R. Thomssen scite author profile

Hepatitis C virus (HCV)-RNA in sera of patients with viral hepatitis C is supposed to be included, at least partially, into HCV particles. We found that the density of HCV-RNA-carrying material was variable, as determined by sucrose gradient density centrifugation (1.03-1.20 g/cm3). In some of the sera examined HCV-RNA was restricted to low densities between 1.03 and 1.08 g/cm3. In other sera additional densities of HCV-RNA were found distributed over the whole gradient with peaks at 1.12 and 1.17 and at 1.19-1.20 g/cm3. HCV-RNA banding at low densities could be completely co-precipitated with anti-beta lipoprotein, whereas HCV-RNA fractions of higher densities were only partially precipitated or not at all. In 8 of 20 sera directly examined, HCV-RNA could be completely and in 9 sera only partially co-precipitated by anti-beta lipoprotein. In 3 sera no significant precipitation could be observed.

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Low density lipoprotein receptor as a candidate receptor for hepatitis C virus

Monazahian

et al. 1999

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Hepatitis C virus (HCV) binds to different human cell lines in vitro. However, the efficiency of adsorption is very low due mainly to a relatively small fraction of the virus being able to bind to these cells. Free low density lipoprotein (LDL > 200 microg/ml) is able to block the attachment of HCV to human fibroblasts in vitro completely. COS-7 cells being primarily not able to bind HCV were transfected with a vector containing the entire coding sequence of the human LDL-receptor (LDLR). HCV was now bound to these cells. We propose that HCV and LDL are competitive for the cellular LDLR and that LDL in sera of patients may regulate the binding of HCV to this target.

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Density heterogeneities of hepatitis C virus in human sera due to the binding of ?-lipoproteins and immunoglobulins

Thomssen

Bonk

Thiele

1993

Med Microbiol Immunol

223

184

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Heterogeneities in the density of hepatitis C virus RNA-carrying material (HCV-RNA-CM) found in human sera (1.03-1.20 g/cm3) are attributed to the binding of low-density lipoproteins and/or of IgG. In some sera HCV-RNA-CM seems to be nearly totally bound to beta-lipoproteins and cannot be precipitated by anti-IgG (gamma); in others more than 95% of HCV-RNA-CM is bound to IgG and cannot be precipitated by anti-beta-lipoprotein. Furthermore, there are sera from which HCV-RNA-CM can be completely be precipitated by either anti-beta-lipoprotein or anti-IgG (gamma), pointing to a binding of the two serum proteins to the same HCV-RNA-CM. There are other sera from which HCV-RNA-CM can be partially precipitated by the one or the other antiserum, leaving behind fractions, which are bound to beta-lipoprotein or to IgG. HCV-RNA-CM cannot be precipitated from some sera either by anti-beta-lipoprotein or by anti-IgG (gamma).

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Post-translational alterations in transmembrane topology of the hepatitis B virus large envelope protein.

et al. 1994

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The preS domain at the N‐terminus of the large envelope protein (LHBs) of the hepatitis B virus is involved in (i) envelopment of viral nucleocapsids and (ii) binding to the host cell. While the first function suggests a cytosolic location of the preS domain during virion assembly, the function as an attachment site requires its translocation across the lipid bilayer and final exposure on the virion surface. We compared the transmembrane topology of newly synthesized LHBs in the endoplasmic reticulum (ER) membrane with its topology in the envelope of secreted virions. Protease sensitivity and the absence of glycosylation suggest that the entire preS domain of newly synthesized LHBs remains at the cytosolic side of ER vesicles. However, virions secreted from transfected cell cultures or isolated from the blood of persistent virus carriers expose antibody binding sites and proteolytic cleavage sites of the preS domain at their surface in approximately half of the LHBs molecules. Thus, preS domains appear to be transported across the viral lipid barrier by a novel post‐translational translocation mechanism to fulfil a dual function in virion assembly and attachment to the host cell.

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HIV-Protease Inhibitors Reduce Cell Adherence of Candida Albicans Strains by Inhibition of Yeast Secreted Aspartic Proteases

Zepelin

Meyer

Thomssen

et al. 1999

Journal of Investigative Dermatology

113

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Since the introduction of new anti-retroviral agents such as human immunodeficiency virus (HIV) protease inhibitors, oropharyngeal candidiasis is less often observed in acquired immune deficiency syndrome patients. Secretory aspartic proteases of Candida albicans, which have similarities to the HIV aspartic proteases, are pathogenicity factors that have been intensively investigated in recent years. The inhibitory effect of four different HIV aspartic protease inhibitors (ritonavir, saquinavir, indinavir, and nelfinavir), on the activity of different Candida albicans secretory aspartic proteases was demonstrated. These anti-retroviral agents were able to inhibit Candida albicans secretory aspartic proteases 1, 2, and 3 which are involved in Candida adherence. As a consequence of these results we used selected HIV protease inhibitors in an adherence assay of Candida cells to epithelial cells. Ritonavir and saquinavir inhibited adherence of Candida albicans under the chosen experimental conditions similarly to the in vitro results, whereas indinavir had no effect. This inhibition was shown to be concentration dependent. The specificity of these effects with respect to the secretory aspartic proteases was demonstrated by competitive binding experiments using purified recombinant secretory aspartic proteases. On the basis of these studies we conclude that lower rates of oropharyngeal candidiasis in individuals receiving potent anti-retroviral therapy could reflect not only an improvement in the immune system but also direct inhibition of Candida secretory aspartic proteases by HIV protease inhibitors.

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R. Thomssen

Association of hepatitis C virus in human sera with ?-lipoprotein

Low density lipoprotein receptor as a candidate receptor for hepatitis C virus

Density heterogeneities of hepatitis C virus in human sera due to the binding of ?-lipoproteins and immunoglobulins

Post-translational alterations in transmembrane topology of the hepatitis B virus large envelope protein.

HIV-Protease Inhibitors Reduce Cell Adherence of Candida Albicans Strains by Inhibition of Yeast Secreted Aspartic Proteases

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