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[Abstract] Occurrence of hepatitis B virus (HBV) reactivation following kidney transplantation
(2004)
Women with thrombophilic defects have been shown to be at increased risk, not only of pregnancy associated thromboembolism but also of other vascular complications of pregnancy, including preeclampsia and fetal loss. First trimester fetal loss is associated with factor V Leiden mutation, activated protein C resistance without factor V Leiden mutation and prothrombin G20210A mutation. Late nonrecurrent fetal loss is associated with factor V Leiden mutation, prothrombin mutation and protein S deficiency. Concerning acquired thrombophilia, recurrent fetal loss is a well-documented finding in patients with antiphospholipid antibodies. Associations between thrombophilia polymorphisms and an increased risk of intrauterine growth restriction have been discussed in small series of cases but could not be confirmed in large scale studies. Frequencies for anticardiolipin antibodies or lupus anticoagulants and antinuclear antibodies were significantly higher in women with infants small for gestational age compared to controls. Concerning preeclampsia, gestational hypertension and thrombophilia, a number of studies have examined these relationships with conflicting results. For factor V Leiden, MTHFR C677T and prothrombin mutation, no association with preeclampsia was observed, when severe cases were excluded. If studies were restricted to those of severe preeclampsia, an association with the factor V Leiden mutation was apparent and, to a lesser extent, with the MTHFR-mutation. For antithrombotic therapy, it was shown that in women with antiphospholipid syndrome and recurrent pregnancy loss, unfractionated heparin plus lowdose aspirin results in significantly better gestational outcome than lowdose aspirin alone. Concerning therapy of women with inherited thrombophilia and pregnancy loss, only small, uncontrolled studies are available, demonstrating improved pregnancy outcome when low molecular weight heparin (LMWH) is used for treatment. In conclusion, heritable thrombophilia and the antiphospholipid-syndrome are major causes of fetal loss after exclusion of other underlying pathologies like chromosomal abnormalities, and screening should be recommended. LMWH with or without aspirin may be used for treatment. There is little value in antenatal screening for prothrombotic polymorphisms to predict the development of small for gestational age infants, preeclampsia or gestational hypertension.
The genetic variability of hepatitis B virus (HBV) represents a challenge for the sensitivity of immunodiagnosis, especially for the detection of surface antigen (HBsAg). There are two types of variants of HBV. Naturally occurring variants are the results of random changes selected over years of population pressure. These variants include HBV genotypes and unusual sequences, which may be poorly detected by immunoassays. The selected variants are mutants that arise in individuals under medically (vaccine, hepatitis B immune globulin and antiviral therapy) or naturally (chronic hepatitis B) induced immune pressure. HBV S-gene mutants have been identified in successfully immunized people worldwide. Based on the assumption that current vaccines containing S protein do not cross-protect against S gene mutants, a mathematical model predicts the disappearance of wild-type HBV in areas with HBsAg endemicity and the emergence of S gene mutants in approximately 100 years as a consequence of universal HBV vaccination. Mutant viruses may escape detection by commercial HBsAg kits. There are several reports on HBsAg negative carriers (HBVDNA positive) of S gene mutants with immunosilent infection or ‘‘unusual’’ serologic constellations. Although S gene mutants have been found to be associated with a more severe clinical course of HBV infection and hepatocellular carcinoma, the clinical significance of the genetic variability of HBV genotypes and HBsAg mutants needs to be further investigated. Detection of HBsAg needs to be improved by the introduction of new HBsAg assays able to recognize S gene mutants described so far and with a lower detection threshold than current immunoassays in order to detect smallest amounts of HBsAg in low-level carriers. There is also a need for more complete epidemiological data on the prevalence of HBsAg mutants in Western Europe and assays for the (differential) screening of mutants need to be developed and evaluated.
The signal transducer and activator of transcription (Stat) gene family comprises seven members with similarities in their domain structure and a common mode of activation. Members of this gene family mediate interferon induction of gene transcription and the response to a large number of growth factors and hormones. Extracellular ligand binding to transmembrane receptors causes the intracellular activation of associated tyrosine kinases, phosphorylation of Stat molecules, dimerization, and translocation to the nucleus. Prolactin-induced phosphorylation of Stat5 is a key event in the development and differentiation of mammary epithelial cells. In addition to the crucial phosphorylation at tyrosine 694, we have identified an O-linked N-acetylglucosamine (O-GlcNAc) as another secondary modification essential for the transcriptional induction by Stat5. This modification was only found on nuclear Stat5 after cytokine activation. Similar observations were made with Stat1, Stat3, and Stat6. Glycosylation of Stat5, however, does not seem to be a prerequisite for nuclear translocation. Mass spectrometric analysis revealed a glycosylated peptide in the N-terminal region of Stat5. Replacement of threonine 92 by an alanine residue (Stat5a-T92A) strongly reduced the prolactin induction of Stat5a glycosylation and abolished transactivation of a target gene promoter. Only the glycosylated form of Stat5 was able to bind the coactivator of transcription CBP, an essential interaction for Stat5-mediated gene transcription.
Respiratory chain complex I contains 8-9 iron-sulfur clusters. In several cases, the assignment of these clusters to subunits and binding motifs is still ambiguous. To test the proposed ligation of the tetranuclear iron-sulfur cluster N5 of respiratory chain complex I, we replaced the conserved histidine 129 in the 75-kDa subunit from Yarrowia lipolytica with alanine. In the mutant strain, reduced amounts of fully assembled but destabilized complex I could be detected. Deamino-NADH: ubiquinone oxidoreductase activity was abolished completely by the mutation. However, EPR spectroscopic analysis of mutant complex I exhibited an unchanged cluster N5 signal, excluding histidine 129 as a cluster N5 ligand.
Stable supercomplexes of bacterial respiratory chain complexes III (ubiquinol:cytochrome c oxidoreductase) and IV (cytochrome c oxidase) have been isolated as early as 1985 (Berry, E. A., and Trumpower, B. L. (1985) J. Biol. Chem. 260, 2458-2467). However, these assemblies did not comprise complex I (NADH:ubiquinone oxidoreductase). Using the mild detergent digitonin for solubilization of Paracoccus denitrificans membranes we could isolate NADH oxidase, assembled from complexes I, III, and IV in a 1:4:4 stoichiometry. This is the first chromatographic isolation of a complete “respirasome.” Inactivation of the gene for tightly bound cytochrome c552 did not prevent formation of this supercomplex, indicating that this electron carrier protein is not essential for structurally linking complexes III and IV. Complex I activity was also found in the membranes of mutant strains lacking complexes III or IV. However, no assembled complex I but only dissociated subunits were observed following the same protocols used for electrophoretic separation or chromatographic isolation of the supercomplex from the wild-type strain. This indicates that the P. denitrificans complex I is stabilized by assembly into the NADH oxidase supercomplex. In addition to substrate channeling, structural stabilization of a membrane protein complex thus appears as one of the major functions of respiratory chain supercomplexes.
Nitric oxide (NO)-sensitive soluble guanylyl cyclase (sGC) is the major cytosolic receptor for NO, catalyzing the conversion of GTP to cGMP. In a search for proteins specifically interacting with human sGC, we have identified the multidomain protein AGAP1, the prototype of an ArfGAP protein with a GTPase-like domain, Ankyrin repeats, and a pleckstrin homology domain. AGAP1 binds through its carboxyl terminal portion to both the α1 and β1 subunits of sGC. We demonstrate that AGAP1 mRNA and protein are co-expressed with sGC in human, murine, and rat cells and tissues and that the two proteins interact in vitro and in vivo. We also show that AGAP1 is prone to tyrosine phosphorylation by Src-like kinases and that tyrosine phosphorylation potently increases the interaction between AGAP1 and sGC, indicating that complex formation is modulated by reversible phosphorylation. Our findings may hint to a potential role of AGAP1 in integrating signals from Arf, NO/cGMP, and tyrosine kinase signaling pathways.