in drug and xenobiotic metabolism in human liver. P-PST is also responsible for the sulfation and activation of minoxidil to its therapeutically active sulfate ester.

Tissue distribution and cellular localization of hsp56, an FK506-binding protein. Characterization using a highly specific polyclonal antibody.

Heat shock protein 56 (hsp56) has been shown to be involved in two cellular pathways, as an immunophilin for FK506 and as a component of steroid receptor complexes. To help define its role in these cellular pathways, we have developed UPJ56, a polyclonal antibody raised against hsp56 purified from Jurkat cells. In Western blot experiments, hsp56 was highly expressed in rat thymus, liver, and spleen, with low levels in lung and muscle.

Sequence analysis, in vitro translation, and expression of the cDNA for rat liver minoxidil sulfotransferase.

A cDNA encoding minoxidil sulfotransferase (Mx-ST), a rat liver cytosolic sulfotransferase that catalyzes the 3'-phosphoadenosine 5'-phosphosulfate-dependent sulfate conjugation of minoxidil and p-nitrophenol, has been isolated from a lambda gt11 cDNA library constructed from poly(A)+ RNA isolated from female Sprague-Dawley rat liver. The largest cDNA, designated Mx-STb, consists of 1245 base pairs and contains an open reading frame of 291 amino acids. The predicted size of the protein translated by Mx-STb is 33,909 Da; however, the molecular mass of the pure protein [Biochem.

Chemical synthesis of a biotinylated derivative of the simian immunodeficiency virus protease. Purification by avidin affinity chromatography and autocatalytic activation.

The protease from simian immunodeficiency virus (SIV) was chemically synthesized by automated solid-phase technology as an NH2-terminally extended derivative, capped with biotin. Biotin-linker-(SIV protease (1-99)): the linker segment, Gly-Gly-Asp-Arg-Gly-Phe-Ala-Ala, corresponds to the amino acid sequence preceding that of the protease in the SIV gag/pol precursor polyprotein. Accordingly, the Ala-Pro bond joining the octapeptide linker to the protease constitutes a site naturally cleaved by the protease during viral maturation.

Nucleotide sequence and expression of the capsid protein gene of feline calicivirus.

The sequence of the 3'-terminal 2,486 bases of the feline calicivirus (FCV) genome was determined. This region of the FCV genome, from which the 2.4-kb subgenomic RNA is derived, contained two open reading frames.

Zinc inhibition of renin and the protease from human immunodeficiency virus type 1.

We report here for the first time that Zn2+ is an effective inhibitor of renin and the protease from HIV-1, two aspartyl proteinases of considerable physiological importance. Inhibition of renin is noncompetitive and is accompanied by binding of 1 mol of Zn2+/mol of enzyme. Depending on the substrate, inhibition of the HIV protease by Zn2+ can be either competitive or noncompetitive, but in neither case is loss of activity due to disruption of the protease dimer.

Calcium-free calmodulin is a substrate of proteases from human immunodeficiency viruses 1 and 2.

Calcium-free calmodulin-(CaM) is rapidly hydrolyzed by proteases from both human immunodeficiency viruses (HIV) 1 and 2. Kinetic analysis reveals a sequential order of cleavage by both proteases which initiates in regions of the molecule known from X-ray crystallographic analysis of Ca2+/CaM to be associated with calcium binding. Although HIV-1 and HIV-2 proteases hydrolyze two bonds in common, the initial site of cleavage required for subsequent events differs in each case.

Ingestion of Legionella micdadei inhibits human neutrophil function.

Legionella micdadei is a human pathogen which survives within leukocytes. To determine how this organism escapes intracellular destruction, we examined its effect on human neutrophil activity. Neutrophils were allowed to ingest L.

Specificity and inhibition of proteases from human immunodeficiency viruses 1 and 2.

Highly purified, recombinant preparations of the virally encoded proteases from human immunodeficiency viruses (HIV) 1 and 2 have been compared relative to 1) their specificities toward non-viral protein and synthetic peptide substrates, and 2) their inhibition by several P1-P1' pseudodipeptidyl-modified substrate analogs. Hydrolysis of the Leu-Leu and Leu-Ala bonds in the Pseudomonas exotoxin derivative, Lys-PE40, is qualitatively the same for HIV-2 protease as published earlier for the HIV-1 enzyme (Tomasselli, A. G.

Purification and characterization of interleukin 1 receptor level antagonist proteins from THP-1 cells.

Culture medium conditioned by phorbol 12-myristate 13-acetate-differentiated THP-1 cells contained interleukin 1 (IL-1) antagonist activity as measured by inhibition of both IL-1 beta binding to receptors on YT cells and inhibition of IL-1/phytohemagglutinin-stimulated IL-2 synthesis by LBRM-33-1A5 T cells. Based on their ability to compete for 125I-IL-1 beta binding to receptors on YT cells, four distinct antagonist proteins were purified from THP-1 cell conditioned medium using a combination of ion-exchange, hydrophobic interaction, and size exclusion chromatographies. The four proteins had different isoelectric points with molecular masses in the range 22-26 kDa and had similar specific activities for inhibition of IL-1 beta binding to cell surface receptors (Ki values 0.

Proteases from human immunodeficiency virus and avian myeloblastosis virus show distinct specificities in hydrolysis of multidomain protein substrates.

The virally encoded proteases from human immunodeficiency virus (HIV) and avian myeloblastosis virus (AMV) have been compared relative to their ability to hydrolyze a variant of the three-domain Pseudomonas exotoxin, PE66. This exotoxin derivative, missing domain I and referred to as LysPE40, is made up of a 13-kilodalton NH2-terminal translocation domain II connected by a segment of 40 amino acids to enzyme domain III of the toxin, a 23-kilodalton ADP-ribosyltransferase. HIV protease hydrolyzes two peptide bonds in LysPE40, a Leu-Leu bond in the interdomain region and a Leu-Ala bond in a nonstructured region three residues in from the NH2-terminus.

The nucleotide sequences of the 3'-terminal regions of papaya ringspot virus strains W and P.

The sequences of cDNA clones encoding most of the NIb protein, the coat protein and the 3' untranslated region of papaya ringspot virus (PRV) strains W and P have been determined. The open reading frame of P strain PRV was confirmed by amino acid analysis. Nucleotide sequence comparisons of these strains show that they share a 98.

Dimerization and activation of porcine pancreatic phospholipase A2 via substrate level acylation of lysine 56.

The porcine pancreatic phospholipase A2-catalyzed hydrolysis of the water-soluble chromogenic substrate 4-nitro-3-octanoyloxybenzoate shows an initial latency phase similar to the one observed in the hydrolysis of aggregated phospholipids by the same enzyme. We report here that during the latency phase the enzyme undergoes a slow, autocatalytic, substrate-level acylation whereby in a few of the catalytic events the scissile octanoyl group of the substrate, normally transferred to water, is transferred to the epsilon-amino group of lysine 56. The N epsilon 56-octanoylphospholipase shows a strong tendency to dimerize in solution and thus may be separated from the monomeric native enzyme by gel filtration.

Purification and characterization of invertase from a novel industrial yeast, Schwanniomyces occidentalis.

The use of yeast as an expression system for heterologous proteins offers several potential advantages with respect to industrial scale-up and genetics over other expression systems, but suffers from several drawbacks. For example, the secreted proteins of S. cerevisiae, found in the periplasm, are hyperglycosylated and the organism has a limited range of usable substrates.

Isolation and sequence determination of an active site peptide of rabbit muscle pyruvate kinase.

Rabbit muscle pyruvate kinase was inactivated by 2', 3'-dialdehyde ADP with the incorporation of one molecule of reagent per enzyme subunit. The inactivated protein was digested with trypsin after reduction and carboxymethylation. The labeled peptide was isolated by gel filtration and further purified by HPLC.

Characterization of the structure and function of three phospholipases A2 from the venom of Agkistrodon halys pallas.

Three monomeric phospholipases A2 with isoelectric points 4.5, 6.9 and 9.

Structural and functional properties of a phospholipase A2 purified from an inflammatory exudate.

The cell-free supernatant of sterile inflammatory peritoneal exudates contains a phospholipase A2 that participates in the digestion of Escherichia coli killed by polymorphonuclear leukocytes or by the purified bactericidal/permeability increasing protein (BPI) of these cells. This phospholipase A2 has been purified, and the sequence of the NH2-terminal 39 amino acids has been determined and compared with sequences of both BPI-responsive and BPI-nonresponsive phospholipases A2 from snake venoms and mammalian pancreas. The high concentration and location of basic residues in the NH2-terminal region is a common feature of BPI-responsive phospholipases A2 and may characterize those phospholipases A2 participating in inflammatory events.