Sensitivity of HIV-1 to entry inhibitors correlates with envelope/coreceptor affinity, receptor density, and fusion kinetics

Reeves, Jacqueline D.; Gallo, Stephen A.; Ahmad, Navid; Miamidian, John L.; Harvey, Phoebe E.; Sharron, Matthew; Pöhlmann, Stefan; Sfakianos, Jeffrey N.; Derdeyn, Cynthia A.; Blumenthal, Robert; Hunter, Eric; Doms, Robert W.

doi:10.1073/pnas.252469399

Cited by 370 publications

(444 citation statements)

References 36 publications

(51 reference statements)

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“…However, we along with others have shown that baseline susceptibility to ENF is quite variable among viruses from different patients (9,20,39), and variations in domains of Env other than HR1 are thought to account for these differences in baseline susceptibility (8,15,34). In particular, susceptibility to fusion inhibitors appears to be dependent on the affinity of gp120 for the coreceptors as well as on coreceptor density at the cell surface, both of which factors affect fusion kinetics (34). A faster fusion process will reduce the length of time during which the ENF molecular target is exposed, thus reducing the virus sensitivity to this inhibitor (28,30,34).…”

mentioning

confidence: 63%

“…It is noteworthy, however, that in cases where ENF resistance mutations produced only suboptimal resistance, Env replicative capacity was usually maintained, suggesting that the impact of resistance mutations on viral resistance and viral fitness was not tightly linked (see below). The identification of viral sequences that determine whether a given context is favorable or unfavorable for the expression of high resistance by ENF resistance mutations may prove to be a difficult task, given that multiple discontinuous envelope domains participate in the entry process and can modulate phenotypic resistance to ENF (8,15,34).…”

Section: Vol 80 2006 Evolution Of Hiv-1 Resistance To Enf 8813mentioning

confidence: 99%

“…In particular, susceptibility to fusion inhibitors appears to be dependent on the affinity of gp120 for the coreceptors as well as on coreceptor density at the cell surface, both of which factors affect fusion kinetics (34). A faster fusion process will reduce the length of time during which the ENF molecular target is exposed, thus reducing the virus sensitivity to this inhibitor (28,30,34). We thus hypothesized that in patients failing ENF treatment, the biological properties of Env, and therefore the whole envelope genetic background, could influence the selection of ENF resistance mutations, thereby conditioning the emergence of ENF-resistant viruses.…”

mentioning

confidence: 99%

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Role of the Envelope Genetic Context in the Development of Enfuvirtide Resistance in Human Immunodeficiency Virus Type 1-Infected Patients

Labrosse

Morand‐Joubert

Goubard

et al. 2006

J Virol

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Acquired human immunodeficiency virus type 1(HIV-1) resistance to the fusion inhibitor enfuvirtide (ENF)is primarily associated with mutations within the highly conserved first heptad repeat (HR1) region of gp41. Viral env sequences, however, are remarkably variable, and the envelope genetic background could have an important impact on optimal expression of HR1 mutations. We have examined the genetic evolution of env sequences, ENF susceptibility, and Env replicative capacity in patients failing ENF treatment. Sequential plasma-derived virus populations, obtained from six patients initiating ENF treatment as part of a salvage therapy, were studied using a recombinant phenotypic assay evaluating the entire gp120 and the gp41 ectodomains. Regardless of major differences in the baseline ENF susceptibilities, viral populations with similar phenotypic ENF resistance (50% inhibitory concentration, >3,000 ng/ml) were selected under treatment in four of six patients. As expected, in all patients ENF-resistant viruses harbored one or more HR1 mutations (positions 36, 38, and 43). Interestingly, in five patients the emergence of resistance mutations was not associated with reduced Env replicative capacity. Phylogenetic analysis of env sequences in sequential samples from two patients showed that the HR1 mutations had emerged in the context of env quasi-species that were different from those prevalent at baseline. Thus, the envelope genetic context appears to play a critical role in the selection of HR1 mutations and the expression of ENF resistance, thereby conditioning the evolution of HIV-1 under fusion inhibitor selective pressure.Considerable effort is currently being devoted to the development of antiviral agents able to prevent human immunodeficiency virus type 1 (HIV-1) entry into target cells. The HIV-1 entry process is mediated by the trimeric viral envelope glycoproteins (Env) exposed at the surface of the virion (45). The HIV-1 entry is a multistep process (11,14,45). The sequential interaction of the surface subunit, gp120, with CD4 and a chemokine receptor (CCR5 or CXCR4) exposed on the cell membrane triggers conformational changes in the ectodomain of the transmembrane subunit, gp41, which ultimately lead to fusion between the viral and host cell membranes. Like most of the retroviral transmembrane proteins, the ectodomain of gp41 contains an N-terminal fusion peptide followed by two heptad repeat domains (HR1 and HR2), which are connected by a non-helical loop region of 25 to 30 amino acids. Membrane fusion is currently thought to result from the insertion of the fusion peptide into the cellular membrane, and the formation of a six-helix bundle in which the central trimeric HR1 coiled-coil forms three hydrophobic grooves onto which three HR2 domains pack in reverse orientation (4,5,40,43).Although several HIV-1 entry inhibitors have been evaluated in clinical trials and have shown promising prospects for therapy (1, 28), the only entry inhibitor licensed to date is the fusion inhibitor enfuvirtide (ENF; als...

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mentioning

confidence: 63%

Section: Vol 80 2006 Evolution Of Hiv-1 Resistance To Enf 8813mentioning

confidence: 99%

mentioning

confidence: 99%

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Role of the Envelope Genetic Context in the Development of Enfuvirtide Resistance in Human Immunodeficiency Virus Type 1-Infected Patients

Labrosse

Morand‐Joubert

Goubard

et al. 2006

J Virol

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“…To identify the mechanisms of membrane fusion, both continuities should be followed and the temporal order in which they occur identified. In the case of the HIV-1 fusion protein Env, mechanistic studies have largely relied on fusion of cells expressing the protein to cells expressing CD4 and cognate chemokine receptors (e.g., Munoz-Barroso et al, 1998;Melikyan et al, 2000;Reeves et al, 2002;Abrahamyan et al, 2003;Gallo et al, 2003;Markosyan et al, 2003). But monitoring lipid dye spread in HIV-1 Env-mediated cell-cell fusion has not proved to be very useful in following membrane continuity, for several reasons.…”

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confidence: 99%

Time-resolved Imaging of HIV-1 Env-mediated Lipid and Content Mixing between a Single Virion and Cell Membrane

Markosyan

Cohen

Melikyan

2005

MBoC

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A method has been developed to follow fusion of individual pseudotyped virus expressing HIV-1 Env to cells by time-resolved fluorescence microscopy. Viral envelopes were labeled with a fluorescent lipid dye (DiD) and virus content was rendered visible by incorporating a Gag-GFP chimera. The Gag-GFP is naturally cleaved to the much smaller NC-GFP fragment in the mature virions. NC-GFP was readily released upon permeabilization of the viral envelope, whereas the capsid was retained. The NC-GFP thus provides a relatively small and mobile aqueous marker to follow viral content transfer. In fusion experiments, virions were bound to cells at low temperature, and fusion was synchronously triggered by a temperature jump. DiD transferred from virions to cells without a significant lag after the temperature jump. Some virions released DiD but retained NC-GFP. Surprisingly, the fraction of lipid mixing events yielding NC-GFP transfer was dependent on the type of target cell: of three infectable cell lines, only one permitted NC-GFP transfer within minutes of raising temperature. NC-GFP release did not correlate with the level of CD4 or coreceptor expression in the target cells. The data indicate that fusion pores formed by HIV-1 Env can remain small for a relatively long time before they enlarge. INTRODUCTIONIn the process of membrane fusion, two continuities are created: separate membranes join and distinct aqueous compartments become one. To identify the mechanisms of membrane fusion, both continuities should be followed and the temporal order in which they occur identified. In the case of the HIV-1 fusion protein Env, mechanistic studies have largely relied on fusion of cells expressing the protein to cells expressing CD4 and cognate chemokine receptors (e.g., Munoz-Barroso et al., 1998;Melikyan et al., 2000;Reeves et al., 2002;Abrahamyan et al., 2003;Gallo et al., 2003;Markosyan et al., 2003). But monitoring lipid dye spread in HIV-1 Env-mediated cell-cell fusion has not proved to be very useful in following membrane continuity, for several reasons. The dye does not reliably move between cells, and when it does move, the time course is slow, in large part because the dye segregates nonuniformly over the cell membrane. Also, the dye enters intracellular pools, making it difficult to follow transfer between fused membranes. Furthermore, in cell-cell fusion, the two bound cells are in contact over an appreciable area, so fusion could potentially occur at many sites (Frolov et al., 2000;Leikina and Chernomordik, 2000); the sites of origin for the observed lipid and aqueous dye spread could well be different.By studying fusion of viral particles to cells, these problems can be overcome. The small size of virus minimizes the area of contact and accurately reflects the biological situation. Also, membrane retrieval processes that internalize lipid dye are absent in virions, and the viral envelope is simpler than a cell membrane. But until recently, suitable assays to follow both lipid and contents mixing and to time-order the...

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“…By examining fusion kinetics of various HIV strains we found that the sensitivity of HIV to entry inhibitors correlates with envelope:coreceptor affinity, receptor density and fusion kinetics [25]. The kinetic studies allowed us to determine parameters that govern fusion and inhibition.…”

Section: Protein Intermediates In Membrane Fusionmentioning

confidence: 99%

HIV-1 envelope glycoprotein-mediated fusion and pathogenesis: Implications for therapy and vaccine development

Jacobs

Garg

Viard

et al. 2008

Vaccine

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Our overall goal is to understand how viral envelope proteins mediate membrane fusion and pathogenesis. Membrane fusion is a crucial step in the delivery of the viral genome into the cell resulting in infection. On the other hand, fusion activity of viral envelope glycoproteins expressed in infected cells may cause the demise of uninfected bystander cells by apoptosis. Our general approach is to kinetically resolve steps in the pathway of viral envelope glycoprotein-mediated membrane fusion and to uncover physical parameters underlying those steps using a variety of biochemical, biophysical, virological, and molecular and cell biological techniques. Since HIV fusion involves a complex cascade of interactions of the envelope glycoprotein with two receptors, membrane organization plays an important role and interfering with it may modulate entry. To study this phenomenon, we have either examined cell lines with differential expression of sphingolipids (such as GM3), or altered membrane organization by modifying levels of cholesterol, ceramides, or glycosphingolipids. We show that the localized plasma membrane lipid microenvironment (and not the specific membrane lipids) in the vicinity of CD4 controls receptor mobility and HIV-1 fusion. The complex cascade of conformational changes that must occur to allow virus entry is also a very important target for therapy and vaccine development. We have recently designed and tested peptide analogs composed of chemical spacers and reactive moieties positioned strategically to promote permanent attachment. Using a temperature-arrested state in vitro assay we show evidence for the trapping of a pre-six helix bundle fusion intermediate by a covalent reaction with the inhibitory reactive peptide. Also, using photo-reactive hydrophobic probes we have found ways to inactivate viral envelope glycoproteins while leaving their overall structures intact. Finally, in order to study the envelope glycoprotein effects on pathogenesis, we have used an in vitro model of co-culture of envelope-expressing cells as effectors and CD4+ T cells as targets. We delineated that apoptosis mediated by envelope glycoprotein in bystander cells correlates with transmembrane subunit (gp41)-induced hemifusion. The apoptotic pathway initiated by this interaction involves caspase-3-dependent mitochondrial depolarization and reactive oxygen species production, which depends on the phenotype of the envelope glycoprotein associated with the virus. Taken as a whole, our studies have many different important implications for anti-viral therapies and vaccine development.

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Sensitivity of HIV-1 to entry inhibitors correlates with envelope/coreceptor affinity, receptor density, and fusion kinetics

Cited by 370 publications

References 36 publications

Role of the Envelope Genetic Context in the Development of Enfuvirtide Resistance in Human Immunodeficiency Virus Type 1-Infected Patients

Role of the Envelope Genetic Context in the Development of Enfuvirtide Resistance in Human Immunodeficiency Virus Type 1-Infected Patients

Time-resolved Imaging of HIV-1 Env-mediated Lipid and Content Mixing between a Single Virion and Cell Membrane

HIV-1 envelope glycoprotein-mediated fusion and pathogenesis: Implications for therapy and vaccine development

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