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: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CD8+ CTL responses constitute a critical component for vaccines developed to eliminate intracellular pathogens. One approach to achieve broad CTL diversity is based on genetically linking immunogenic peptides from multiple proteins to form poly-epitope Ags. To address the influence of flanking residues on class I Ag presentation, H-2d-restricted HIV-1 and mouse hepatitis virus CTL epitopes were linked via various spacer residues. The resulting 20 to 31 amino acid peptides were expressed using recombinant vaccinia viruses to monitor both CTL recognition and induction. Our data indicate that recognition is profoundly influenced by the nature of intervening residues forming carboxyl-terminal flanks for one and amino-terminal flanks for the other epitope. Flanking amino acids with aromatic (tyrosine), basic (lysine), and small aliphatic side chains (alanine) supported efficient CTL recognition of both epitopes. By contrast, acidic and helix breaking residues (glycine, proline) specifically inhibited recognition of the adjacent amino-terminal epitope. Flanking residues inhibitory for recognition were also detrimental for CTL induction, suggesting similar processing mechanisms in vitro and in vivo. The ratios of peptide-specific CTL precursors primed by the tandem epitopes varied up to 50-fold depending on molecular context. These data demonstrate a substantial role of carboxyl-flanking residues in governing the efficiency of class I Ag presentation both in vitro and in vivo. The dramatic influence of flanking residues on the hierarchy of CTL responses indicates that CTL induction by poly-epitope Ags can be optimized by strategically linking epitopes via selection of appropriate spacer residues.
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PMID:Flanking residues alter antigenicity and immunogenicity of multi-unit CTL epitopes. 887 18

Recent advances in molecular biology, in particular X-ray crystallography of the purified antigens A2 and DR1 and development of PCR-based HLA genotyping techniques, has revolutionized our understanding of immunogenetics and cellular immunology. The application of molecular immunogenetics has refined our understanding of HLA-encoded susceptibility and resistance to both autoimmune and chronic viral liver disease. Recent studies of autoimmune hepatitis (AIH), primary sclerosing cholangitis (PSC) and primary biliary cirrhosis (PBC) have identified substitutions of specific amino acid residues in the HLA DR beta-polypeptide (AIH and PSC) and DP beta-polypeptide (PBC) which may determine susceptibility to and resistance from disease. Although these models of HLA-encoded susceptibility in PSC and PBC are currently controversial, the model for AIH, based on lysine residue at DR beta 71 has recently been confirmed in an independent series. Data on chronic viral liver disease are less abundant, but a number of interesting observations are beginning to emerge. In the Gambia, resistance to chronic hepatitis B infection has been associated with the HLA DRB1*1302 allele, and in studies of patients with chronic hepatitis C virus infection DQA1*03 and DQB1*05 have been identified as a possible protective factors. Clarifying these HLA associations is not simply an academic pursuit; in addition to providing useful clues to the pathogenesis of these diseases, HLA associations may be important indicators of prognosis. In AIH, patients with the DRB1*0301-DRB3*0101 haplotype appear to have more severe disease than those with DRB1*0401, while in PSC, DRB3*0101 is associated with early onset of disease and DRB1*0401 may be a marker of more rapid disease progression. To date, our knowledge of immunogenetic susceptibility in liver disease is incomplete and further work is needed.
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PMID:Immunogenetics in liver disease. 890 22

Ribavirin (RIBV) is a useful drug in the treatment of chronic type C hepatitis but displays a toxicity for red blood cells (RBC), which limits its dosage and necessitates withdrawal in some patients. Selective concentration of RIBV in liver should improve therapeutic results. Liver targeting can be achieved by coupling the drug to galactosyl-terminating peptides, which specifically enter hepatocytes. In the present work, we conjugated RIBV to lactosaminated poly-L-lysine (L-Poly(Lys)), a hepatotropic carrier enabling intramuscular (IM) administration of conjugates. The L-Poly(Lys)-RIBV conjugate had a heavy drug load (312-327 microg of RIBV in 1 mg of conjugate) and was very soluble in 0.9% NaCl (200 mg/mL). The conjugate was devoid of acute toxicity in mouse. When incubated with human or mouse blood, it did not release the drug. After IM administration to mice, the conjugate was selectively taken up by the liver, where the drug was released in a pharmacologically active form. This was demonstrated using mice infected with a strain of murine hepatitis virus (MHV) sensitive to RIBV. Coupled RIBV, IM injected, inhibited MHV replication in liver at a daily dose two to three times lower than that of the free drug. In mice IM injected with a conjugate tritiated in the RIBV moiety, the ratios between the levels of radioactivity in liver and RBC were two times higher than in animals injected with free tritiated RIBV. In conclusion, the present results support the possibility that the chemotherapeutic index of RIBV in chronic type C hepatitis can be increased by conjugation with L-Poly(Lys).
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PMID:Ribavirin conjugated with lactosaminated poly-L-lysine: selective delivery to the liver and increased antiviral activity in mice with viral hepatitis. 927 94

Patients with alpha1-antitrypsin (alpha1-AT) deficiency are at risk of developing early-onset panlobular basal emphysema, which has been attributed to uncontrolled proteolytic activity within the lung. Severe genetic deficiency of alpha1-AT is most commonly due to the Z mutation (342Glu--> Lys), which results in a block in alpha1-AT processing within the endoplasmic reticulum of hepatocytes. The retained alpha1-AT forms inclusions, which are associated with neonatal hepatitis, juvenile cirrhosis, and hepatocellular carcinoma. Our recent studies have shown that the accumulation of alpha1-AT is due to the Z mutation perturbing the structure of alpha1-AT to allow polymer formation, with a unique linkage between the reactive center loop of one alpha1-AT molecule and the A beta-pleated sheet of a second. The detection of loop-sheet polymers and other conformations of alpha1-AT in the lungs of patients with emphysema has been technically difficult. We show here that transverse urea-gradient-gel (TUG) electrophoresis and Western blot analysis may be used to characterize conformations of alpha1-AT in dilute samples of bronchoalveolar lavage fluid (BALF). This technique was used to demonstrate loop-sheet polymers in the lungs of patients with Z alpha1-AT-deficiency-related emphysema. Polymers were the predominant conformational form of alpha1-AT in BALF from the lungs of two of five Z homozygotes with emphysema, but were not detectable in any of 13 MM, MS, or MZ alpha1-AT controls. Because alpha1-AT loop-sheet polymers are inactive as proteinase inhibitors, this novel conformational transition will further reduce the levels of functional proteinase inhibitor in the lungs of the Z alpha1-AT homozygote, and so exacerbate tissue damage.
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PMID:Lung polymers in Z alpha1-antitrypsin deficiency-related emphysema. 956 37

In this study, we identified an activity of the hepatitis delta antigen that both modulates the cis-cleaving activities of hepatitis delta virus (HDV) genomic RNA fragments and facilitates the trans-cleavage reactions between hammerhead ribozymes and the cognate substrates of various lengths in vitro. Hepatitis delta antigen peptides exert their effect by accelerating the unfolding and refolding of RNA molecules and by promoting strand annealing and strand dissociation. In addition, the stimulatory effect of hepatitis delta antigen peptide on hammerhead catalysis is observed whether the peptide is removed or not by phenol/chloroform extraction prior to the initiation of trans-cleavage reaction. Therefore, hepatitis delta antigen peptide acts as an RNA chaperone. The RNA chaperone domain of hepatitis delta antigen overlaps with the coiled-coil domain that is rich in lysine residues. The RNA binding domains of hepatitis delta antigen previously identified are not required for the RNA chaperone activity identified herein. The RNA chaperone activity of hepatitis delta antigen may be important for the regulation of HDV replication in vivo.
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PMID:Identification and characterization of the RNA chaperone activity of hepatitis delta antigen peptides. 975 80

The spike (S) glycoprotein of mouse hepatitis virus (MHV) plays a major role in the viral pathogenesis. It is often processed into the N-terminal S1 and the C-terminal S2 subunits that were evidently important for binding to cell receptor and inducing cell-cell fusion, respectively. As a consequence of cell-cell fusion, most of the naturally occurring infections of MHV are associated with syncytia formation. So far, only MHV-2 was identified to be fusion-negative. In this study, the S gene of MHV-2 was molecularly cloned, and the nucleotide sequence was determined. The MHV-2 S protein lacks a 12-amino acid stretch in the S1 hypervariable region from amino acid residue 446 to 457 when compared with the fusion-positive strain MHV-JHM. In addition, there are three amino acid substitutions in the S2 subunit, Tyr-1144 to Asp, Glu-1165 to Asp, and Arg-1209 to Lys. The cloned MHV-2 S protein exhibited the fusion-negative property in DBT cells as the intrinsic viral protein. Furthermore, similar to the fusion-positive MHV-JHM strain, proteolytic cleavage activity was detected both in DBT cells infected with the fusion-negative MHV-2 and in the transfected cells that expressed the cloned MHV-2 S protein. Domain swapping experiments demonstrated that the 12-amino acid stretch missing in the MHV-2 S1 subunit, but not the proteolytic cleavage site, was critical for the cell-fusion activity of MHV.
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PMID:A 12-amino acid stretch in the hypervariable region of the spike protein S1 subunit is critical for cell fusion activity of mouse hepatitis virus. 1047 57

Based on the relationship between in vivo disposition of macromolecules and their physicochemical and biological characteristics obtained through clearance concept-based pharmacokinetic analysis, polymeric prodrugs of prostaglandin E(1)(PGE(1)) were designed stepwise and evaluated on their targeting and therapeutic efficiencies. First poly-L-lysine (PLL) and poly-L-glutamic acid (PLGA) with an ethylenediamine (ED) spacer were modified with 2-imino-2-methoxyethyl 1-thiogalactoside to obtain galactosylated derivatives. After intravenous injection in mice, Gal-ED-PLGA was selectively taken up by the liver parenchymal cells via receptor-mediated endocytosis, while Gal-PLL accumulated in the liver as well as PLL mostly due to electrostatic interaction. Although Gal-ED-PLGA showed good targeting efficacy, its PGE(1) conjugate synthesized with activated PGE(1) by carbonyldiimidazole method failed to show therapeutic effects probably due to inactivation of PGE(1) during conjugation and lack of release in the tissue. In order to overcome these problems, we next conjugated PGE(1) to galactosylated poly-(L-glutamic acid) hydrazide (Gal-HZ-PLGA) in which PGE(1) was easily coupled to Gal-HZ-PLGA via a hydrazone bond in weak acidic solution (pH 5) at room temperature. The PGE(1)-Gal-HZ-PLGA conjugate labeled with [(111)In] or [(3)H]PGE(1) rapidly accumulated in the liver parenchymal cells. In addition, the PGE(1) conjugate effectively inhibited the increase of the GPT level in plasma, while free PGE(1) indicated no therapeutic efficacy even at more than ten times higher doses, in carbon tetrachloride-induced hepatitis mice. These findings suggest potentials of polymeric targeting systems of PGE(1) to hepatocyte utilizing galactose recognition.
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PMID:Design of polymeric prodrugs of prostaglandin E(1) having galactose residue for hepatocyte targeting. 1051 58

A complete DNA copy of the genome of a Jeryl Lynn strain of mumps virus (15,384 nucleotides) was assembled from cDNA fragments such that an exact antigenome RNA could be generated following transcription by T7 RNA polymerase and cleavage by hepatitis delta virus ribozyme. The plasmid containing the genome sequence, together with support plasmids which express mumps virus NP, P, and L proteins under control of the T7 RNA polymerase promoter, were transfected into A549 cells previously infected with recombinant vaccinia virus (MVA-T7) that expressed T7 RNA polymerase. Rescue of infectious virus from the genome cDNA was demonstrated by amplification of mumps virus from transfected-cell cultures and by subsequent consensus sequencing of reverse transcription-PCR products generated from infected-cell RNA to verify the presence of specific nucleotide tags introduced into the genome cDNA clone. The only coding change (position 8502, A to G) in the cDNA clone relative to the consensus sequence of the Jeryl Lynn plaque isolate from which it was derived, resulting in a lysine-to-arginine substitution at amino acid 22 of the L protein, did not prevent rescue of mumps virus, even though an amino acid alignment for the L proteins of paramyxoviruses indicates that lysine is highly conserved at that position. This system may provide the basis of a safe and effective virus vector for the in vivo expression of immunologically and biologically active proteins, peptides, and RNAs.
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PMID:Rescue of mumps virus from cDNA. 1077 22

Genetic susceptibility to type 1 autoimmune hepatitis in white northern Europeans is related to female sex, HLA alleles encoding the six amino acid sequence LLEQKR at positions 67-72 of the DRB1 polypeptide, and CTLA-4 gene polymorphism. The principal HLA alleles associated with type 1 autoimmune hepatitis in Britain and North America are DRB1*0301 and DRB1*0401. In this model of susceptibility, lysine at position 71 of the expressed DR molecule is the critical amino acid. In Japan, Argentina and Mexico, susceptibility is linked to DRB1*0405 and DRB1*0404. These two alleles encode arginine at position 71 rather than lysine, but they share the motif LLEQ-R with DRB1*0401 and DRB1*0301. Thus, K or R at position 71 in the context of LLEQ-R may be critical for susceptibility. This "shared motif" or "epitope" may optimize T-cell recognition of autoantigen, and other alleles that encode lysine at DRbeta71 may also affect susceptibility and outcome, possibly by increasing the density of lysine or arginine 71 molecules on the surface of antigen-presenting cells. Since the DRB1*0301 allele is part of the extended ancestral 8.1 haplotype, it carries with it additional risk factors for autoimmunity, including TNFA*2 and C4A*Q0. Type 1 autoimmune hepatitis is a polygenic disorder and other yet undefined polymorphic genes may be non-specific immunoregulators. These additional MHC encoded genes and other non-MHC encoded genes may be important determinants of disease susceptibility and severity in type 1 autoimmune hepatitis.
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PMID:Genetic susceptibilities for immune expression and liver cell injury in autoimmune hepatitis. 1080 21

Five patients of cholestatic jaundice and multiple hyperaminoacidemias were uncovered during neonatal mass screening for homocystinuria. All five patients had increased plasma levels of methionine, citrulline, tyrosine, threonine, phenylalanine, lysine and arginine. Compared with those of age-matched cholestatic disease controls, idiopathic neonatal hepatitis (n=9) and biliary atresia (n=14), plasma levels of three amino acids, citrulline, methionine, and threonine, were significantly greater, respectively (P<0.01). Liver biopsies examined in four patients uniformly showed diffuse hepatic fatty liver with micro- and macrovesicular droplets without giant cell transformation. Administration of fat-soluble vitamins and formula milk containing middle-chain triglyceride resulted in normalization of amino acid profiles by 6 weeks after the treatment. All liver function tests normalized by 17 months of age.
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PMID:An undescribed subset of neonatal intrahepatic cholestasis associated with multiple hyperaminoacidemia. 1147 Jun 24


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