The membrane spanning domains of protein NS4B from hepatitis C virus

ABSTRACT For most membrane proteins, the transmembrane domain (TMD) is more than just an anchor to the membrane. The TMDs of hepatitis C virus (HCV) envelope proteins E1 and E2 are extreme examples of the multifunctionality of such membrane-spanning sequences. Indeed, they possess a signal sequence function in their C-terminal half, play a major role in endoplasmic reticulum localization of E1 and E2, and are potentially involved in the assembly of these envelope proteins. These multiple functions are supposed to be essential for the formation of the viral envelope. As for the other viruses of the familyFlaviviridae, these anchor domains are composed of two stretches of hydrophobic residues separated by a short segment containing at least one fully conserved charged residue. Replacement of these charged residues by an alanine in HCV envelope proteins led to an alteration of all of the functions performed by their TMDs, indicating that these functions are tightly linked together. These data suggest that the charged residues of the TMDs of HCV glycoproteins play a key role in the formation of the viral envelope.

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Subcellular Localization and Topology of the p7 Polypeptide of Hepatitis C Virus

Journal of Virology ◽

10.1128/jvi.76.8.3720-3730.2002 ◽

2002 ◽

Vol 76 (8) ◽

pp. 3720-3730 ◽

Cited By ~ 143

Author(s):

Séverine Carrère-Kremer ◽

Claire Montpellier-Pala ◽

Laurence Cocquerel ◽

Czeslaw Wychowski ◽

François Penin ◽

...

Keyword(s):

Plasma Membrane ◽

Hepatitis C Virus ◽

Hepatitis C ◽

Subcellular Localization ◽

Secretory Pathway ◽

Transmembrane Domain ◽

Signal Sequence ◽

C Terminus ◽

Membrane Spanning ◽

Polytopic Membrane Protein

ABSTRACT Although biological and biochemical data have been accumulated on most hepatitis C virus proteins, the structure and function of the 63-amino-acid p7 polypeptide of this virus have never been investigated. In this work, sequence analyses predicted that p7 contains two transmembrane passages connected by a short hydrophilic segment. The C-terminal transmembrane domain of p7 was predicted to function as a signal sequence, which was confirmed experimentally by analyzing the translocation of a reporter glycoprotein fused at its C terminus. The p7 polypeptide was tagged either with the ectodomain of CD4 or with a Myc epitope to study its membrane integration, its subcellular localization, and its topology. Alkaline extraction studies confirmed that p7 is an integral membrane polypeptide. The CD4-p7 chimera was detected by immunofluorescence on the surface of nonpermeabilized cells, indicating that it is exported to the plasma membrane. However, pulse-chase analyses showed that only approximately 20% of endoglycosidase H-resistant CD4-p7 was detected after long chase times, suggesting that a large proportion of p7 stays in an early compartment of the secretory pathway. Finally, by inserting a Myc epitope in several positions of p7 and analyzing the accessibility of this epitope on the plasma membrane of HepG2 cells, we showed that p7 has a double membrane-spanning topology, with both its N and C termini oriented toward the extracellular environment. Altogether, these data indicate that p7 is a polytopic membrane protein that could have a functional role in several compartments of the secretory pathway.

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Analysis of the processing and transmembrane topology of the E2p7 protein of hepatitis C virus

Journal of General Virology ◽

10.1099/vir.0.80737-0 ◽

2005 ◽

Vol 86 (3) ◽

pp. 667-676 ◽

Cited By ~ 27

Author(s):

Beverley J. Isherwood ◽

Arvind H. Patel

Keyword(s):

Hepatitis C Virus ◽

Hepatitis C ◽

Mammalian Cells ◽

Mutational Analysis ◽

Proteolytic Processing ◽

Transmembrane Topology ◽

Genotype 1A ◽

C Terminus ◽

Membrane Spanning ◽

Virus C

Hepatitis C virus C, E1, E2 and p7 proteins are cleaved from a viral polyprotein by host signal peptidases. Cleavage at the E2/p7 site is incomplete in genotype 1a strain H (resulting in E2, p7 and E2p7 species), although it has been reported to be more efficient in genotype 1b strain BK. Here, the proteolytic processing and transmembrane topology of genotype 1a strain H77c p7 was investigated when expressed in the context of E2p7. Partial processing was seen at the E2/p7 site in mammalian cells, the efficiency of which improved in the presence of nucleotide sequences downstream of p7. In insect cells, no processing at the E2/p7 site occurred and the uncleaved E2p7 species was incorporated into virus-like particles when expressed in the context of CE1E2p7c-myc. E2p7c-myc formed a heterodimer with E1, indicating that, like the well-characterized E1–E2 complex, the E1–E2p7 heterodimer may also play a functional role in virus replication. Comparison of the p7 signal peptide sequences of strains BK and H77c revealed 3 aa differences (positions 720, 733 and 742). Mutational analysis showed that the V720L change in the H77c sequence substantially increased processivity at the E2/p7 site. The p7 protein adopts a double membrane-spanning topology with both its N and C termini orientated luminally in the endoplasmic reticulum. The transmembrane topology of E2p7 species was examined by two independent means. In both cases, the C terminus of p7 in E2p7 was found to be cytoplasmically orientated, indicating that p7 adopts a dual transmembrane topology.

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