Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.64 (proteinase K)
4,071 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

At a low pH, the influenza virus hemagglutinin (HA) undergoes conformational changes that promote membrane fusion. While the critical role of fusion peptide release from the trimer interface has been demonstrated previously, the role of globular head dissociation in the overall fusion mechanism remains unclear. To investigate this question, we have analyzed in detail the fusion activity and low pH-induced conformational changes of a mutant, Cys-HA, in which the globular head domains are locked together by engineered intermonomer disulfide bonds (L. Godley, J. Pfeifer, D. Steinhauer, B. Ely, G. Shaw, R. Kaufmann, E. Suchanek, C. Pabo, J. J. Skehel, D. C. Wiley, and S. Wharton, Cell 68:635-645, 1992). In this paper, we show that Cys-HA expressed on the cell surface is predominantly a disulfide-bonded trimer. Cell surface Cys-HA is impaired in its membrane fusion activity, as demonstrated by both content-mixing and lipid-mixing fusion assays. It is also impaired in its ability to change conformation at a low pH, as assessed by proteinase K sensitivity. The fusion activity and low pH-induced conformational changes of cell surface Cys-HA are, however, restored to nearly wild-type levels upon reduction of the intermonomer disulfide bonds. By using a set of conformation-specific monoclonal and anti-peptide antibodies, we found that purified Cys-HA trimers are impaired in changes that occur in the globular head domain interface. In addition, changes that occur at a great distance from the engineered intermonomer disulfide bonds, notably release of the fusion peptides, are also impaired. Our results are discussed with respect to current views of the fusion-active conformation of the HA trimer.
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PMID:Intermonomer disulfide bonds impair the fusion activity of influenza virus hemagglutinin. 162 60

The composition of the large helical internal components of influenza virus was investigated by immunogold labeling/electron microscopy with antibodies to the nucleoprotein (NP), matrix protein (M), and polymerase complex (PB1, PB2, and PA) of the virus. The morphologically intact helices, obtained by air-drying of the virions on the electron microscope grid, showed little or no labeling with any of the above antibodies. However, partial to full degradation of the helix by proteinase K (2 ng/ml) prior to immunogold labeling made the helices accessible to all three antibodies. The results are consistent with a model that the helix represents a polymer of M protein enclosing or containing the influenza ribonucleoprotein(s).
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PMID:Composition of the helical internal components of influenza virus as revealed by immunogold labeling/electron microscopy. 172 5

The membrane orientation of the NB protein of influenza B virus, a small (Mr, approximately 18,000) glycoprotein with a single internal hydrophobic domain, was investigated by biochemical and genetic means. Cell fractionation and protein solubility studies indicate NB is an integral membrane protein, and NB has been shown to be a dimer under nonreducing conditions. Treatment of infected-cell surfaces with proteinase K and endoglycosidase F and immunoprecipitation with a site-specific antibody suggests that the 18-amino-acid NH2-terminal region of NB is exposed at the cell surface. Oligonucleotide-directed mutagenesis to eliminate each of the four potential sites of N-linked glycosylation and expression of the mutant NB proteins in eucaryotic cells suggest that the two sites adjacent to the NH2 terminus are glycosylated. This provides further evidence that NB, which lacks a cleavable NH2-terminal signal sequence, has an exposed NH2 terminus at the cell surface.
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PMID:Determination of the orientation of an integral membrane protein and sites of glycosylation by oligonucleotide-directed mutagenesis: influenza B virus NB glycoprotein lacks a cleavable signal sequence and has an extracellular NH2-terminal region. 302 52

The hemagglutinin (HA) spike glycoprotein of influenza virus catalyzes a low pH-induced membrane fusion event which releases the viral genome into the host cell cytoplasm. To study the fusion mechanism in more detail, we have prepared the ectodomain of HA in water-soluble form by treating virus particles with bromelain. Under mildly acidic conditions (pH less than or equal to 5.8), the ectodomain undergoes a conformational change which we found to be biochemically and immunologically equivalent to that in native viral HA. It became sensitive to proteinase K, it exposed new antigenic epitopes in its HA1 chain, and it acquired amphiphilic properties, notably the ability to bind to liposomes. The attachment to liposomes exhibited the same pH dependence and rapid kinetics as the conformational change and was mediated by HA2. The nature of the attachment resembled that of an integral membrane protein except that the bound HA was partially removed by base. As observed for virus fusion, attachment is independent of divalent cations and lipid composition. Temperature was found to be a critical parameter only with dimyristoylphosphatidycholine vesicles where attachment was partially blocked below the major phase transition. These and other results obtained indicated that the low pH-induced conformational change in the isolated ectodomain is equivalent to that occurring in intact viral HA, and that its attachment to liposomes can serve as a model for the initial stages in the HA-induced membrane fusion reaction.
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PMID:Membrane fusion activity of the influenza virus hemagglutinin. The low pH-induced conformational change. 397 12

The fusion kinetics with erythrocyte ghosts of two influenza A virus strains, A/Aichi/2/68 (X:31) and A/PR/8/34 (PR/8), were compared and correlated with the kinetics of haemagglutinin (HA) conformational change. Previously it had been shown that X:31 fuses with liposomes or erythrocytes at 4 degrees C, pH 5 after a lag time of 5 to 10 min whereas PR/8 displayed no fusion with liposomes at that temperature. We have confirmed the absence of cold fusion by PR/8 with erythrocyte ghosts. In contrast to X:31, PR/8 could not be committed to fuse at neutral pH and 37 degrees C by a preincubation at low pH and 4 degrees C. To examine whether the lack of commitment and cold fusion were due to a failure of PR/8 HA to undergo conformational changes at low temperature and pH, we analysed susceptibility of HA to proteinase K digestion, liposome binding to the virus, and immunoprecipitations of HA with conformation-specific antibodies. Although there was little binding of PR/8 to liposomes at 4 degrees C and pH 5, we did observe exposure of the fusion peptide. This study reveals a low temperature intermediate in membrane fusion exhibited by the HA of influenza virus strain PR/8, which involves low pH-induced conformational changes including exposure of the fusion peptide with little interaction of HA with the target membrane.
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PMID:Intermediates in influenza virus PR/8 haemagglutinin-induced membrane fusion. 811 61

The results of biochemical and immunoelectron microscopic studies provide evidence that the NB protein is an integral component of the influenza B virion. Its glycosylation and orientation in the membrane were shown to be equivalent to that of NB in the plasma membrane of virus-infected cells. Sensitivity to proteinase K showed that the N terminus is exterior to the virion and gold immunolabelling of freeze-fractured replicas showed that the C terminus is located in the interior of the virion. The similarities between NB of influenza B and M2 of influenza A viruses in structural features, their presence in the virion and possession of an ion channel activity suggest that, by analogy with the M2 protein, NB may also have a role in virus entry.
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PMID:The NB protein is an integral component of the membrane of influenza B virus. 892 61

The HIV-1 envelope subunit gp41 plays a role in viral entry by initiating fusion of the viral and cellular membranes. A chimeric molecule was constructed centered on the ectodomain of gp41 without the fusion peptide, with a trimeric isoleucine zipper derived from GCN4 (pIIGCN4) on the N terminus and part of the trimeric coiled coil of the influenza virus hemagglutinin (HA) HA2 on the C terminus. The chimera pII-41-HA was overexpressed as inclusion bodies in bacteria and refolded to soluble aggregates that became monodisperse after treatment with protease. Either trypsin or proteinase K, used previously to define a protease-resistant core of recombinant gp41 [Lu, M., Blacklow, S. C. & Kim, P. S. (1995) Nat. Struct. Biol. 2, 1075-1082], removed about 20-30 residues from the center of gp41 and all or most of the HA2 segment. Evidence is presented that the resulting soluble chimera, retaining the pIIGCN4 coiled coil at the N terminus, is an oligomeric highly alpha-helical rod about 130 A long that crystallizes. The chimeric molecule is recognized by the Fab fragments of mAbs specific for folded gp41. A similar chimera was assembled from the two halves of the molecule expressed separately in different bacteria and refolded together. Crystals from the smallest chimera diffract x-rays to 2.6-A resolution.
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PMID:Assembly of a rod-shaped chimera of a trimeric GCN4 zipper and the HIV-1 gp41 ectodomain expressed in Escherichia coli. 917 69

Background: RNA is extensively degraded by routine formalin fixation to fragments averaging 200 nucleotides (nt). Several methods for the recovery of amplifiable RNA from formalin-fixed, paraffin-embedded tissue have been described; however, a universally accepted approach in a clinical molecular diagnostic laboratory has not yet emerged. Methods and Results: Amplifiable RNA can be recovered with high efficiency from all types of formalin-fixed, paraffin-embedded tissue using proteinase K digestion, either a phenol-chloroform or an acidic guanidinium thiocyanate-phenol chloroform extraction step, and isopropanol precipitation in the presence of glycogen. Designing primers to detect a small target was critical for consistent RNA amplification in the following assays, with the target size indicated: hepatitis C virus, 169nt; morbillivirus, 78 nt; influenza virus, 113 nt; the npm-alk fusion product resulting from t(2;5) translocation, 175 nt; and the bcr-abl fusion product resulting from t(9;22) translocation, 93 or 168 nt. Conclusions: With use of beta-2-microglobulin as the control messenger RNA target for assessing the recovery of amplifiable RNA from human tissue, amplifiable RNA was recovered from 216 of 225 blocks (96%). In a series of veterinary specimens, which were largely postmortem and moderately to severely autolyzed, 158 of 199 blocks (79%) yielded amplifiable RNA using a beta-actin target. Amplifiable influenza RNA has been recovered from archival paraffin blocks as old as 79 years.
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PMID:Optimization of the Isolation and Amplification of RNA From Formalin-fixed, Paraffin-embedded Tissue: The Armed Forces Institute of Pathology Experience and Literature Review. 1046 13

A hemagglutinin (HA) of influenza virus having a single semiconserved Gly residue within the transmembrane domain mutated to Leu (G520L) was expressed on cells; these cells were bound to red blood cells. By decreasing pH at 23 degrees C rather than 37 degrees C, an intermediate with properties expected of hemifusion just as the membranes are about to transit to full fusion was captured. As evidence: 1) increasing temperature to 37 degrees C at neutral pH allowed fusion to proceed; 2) after achieving the intermediate, the two membranes did not separate from each other after proteolytic cleavage of G520L because cells treated with proteinase K could not fuse upon temperature increase but could fuse upon the addition of chlorpromazine; and 3) at the point of the intermediate, adding exogenous lipids known to promote or inhibit the creation of hemifusion did not significantly alter the lipid dye spread that occurred upon increasing temperature, implying that at the intermediate, contacting membrane leaflets had already merged. A stable intermediate of hemifusion that could transit to fusion was also generated for wild-type HA, but pH had to be reduced at the significantly lower temperature of 4 degrees C. The fusion pores generated by G520L did not enlarge, whereas those induced by wild-type HA did. The finding that a state of transitional hemifusion can be readily obtained via a point mutation without the need for unusually low temperature supports the hypothesis that hemifusion occurs before pore formation.
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PMID:A point mutation in the transmembrane domain of the hemagglutinin of influenza virus stabilizes a hemifusion intermediate that can transit to fusion. 1107 5

A partial dissociation of the HA1 subunits of influenza virus hemagglutinin (HA) is considered to be the initial step of conformational changes of the HA ectodomain leading to a membrane fusion active conformation (L. Godley, J. Pfeifer, D. Steinhauer, B. Ely, G. Shaw, R. Kaufman, E. Suchanek, C. Pabo, J.J. Skehel, D.C. Wiley, and S. Wharton, 1992, Cell 68:635-645; G.W. Kemble, D.L.Bodian, J. Rose, I.A. Wilson, and J.M. White, 1992, J. Virol. 66:4940-4950). Here, we explore a mechanism that provides an understanding of the physical and chemical basis for such dissociation and relies on two essential observations. First, based on the x-ray structure of HA from X31 (I.A. Wilson, J.J. Skehel, and D.C. Wiley, 1981, Nature 289:366-373), and by employing techniques of molecular modeling, we show that the protonation of the HA1 subunits is enhanced at the conditions known to trigger conformational changes of the HA ectodomain. Second, we found that the dependence of the calculated relative degree of protonation of the HA1 domain on temperature and pH is similar to that observed experimentally for the conformational change of HA assessed by proteinase K sensitivity. We suggest that at the pH-temperature conditions typical for the conformational change of HA and membrane fusion, dissociation of the HA1 subunits is caused by the enhanced protonation of the HA1 subunits leading to an increase in the positive net charge of these subunits and, in turn, to a weakened attraction between them.
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PMID:Protonation and stability of the globular domain of influenza virus hemagglutinin. 1180 44


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