UMLS:C0155339 - FACTA Search

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Query: UMLS:C0155339 (Brown)
12,436 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutant V.24.1, a member of the End4 complementation group of temperature-sensitive CHO cells, is defective in secretion at the restrictive temperature (Wang, R.-H., P. A. Colbaugh, C.-Y. Kao, E. A. Rutledge, and R. K. Draper. 1990. J. Biol. Chem. 265:20179-20187; Presley, J. F., R. K. Draper, and D. T. Brown. 1991. J. Virol. 65:1332-1339). We have further investigated the secretory lesion and report three main findings. First, the block in secretion is not due to aberrant folding or oligomerization of secretory proteins in the endoplasmic reticulum because the hemagglutinin of influenza virus folded and oligomerized at the same rate in mutant and parental cells at the restrictive temperature. Second, secretory proteins accumulated in a compartment intermediate between the ER and the Golgi. Several lines of evidence support this conclusion, the most direct being the colocalization by immunofluorescence microscopy of influenza virus hemagglutinin with a 58-kD protein that is known to reside in an intermediate compartment. Third, at the resolution of fluorescence microscopy, the Golgi complex in the mutant cells vanished at the restrictive temperature.
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PMID:Retention of secretory proteins in an intermediate compartment and disappearance of the Golgi complex in an END4 mutant of Chinese hamster ovary cells. 157 51

The influenza virus hemagglutinin (HA) temperature-sensitive (ts) mutant, ts61S, contains a nucleotide change in RNA segment 4 which leads to an amino acid change at HA1 residue 110 of serine to proline. When ts61S HA is synthesized and maintained at the nonpermissive temperature (39.5 degrees), the HA is defective in transport in the exocytic pathway and is retained in the endoplasmic reticulum (S. Nakajima, D. J. Brown, M., Ueda, K., Nakajima, A. Suguira, A. K. Pattnaik, and D. P. Nayak, 1986, Virology 154, 279-285). In a comparison of the biochemical properties of ts61S HA and A/WSN/33 HA (wt) expressed at the permissive temperature (33 degrees), we have found that ts61S HA is extensively debilitated. A large proportion of ts61S HA fails to gain reactivity with conformation-specific monoclonal antibodies and does not become resistant to protease digestion. In turn, a large population of the molecules are not transported from the ER to the Golgi apparatus or cell surface with the same kinetics or efficiency as wt HA. These data suggest that the serine to proline change at HA1 residue 110 leads to partial impairment of folding at the permissive temperature with complete impairment at the nonpermissive temperature.
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PMID:Influenza virus ts61S hemagglutinin is significantly defective in polypeptide folding and intracellular transport at the permissive temperature. 192 89

At pH 5 influenza virus hemagglutinin undergoes an irreversible conformational change (J.J. Skehel, P. M. Bayley, E. B. Brown, S. R. Martin, M. D. Waterfield, J. M. White, I. A. Wilson, and D. C. Wiley (1982). Proc. Natl. Acad. Sci. USA 79, 968-972) which parallels the appearance of fusion activity of this molecule. This paper describes experiments which explore the conformational change using a panel of monoclonal antibodies which define four of the major antigenic sites of this protein. The results indicate that three of the major antigenic sites of hemagglutinin undergo changes when exposed to acid pH. These changes have little effect on the binding avidity of influenza virus to glycophorin, the major receptor present on the red blood cell surface. These findings have been used to postulate a mechanism where the molecule flexes around a central region resulting in rearrangement in space of its component domains on exposure to low pH.
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PMID:Antigenic determinants of influenza virus hemagglutinin. XI. Conformational changes detected by monoclonal antibodies. 240 71

Sequence analysis of the neuraminidase (NA) genes of influenza virus X-7(F1) and of 12 variants selected with monoclonal antibodies has been used to define in physical terms the antigenic structure of this NA, which was operationally established by R. G. Webster, L. E. Brown, and W. G. Laver (1984, Virology 135, 30-42). X-7(F1) is a reassortant virus containing the NA of the early Asian (H2N2) isolate A/RI/5+/57, and the results of antigenic and sequence analysis of X-7(F1) and of variants selected with monoclonal antibodies have been combined with a similar analysis of the A/Tokyo/3/67 NA (H2N2, M. R. Lentz, G. M. Air, W. G. Laver, and R. G. Webster (1984), Virology 135, 257-265) to obtain a model of antibody binding to N2 NAs. The selection process was biased, however, since only those monoclonal antibodies which inhibited NA activity could be used to select variants. Most of the changes in the variants selected with monoclonal antibodies occur in those parts of the polypeptide chain which encircle the enzyme active site pocket in the three-dimensional structure (P. M. Colman, J. N. Varghese, and W. G. Laver (1983), Nature (London) 303, 41-44). The results suggest that in general the antibody binds to a site on the NA which includes those amino acid side chains which are altered in monoclonal variants. There are, however, several aspects of the antigen-antibody interaction which are not easily explained, and which will probably only be fully elucidated by X-ray crystallographic analysis of NA-antibody complexes.
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PMID:Location of antigenic sites on the three-dimensional structure of the influenza N2 virus neuraminidase. 241 Oct 49

The cDNA derived from the Newcastle disease virus (NDV) hemagglutinin-neuraminidase (HN) gene was inserted into a replication-competent Schmidt-Ruppin Rous sarcoma virus-derived vector. Chick embryo cells transfected with this vector expressed HN-sized protein which could be precipitated with anti-HN antibody. These cells adsorbed avian red blood cells and the cell surfaces exhibited neuraminidase activity while cells transfected with an antisense version of the gene were negative for hemadsorption and neuraminidase. The cells transfected with the retroviral vector containing the HN gene were resistant to infection by NDV and influenza virus, viruses which bind to sialic acid containing receptors, but sensitive to vesicular stomatitis virus (VSV). Cells transfected with the antisense version of the HN gene were sensitive to NDV, influenza virus, and VSV infection. Thus the HN protein-expressing cells are likely resistant to NDV and influenza virus due to the destruction of the cellular receptors by the neuraminidase of the HN protein. The expression of the influenza virus HA protein using the same retrovirus vector has been reported previously (L. A. Hunt, D. W. Brown, H. L. Robinson, C. W. Naeve, and R. G. Webster, 1988, J. Virol. 62, 3014-3019). Cells infected with this vector were sensitive to infection with influenza virus, NDV, and VSV. Thus expression of a viral surface protein does not necessarily confer resistance of the cell to the homologous virus.
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PMID:Avian cells expressing the Newcastle disease virus hemagglutinin-neuraminidase protein are resistant to Newcastle disease virus infection. 254 25

X-ray quality crystals which diffract to high resolution (less than or equal to 1.9-2.1 A) have been grown of an anti-peptide Fab and its complex with a 9-residue peptide antigen. Both crystals are monoclinic P2(1), with unit cell dimensions a = 90.3 A, b = 82.9 A, c = 73.4 A, beta = 122.5 degrees for the native Fab and a = 63.9 A, b = 73.0 A, c = 49.1 A, beta = 120.6 degrees for the complex. The peptide sequence corresponds to residues 100-108 of all influenza virus hemagglutinins (HA1) of the H3 subtype (1968-1987). The peptide antigen has been well characterized immunologically (Wilson, I.A., Niman, H.L., Houghton, R.A., Cherenson, A.R., Connolly, M.L., and Lerner, R.A. (1984) Cell 37, 767-778; Wilson, I.A., Bergmann, K.F., and Stura, E.A. (1986) in Vaccines '86 (Channock, R.M., Lerner, R.A., and Brown, F., eds) pp. 33-37, Cold Spring Harbor Laboratory, Cold Spring Harbor, NY), structurally, as a free peptide by NMR (Dyson, J.H., Cross, K.J., Houghton, R.A., Wilson, I.A., Wright, P.E., and Lerner, R.A. (1985) Nature 318, 480-483; Dyson, J.H., Lerner, R.A., and Wright, P.E., (1988) Annu. Rev. Biophys. Chem. 17, 305-324), as part of the intact antigen by x-ray crystallography (Wilson, I.A., Skehel, J.J., and Wiley, D. C. (1981) Nature 289, 366-373) and by binding studies to the HA molecule (White, J.M., and Wilson, I.A. (1987) J. Cell Biol. 105, 2887-2896). Knowledge of the three-dimensional structure of the complex will elucidate the details of how anti-peptide antibodies recognize a small peptide antigen and provide insights into the recognition of the same sequence in the intact protein antigen. As both native Fab and the peptide-Fab complex have been crystallized, we can also determine in addition whether changes in the structure of the antibody accompany antigen binding. The nucleotide sequence of the mRNA coding region of the anti-peptide Fab has been determined to provide the amino acid sequence ultimately required for the high resolution three-dimensional structure determination.
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PMID:Preliminary crystallographic data, primary sequence, and binding data for an anti-peptide Fab and its complex with a synthetic peptide from influenza virus hemagglutinin. 318 35

In simple epithelial cells, the delivery of apical and basolateral proteins to the cell surface is mediated by sorting in the trans-Golgi network and transport via separate vesicular carriers. In order to identify the molecular machinery involved in protein sorting, we have recently studied a detergent-insoluble complex in Madin-Darby canine kidney (MDCK) cells, following CHAPS extraction of exocytic carrier vesicles, specifically including the apical marker protein influenza hemagglutinin (HA). Previously, a Triton X-100 insoluble membrane residue that was enriched in glycosylphosphatidylinositol-anchored (GPI) proteins and glycolipids was characterized and implicated in transport to the apical cell surface [Brown, D., & Rose, J. (1991) Cell 68, 533-544]. In this report, the protein compositions of the CHAPS and Triton complexes have been compared by two-dimensional gel analysis. Only a few major membrane proteins are found in the complexes. The protein compositions are qualitatively similar, but differ quantitatively in the individual components. The CHAPS complex is depleted of GPI-linked proteins and retains a minor fraction of lipids similar in composition to that of the Triton X-100 insoluble complex. We propose that in vivo the complexes form part of a sorting platform that mediates protein segregation and delivery to the apical cell surface.
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PMID:Glycosphingolipid-enriched, detergent-insoluble complexes in protein sorting in epithelial cells. 851 82

Upper respiratory tract viral infections have been reported in clinical studies to serve as risk factors for allergic sensitization. In order to study the relationship linking influenza virus illnesses to development of allergy, murine models of allergen sensitization were previously employed. These models showed that lethal influenza viruses were able to trigger allergen-specific immunoglobulin E (IgE) production and to inhibit tolerance to repeated exposure to aerosolized allergen in the mouse. The disadvantage of these murine models consists in the utilization of virulant and lethal strains of influenza virus. A nonlethal rat-adapted influenza virus (RAIV) host resistance model has been developed in our laboratory. It was used to evaluate the effect of influenza virus infection on IgE responses to inhaled ovalbumin (OA) in the rat. The high IgE-responder Brown-Norway (BN) rat was chosen for further study after comparing the IgE response to OA in Fischer 344 (F344) and BN rats. On d 1, BN rats were sensitized by administration of 1 mg OA subcutaneously alone or together with aluminum hydroxide (200 mg) and Bordetella pertussis (15 x 10(9) killed bacilli per rat in 1 ml), or only received saline. Rats were either infected with RAIV or sham-infected on d 0 (24 h prior to sensitization) or on d 15, 17, or 57. Rats were exposed for 3 min to aerosolized OA (OA 3% in phosphate-buffered saline) every week, starting on d 18. Serum OA-specific IgE was evaluated by reverse enzyme-linked immunosorbent assay (ELISA) 3 d after each OA challenge. BN rats elicited a detectable OA-specific IgE response that decreased after repeated aerosol exposures. Influenza virus infection transiently increased the OA-specific IgE response when rats were immunized with OA alone and were infected 1 d prior to the first challenge and also when rats received only saline on d 1, were exposed each week to aerosolized OA, and were infected prior to the seventh challenge. These results, with data previously reported in mice, emphasize the importance of upper respiratory tract viral infection in increasing IgE responses to allergens and may be of importance in human disease.
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PMID:Effect of influenza virus infection on ovalbumin-specific IgE responses to inhaled antigen in the rat. 897 28

Sleep has been proposed as an innate host defense, exerting effects on both specific and nonspecific immunity. In one of the more striking papers dealing with the effects of sleep on specific immunity, Brown et al (Reg. Immunol. 1989; 2: 321-325) reported that depriving influenza virus-immune mice of sleep for 7 hours following total respiratory tract viral challenge abrogated anti-viral immunity within the lungs and lowered the level of anti-influenza antibody in lung homogenates. In the solidly-immune convalescent mouse, nasobronchial immunity to influenza virus has been shown to be due to secretory IgA (S-IgA) within the mucosal mucocilliary blanket, while serum IgG has been shown to mediate protection within the lung parenchyma. In this study we attempted to duplicate the work of Brown et al in solidly immune mice. We were unable to abrogate mucosal anti-influenza viral immunity with a single post-viral-challenge sleep-deprivation episode, nor were we able to depress this immunity with one pre- and two post-challenge sleep-deprivation episodes in young adult or old mice, or with two pre-challenge sleep-deprivation episodes in old mice. Sleep deprivation did not depress the level of serum influenza-specific IgG antibodies, and resulted in increased influenza-specific serum IgG compared with normally sleeping mice in aged immune mice boosted 3 weeks before challenge and sleep deprived once before and twice after challenge (p = 0.005). No differences in anti-viral respiratory immunity were apparent between young and old mice. We conclude that short-term sleep deprivation has minimal effects on pre-existing mucosal and humoral immunity in either the young adult or the senescent mouse.
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PMID:Effects of short-term sleep deprivation on murine immunity to influenza virus in young adult and senescent mice. 959 2

A 25 year-old woman, known to be suffering from destructive rheumatoid arthritis, was admitted to the hospital due to influenza-like symptoms lasting three weeks. Adult Still's disease was diagnosed. During her disease she developed painful ophthalmoplegia due to tenosynovitis of the superior oblique muscle and tendon sheath (Brown's syndrome). Total resolution was obtained within three weeks of corticosteroid therapy.
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PMID:[Brown syndrome in an adult patient with morbus Still]. 962 84

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