Your search keyword '"gp41"' showing total 3,367 results

1. Frequency of Fusion Inhibitor Resistance Mutations Among Therapy-Naïve HIV Patients.

Author

Ghassabi, Farzaneh, Hashempour, Ava, Dehghani, Behzad, Hasanshahi, Zahra, Khodadad, Nastaran, Behizadeh, Farideh, and Davarpanah, Mohamad Ali

Abstract

Glycoprotein 41 (gp41) of the human immunodeficiency virus type 1 (HIV-1) protein plays a critical role in membrane fusion. Gp41 binds to proteins in the plasma membrane of CD4+ T cells, particularly the T-cell antigen receptor (TCR). These findings indicate that gp41 is involved in the assembly of HIV-1 at the plasma membrane of T cells and affects the stimulation of the TCR. To control HIV-1, new inhibitors were introduced to target the gp41 protein. However, mutations in this region might reduce their efficacy. The Gp41 region was amplified from the sera of 30 patients using nested polymerase chain reaction. The sequences were analyzed by bioinformatics tools to identify mutations and gp41 structural features. Subtyping and the interaction between fusion inhibitors and gp41 proteins were also examined. As the first report from Iran, docking analysis between fusion inhibitors and Iranian gp41 proteins showed that mutations in gp41 could not reduce the efficacy of the fusion inhibitors. Most of the patients were infected with CRF35-AD. Several post-modification positions, including glycosylation and phosphorylation sites, were identified in the gp41 protein. Our findings revealed no known multinational drug resistance to gp41 inhibitors; thus, fusion inhibitors can effectively inhibit HIV in Iranian patients. In addition, the present study introduced a new gp41 region (36–44 aa), which considerably influences the interactions between gp41 inhibitors and the gp41 protein. This region may play a pivotal role in suppressing gp41 inhibitors in CFR35-AD. Furthermore, gp41 can be considered a good target for subtyping analysis via the phylogenetic method. [ABSTRACT FROM AUTHOR]

Published

2024

2. HIV-1 envelope facilitates the development of protease inhibitor resistance through acquiring mutations associated with viral entry and immune escape.

Author

Maphumulo, Ntombikhona F. and Gordon, Michele L.

Subjects

VIRAL envelope proteins, PROTEASE inhibitors, VIRAL mutation, HIV, MOLECULAR dynamics, VIRAL antibodies

Abstract

Introduction: There is increasing evidence supporting a role for HIV-1 envelope in the development of Protease Inhibitor drug resistance, and a recent report from our group suggested that Env mutations co-evolve with Gag-Protease mutations in the pathway to Lopinavir resistance. In this study, we investigated the effect of co-evolving Env mutations on virus function and structure. Methods: Co-receptor usage and n-linked glycosylation were investigated using Geno2Pheno as well as tools available at the Los Alamos sequence database. Molecular dynamics simulations were performed using Amber 18 and analyzed using Cpptraj, and molecular interactions were calculated using the Ring server. Results: The results showed that under Protease Inhibitor drug selection pressure, the envelope gene modulates viral entry by protecting the virus from antibody recognition through the increased length and number of N-glycosylation sites observed in V1/V2 and to some extent V5. Furthermore, gp120 mutations appear to modulate viral entry through a switch to the CXCR4 coreceptor, induced by higher charge in the V3 region and specific mutations at the coreceptor binding sites. In gp41, S534A formed a hydrogen bond with L602 found in the disulfide loop region between the Heptad Repeat 1 and Heptad Repeat 2 domains and could negatively affect the association of gp120-gp41 during viral entry. Lastly, P724Q/S formed both intermolecular and intramolecular interactions with residues within the Kennedy loop, a known epitope. Discussion: In conclusion, the results suggest that mutations in envelope during Protease Inhibitor treatment failure are related to immune escape and that S534A mutants could preferentially use the cell-to-cell route of infection. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transduction Efficiency of Zika Virus E Protein Pseudotyped HIV-1 gfp and Its Oncolytic Activity Tested in Primary Glioblastoma Cell Cultures.

Author

Formanski, Jan Patrick, Ngo, Hai Dang, Grunwald, Vivien, Pöhlking, Celine, Jonas, Jana Sue, Wohlers, Dominik, Schwalbe, Birco, and Schreiber, Michael

Subjects

*CELL culture, *VIRAL proteins, *PHENOMENOLOGICAL biology, *DISEASE vectors, *GLIOMAS, *ZIKA virus, *CELLULAR signal transduction, *GENE expression, *MICROBIOLOGICAL techniques, *RESEARCH funding, *CELL lines, *GENETIC techniques, *HIV

Abstract

Simple Summary: Cells from the malignant brain tumor, glioblastoma multiforme (GBM) are highly heterogeneous. After tumor removal, some tumor cells remain at the tumor-brain boundary since in the brain, surgery cannot be performed with the normally required safety margin. Thus, it is of upmost importance to develop tools able to destroy remaining tumor cells. One strategy is to develop lentiviral vectors (LVs) with high specificity for GBM cells to transfer therapeutic genes into these cells. The Zika virus (ZIKV) provides an envelope with the protein E, which has a high specificity for GBM cells, making it a prime candidate for the development of LVs; so-called ZIKV protein E coated lentiviral particles. The study demonstrates that such LVs have an efficiency and high specificity for GBM tumor cells, leaving healthy cells mostly unharmed. These LVs open up new perspectives and therapeutic options for combating tumor cells that cannot be removed through surgery. The development of new tools against glioblastoma multiforme (GBM), the most aggressive and common cancer originating in the brain, remains of utmost importance. Lentiviral vectors (LVs) are among the tools of future concepts, and pseudotyping offers the possibility of tailoring LVs to efficiently transduce and inactivate GBM tumor cells. Zika virus (ZIKV) has a specificity for GBM cells, leaving healthy brain cells unharmed, which makes it a prime candidate for the development of LVs with a ZIKV coat. Here, primary GBM cell cultures were transduced with different LVs encased with ZIKV envelope variants. LVs were generated by using the pNLgfpAM plasmid, which produces the lentiviral, HIV-1-based, core particle with GFP (green fluorescent protein) as a reporter (HIVgfp). Using five different GBM primary cell cultures and three laboratory-adapted GBM cell lines, we showed that ZIKV/HIVgfp achieved a 4–6 times higher transduction efficiency compared to the commonly used VSV/HIVgfp. Transduced GBM cell cultures were monitored over a period of 9 days to identify GFP+ cells to study the oncolytic effect due to ZIKV/HIVgfp entry. Tests of GBM tumor specificity by transduction of GBM tumor and normal brain cells showed a high specificity for GBM cells. [ABSTRACT FROM AUTHOR]

Published

2024

4. HIV-1 envelope facilitates the development of protease inhibitor resistance through acquiring mutations associated with viral entry and immune escape

Author

Ntombikhona F. Maphumulo and Michele L. Gordon

Subjects

HIV-1, envelope, gag, PR, gp120, gp41, Microbiology, QR1-502

Abstract

IntroductionThere is increasing evidence supporting a role for HIV-1 envelope in the development of Protease Inhibitor drug resistance, and a recent report from our group suggested that Env mutations co-evolve with Gag-Protease mutations in the pathway to Lopinavir resistance. In this study, we investigated the effect of co-evolving Env mutations on virus function and structure.MethodsCo-receptor usage and n-linked glycosylation were investigated using Geno2Pheno as well as tools available at the Los Alamos sequence database. Molecular dynamics simulations were performed using Amber 18 and analyzed using Cpptraj, and molecular interactions were calculated using the Ring server.ResultsThe results showed that under Protease Inhibitor drug selection pressure, the envelope gene modulates viral entry by protecting the virus from antibody recognition through the increased length and number of N-glycosylation sites observed in V1/V2 and to some extent V5. Furthermore, gp120 mutations appear to modulate viral entry through a switch to the CXCR4 coreceptor, induced by higher charge in the V3 region and specific mutations at the coreceptor binding sites. In gp41, S534A formed a hydrogen bond with L602 found in the disulfide loop region between the Heptad Repeat 1 and Heptad Repeat 2 domains and could negatively affect the association of gp120-gp41 during viral entry. Lastly, P724Q/S formed both intermolecular and intramolecular interactions with residues within the Kennedy loop, a known epitope.DiscussionIn conclusion, the results suggest that mutations in envelope during Protease Inhibitor treatment failure are related to immune escape and that S534A mutants could preferentially use the cell-to-cell route of infection.

Published

2024

5. ADS-J21 is a novel HIV-1 entry inhibitor targeting gp41

Author

Ruiying Liang, Dou Dou, Chunying Wang, Shanshan Huo, Yang Wu, Juan Wang, Zhengsen Yu, Shuomin Zhang, Jingjing Xu, Yue Liu, Peng Liu, Shibo Jiang, and Fei Yu

Subjects

HIV-1, gp41, Small molecule, Inhibitors, Broad-spectrum, Microbiology, QR1-502, Genetics, QH426-470

Abstract

HIV-1 envelope glycoprotein gp41 mediates fusion between HIV-1 and host cell membranes, making inhibitors of gp41 attractive anti-HIV drugs. We previously reported an efficient HIV-1 fusion inhibitor, ADS-J1, with a Y-shaped structure. Here, we discovered a new compound, ADS-J21, with a Y-shaped structure similar to that of ADS-J1 but with a lower molecular weight. Moreover, ADS-J21 exhibited effective anti-HIV-1 activity against divergent HIV-1 strains in vitro, including several HIV-1 laboratory-adapted strains and primary isolates with different subtypes (clades A to F) and tropisms (X4 or R5). Mechanistic studies have demonstrated that ADS-J21 blocks the formation of the gp41 six-helix bundle (6-HB) by targeting conserved amino acids Lys35 and Trp32. These findings suggest that ADS-J21 can be used as a new lead compound for further optimization in the development of a small-molecule fusion inhibitor.

Published

2024

6. Development of Zika Virus E Variants for Pseudotyping Retroviral Vectors Targeting Glioblastoma Cells.

Author

Grunwald, Vivien, Ngo, Hai Dang, Formanski, Jan Patrick, Jonas, Jana Sue, Pöhlking, Celine, Schwalbe, Birco, and Schreiber, Michael

Subjects

*ZIKA virus, *TRANSMEMBRANE domains, *ONCOLYTIC virotherapy, *GLIOBLASTOMA multiforme, *VESICULAR stomatitis, *CHLOROPLAST membranes

Abstract

A fundamental idea for targeting glioblastoma cells is to exploit the neurotropic properties of Zika virus (ZIKV) through its two outer envelope proteins, prM and E. This study aimed to develop envelope glycoproteins for pseudotyping retroviral vectors that can be used for efficient tumor cell infection. Firstly, the retroviral vector pNLlucAM was packaged using wild-type ZIKV E to generate an E-HIVluc pseudotype. E-HIVluc infection rates for tumor cells were higher than those of normal prME pseudotyped particles and the traditionally used vesicular stomatitis virus G (VSV-G) pseudotypes, indicating that protein E alone was sufficient for the formation of infectious pseudotyped particles. Secondly, two envelope chimeras, E41.1 and E41.2, with the E wild-type transmembrane domain replaced by the gp41 transmembrane and cytoplasmic domains, were constructed; pNLlucAM or pNLgfpAM packaged with E41.1 or E41.2 constructs showed infectivity for tumor cells, with the highest rates observed for E41.2. This envelope construct can be used not only as a tool to further develop oncolytic pseudotyped viruses for therapy, but also as a new research tool to study changes in tumor cells after the transfer of genes that might have therapeutic potential. [ABSTRACT FROM AUTHOR]

Published

2023

7. An Artificial Peptide-Based Bifunctional HIV-1 Entry Inhibitor That Interferes with Viral Glycoprotein-41 Six-Helix Bundle Formation and Antagonizes CCR5 on the Host Cell Membrane.

Author

Wang, Chao, Li, Qing, Sun, Lujia, Wang, Xinling, Wang, Huan, Zhang, Wenpeng, Li, Jiahui, Liu, Yang, Lu, Lu, and Jiang, Shibo

Subjects

*HIV, *PEPTIDES, *PLANT viruses, *AMINO acid sequence, *CHEMOKINE receptors

Abstract

Human immunodeficiency virus type 1 (HIV-1) is characterized by high variability and drug resistance. This has necessitated the development of antivirals with a new chemotype and therapy. We previously identified an artificial peptide with non-native protein sequence, AP3, with the potential to inhibit HIV-1 fusion through targeting hydrophobic grooves on the N-terminal heptad repeat trimer of viral glycoprotein gp41. Here, a small-molecule HIV-1 inhibitor targeting chemokine coreceptor CCR5 on the host cell was integrated into the AP3 peptide, producing a novel dual-target inhibitor with improved activity against multiple HIV-1 strains including those resistant to the currently used anti-HIV-1 drug enfuvirtide. Its superior antiviral potency in comparison with the respective pharmacophoric moieties is in consonance with the dual binding of viral gp41 and host factor CCR5. Therefore, our work provides a potent artificial peptide-based bifunctional HIV-1 entry inhibitor and highlights the multitarget-directed ligands approach in the development of novel therapeutic anti-HIV-1 agents. [ABSTRACT FROM AUTHOR]

Published

2023

8. Identification of Anti-gp41 Monoclonal Antibodies That Effectively Target Cytotoxic Immunoconjugates to Cells Infected with Human Immunodeficiency Virus, Type 1.

Author

Klug, Grant, Cole, Frances M., Hicar, Mark D., Watt, Connie, Peters, Tami, and Pincus, Seth H.

Subjects

HIV, MONOCLONAL antibodies, ANTIBODY-toxin conjugates, PEPTIDES, VIRUS diseases

Abstract

We are developing cytotoxic immunoconjugates (CICs) targeting the envelope protein (Env) of the Human Immunodeficiency Virus, type 1 (HIV) to purge the persistent reservoirs of viral infection. We have previously studied the ability of multiple monoclonal antibodies (mAbs) to deliver CICs to an HIV-infected cell. We have found that CICs targeted to the membrane-spanning gp41 domain of Env are most efficacious, in part because their killing is enhanced in the presence of soluble CD4. The ability of a mAb to deliver a CIC does not correlate with its ability to neutralize nor mediate Ab-dependent cellular cytotoxicity. In the current study, we seek to define the most effective anti-gp41 mAbs for delivering CICs to HIV-infected cells. To do this, we have evaluated a panel of human anti-gp41 mAbs for their ability to bind and kill two different Env-expressing cell lines: persistently infected H9/NL4-3 and constitutively transfected HEK293/92UG. We measured the binding and cytotoxicity of each mAb in the presence and absence of soluble CD4. We found that mAbs to the immunodominant helix-loop-helix region (ID-loop) of gp41 are most effective, whereas neutralizing mAbs to the fusion peptide, gp120/gp41 interface, and the membrane proximal external region (MPER) are relatively ineffective at delivering CICs. There was only a weak correlation between antigen exposure and killing activity. The results show that the ability to deliver an effective IC and neutralization are distinct functions of mAbs. [ABSTRACT FROM AUTHOR]

Published

2023

9. Enhancing HIV-1 Neutralization by Increasing the Local Concentration of Membrane-Proximal External Region-Directed Broadly Neutralizing Antibodies.

Author

Kim, Soohyun, Filsinger Interrante, Maria V., and Kim, Peter S.

Subjects

*MONOCLONAL antibodies, *IMMUNOGLOBULINS, *VIRAL proteins, *HIV, *VIRAL antibodies, *SMALL molecules

Abstract

Broadly neutralizing antibodies (bNAbs) against the membrane-proximal external region (MPER) of the gp41 component of the human immunodeficiency virus type 1 (HIV-1) envelope (Env) are characterized by long, hydrophobic, heavy chain complementarity-determining region 3s (HCDR3s) that interact with the MPER and some viral membrane lipids to achieve increased local concentrations. Here, we show that increasing the local concentration of MPER-directed bNAbs at the cell surface via binding to the high-affinity Fc receptor FcgRI potentiates their ability to prevent viral entry in a manner analogous to the previously reported observation wherein the lipid-binding activity of MPER bNAbs increases their concentration at the viral surface membrane. However, binding of MPER-directed bNAb 10E8 to FcgRI abolishes the neutralization synergy that is seen with the N-heptad repeat (NHR)-targeting antibody D5_AR and NHR-targeting small molecule enfuvirtide (T20), possibly due to decreased accessibility of the NHR in the FcgRI-10E8-MPER complex. Taken together, our results suggest that lipid-binding activity and FcgRI-mediated potentiation function in concert to improve the potency of MPER-directed bNAbs by increasing their local concentration near the site of viral fusion. Therefore, lipid binding may not be a strict requirement for potent neutralization by MPER-targeting bNAbs, as alternative methods can achieve similar increases in local concentrations while avoiding potential liabilities associated with immunologic host tolerance. IMPORTANCE The trimeric glycoprotein Env, the only viral protein expressed on the surface of HIV-1, is the target of broadly neutralizing antibodies and the focus of most vaccine development efforts. Broadly neutralizing antibodies targeting the membrane proximal external region (MPER) of Env show lipid-binding characteristics, and modulating this interaction affects neutralization. In this study, we tested the neutralization potencies of variants of the MPER-targeting antibody 10E8 with different viral-membrane-binding and host FcgRI-binding capabilities. Our results suggest that binding to both lipid and FcgRI improves the neutralization potency of MPER-directed antibodies by concentrating the antibodies at sites of viral fusion. As such, lipid binding may not be uniquely required for MPER-targeting broadly neutralizing antibodies, as alternative methods to increase local concentration can achieve similar improvements in potency. [ABSTRACT FROM AUTHOR]

Published

2023

10. Targeting a Conserved Lysine in the Hydrophobic Pocket of HIV-1 gp41 Improves Small Molecule Antiviral Activity.

Author

He, Li, Zhou, Guangyan, Sofiyev, Vladimir, Garcia, Eddie, Nguyen, Newton, Li, Kathy H., and Gochin, Miriam

Subjects

*SMALL molecules, *HIV, *MOLECULAR weights, *CARBOXYLIC acids, *DRUG target, *TENOFOVIR

Abstract

Human Immunodeficiency virus (HIV-1) fusion is mediated by glycoprotein-41, a protein that has not been widely exploited as a drug target. Small molecules directed at the gp41 ectodomain have proved to be poorly drug-like, having moderate efficacy, high hydrophobicity and/or high molecular weight. We recently investigated conversion of a fairly potent hydrophobic inhibitor into a covalent binder, by modifying it to react with a lysine residue on the protein. We demonstrated a 10-fold improvement in antiviral efficacy. Here, we continue this study, utilizing instead molecules with better inherent drug-like properties. Molecules possessing low to no antiviral activity as equilibrium binders were converted into µM inhibitors upon addition of an electrophilic warhead in the form of a sulfotetrafluorophenyl (STP) activated ester. We confirmed specificity for gp41 and for entry. The small size of the inhibitors described here offers an opportunity to expand their reach into neighboring pockets while retaining drug-likeness. STP esterification of equilibrium binders is a promising avenue to explore for inhibiting HIV-1 entry. Many gp41 targeting molecules studied over the years possess carboxylic acid groups which can be easily converted into the corresponding STP ester. It may be worth the effort to evaluate a library of such inhibitors as a way forward to small molecule inhibition of fusion of HIV and possibly other enveloped viruses. [ABSTRACT FROM AUTHOR]

Published

2022

11. Rab11-FIP1C Is Dispensable for HIV-1 Replication in Primary CD4+ T Cells, but Its Role Is Cell Type Dependent in Immortalized Human T-Cell Lines.

Author

Fernandez-de Céspedes, Melissa V., Hoffman, Huxley K., Carter, Hannah, Simons, Lacy M., Naing, Lwar, Ablan, Sherimay D., Scheiblin, David A., Hultquist, Judd F., van Engelenburg, Schuyler B., and Freeda, Eric O.

Subjects

*T cells, *HTLV-I, *HIV, *SMALL interfering RNA

Abstract

The HIV-1 envelope glycoprotein (Env) contains a long cytoplasmic tail harboring highly conserved motifs that direct Env trafficking and incorporation into virions and promote efficient virus spread. The cellular trafficking factor Rab11a family interacting protein 1C (FIP1C) has been implicated in the directed trafficking of Env to sites of viral assembly. In this study, we confirm that small interfering RNA (siRNA)-mediated depletion of FIP1C in HeLa cells modestly reduces Env incorporation into virions. To determine whether FIP1C is required for Env incorporation and HIV-1 replication in physiologically relevant cells, CRISPR-Cas9 technology was used to knock out the expression of this protein in several human T-cell lines—Jurkat E6.1, SupT1, and H9—and in primary human CD4+ T cells. FIP1C knockout caused modest reductions in Env incorporation in SupT1 cells but did not inhibit virus replication in SupT1 or Jurkat E6.1 T cells. In H9 cells, FIP1C knockout caused a cell density-dependent defect in virus replication. In primary CD4+ T cells, FIP1C knockout had no effect on HIV-1 replication. Furthermore, human T-cell leukemia virus type 1 (HTLV-1)-transformed cell lines that are permissive for HIV-1 replication do not express FIP1C. Mutation of an aromatic motif in the Env cytoplasmic tail (Y795W) implicated in FIP1C-mediated Env incorporation impaired virus replication independently of FIP1C expression in SupT1, Jurkat E6.1, H9, and primary T cells. Together, these results indicate that while FIP1C may contribute to HIV-1 Env incorporation in some contexts, additional and potentially redundant host factors are likely required for Env incorporation and virus dissemination in T cells. IMPORTANCE The incorporation of the HIV-1 envelope (Env) glycoproteins, gp120 and gp4+, into virus particles is critical for virus infectivity. gp4+ contains a long cytoplasmic tail that has been proposed to interact with host cell factors, including the trafficking factor Rab11a family interacting protein 1C (FIP1C). To investigate the role of FIP1C in relevant cell types—human T-cell lines and primary CD4+ T cells— we used CRISPR-Cas9 to knock out FIP1C expression and examined the effect on HIV-1 Env incorporation and virus replication. We observed that in two of the T-cell lines examined (Jurkat E6.1 and SupT1) and in primary CD4+ T cells, FIP1C knockout did not disrupt HIV-1 replication, whereas FIP1C knockout reduced Env expression and delayed replication in H9 cells. The results indicate that while FIP1C may contribute to Env incorporation in some cell lines, it is not an essential factor for efficient HIV-1 replication in primary CD4+ T cells. [ABSTRACT FROM AUTHOR]

Published

2022

12. Oligomerization of Fusion Proteins: A Common Symptom for Class I Viruses

Author

Meher, Geetanjali, Chakraborty, Hirak, and Ahmad, Shamim I., editor

Published

2021

13. Stoichiometry of HIV-1 Envelope Glycoprotein Protomers with Changes That Stabilize or Destabilize the Pretriggered Conformation.

Author

Zhang Z, Anang S, Wang Q, Nguyen HT, Chen HC, Chiu TJ, Yang D, Smith AB 3rd, and Sodroski JG

Abstract

During human immunodeficiency virus (HIV-1) entry into host cells, binding to the receptors, CD4 and CCR5/CXCR4, triggers conformational changes in the metastable envelope glycoprotein (Env) trimer ((gp120-gp41) 3 ). CD4 binding induces Env to make transitions from its pretriggered conformation (PTC) to more "open" conformations that are sensitive to inhibition by antibodies, CD4-mimetic compounds (CD4mcs) and exposure to cold. Changes in functional membrane Envs have been identified that either stabilize or destabilize the PTC. Here, we investigate the stoichiometric requirements for the PTC-stabilizing and -destabilizing changes in the Env protomers. To this end, we generated viruses bearing Envs with mixed protomers exhibiting different degrees of PTC stability and determined the sensitivity of the viruses to cold (0°C) and, in some cases, to a CD4mc. The number of stabilized Env protomers required to achieve stabilization of the PTC was inversely related to the degree of PTC stabilization that resulted from the introduced Env change. For strongly stabilizing Env changes, modification of a single protomer was sufficient to achieve PTC stabilization; given adequate stability, the modified protomer can apparently constrain the conformation of the other two protomers to maintain the PTC. Weakly stabilizing Env changes needed to be present in all three protomers to achieve efficient stabilization of the PTC. In many cases, the PTC was disrupted when destabilizing changes were present in only a single protomer. These complementary results suggest that conformational symmetry among the protomers of the functional Env trimer is conducive to the integrity of the PTC., Competing Interests: We declare no conflicts of interest.

Published

2024

14. The Glu143 Residue Might Play a Significant Role in T20 Peptide Binding to HIV-1 Receptor gp41: An In Silico Study.

Author

Alaofi, Ahmed L.

Subjects

*HIV, *PEPTIDES, *MOLECULAR dynamics

Abstract

Despite the enormous efforts made to develop other fusion inhibitors for HIV, the enfuvirtide (known as T20) peptide is the only approved HIV-1 inhibitory drug so far. Investigating the role of potential residues of the T20 peptide's conformational dynamics could help us to understand the role of potential residues of the T20 peptide. We investigated T20 peptide conformation and binding interactions with the HIV-1 receptor (i.e., gp41) using MD simulations and docking techniques, respectively. Although the mutation of E143 into alanine decreased the flexibility of the E143A mutant, the conformational compactness of the mutant was increased. This suggests a potential role of E143 in the T20 peptide's conformation. Interestingly, the free energy landscape showed a significant change in the wild-type T20 minimum, as the E143A mutant produced two observed minima. Finally, the docking results of T20 to the gp41 receptor showed a different binding interaction in comparison to the E143A mutant. This suggests that E143 residue can influence the binding interaction with the gp41 receptor. Overall, the E143 residue showed a significant role in conformation and binding to the HIV-1 receptor. These findings can be helpful in optimizing and developing HIV-1 inhibitor peptides. [ABSTRACT FROM AUTHOR]

Published

2022

15. In Vitro Selection and Characterization of HIV-1 Variants with Increased Resistance to LP-40, Enfuvirtide-Based Lipopeptide Inhibitor.

Author

Hu, Yue, Yu, Wenjiang, Geng, Xiuzhu, Zhu, Yuanmei, Chong, Huihui, and He, Yuxian

Subjects

*HIV, *DRUG resistance, *AMINO acids, *FATTY acids, *PEPTIDES

Abstract

In our previous work, we replaced the TRM (tryptophan-rich motif) of T20 (Enfuvirtide) with fatty acid (C16) to obtain the novel lipopeptide LP-40, and LP-40 displayed enhanced antiviral activity. In this study, we investigated whether the C16 modification could enhance the high-resistance barrier of the inhibitor LP-40. To address this question, we performed an in vitro simultaneous screening of HIV-1NL4-3 resistance to T20 and LP-40. The mechanism of drug resistance for HIV-1 Env was further studied using the expression and processing of the Env glycoprotein, the effect of the Env mutation on the entry and fusion ability of the virus, and an analysis of changes to the gp41 core structure. The results indicate that the LP-40 activity is enhanced and that it has a high resistance barrier. In a detailed analysis of the resistance sites, we found that mutations in L33S conferred a stronger resistance, except for the well-recognized mutations in amino acids 36–45 of gp41 NHR, which reduced the inhibitory activity of the CHR-derived peptides. The compensatory mutation of eight amino acids in the CHR region (NDQEEDYN) plays an important role in drug resistance. LP-40 and T20 have similar resistance mutation sites, and we speculate that the same resistance profile may arise if LP-40 is used in a clinical setting. [ABSTRACT FROM AUTHOR]

Published

2022

16. Antiviral Activities of HIV-1-Specific Human Broadly Neutralizing Antibodies Are Isotype-Dependent.

Author

Noailly, Blandine, Yaugel-Novoa, Melyssa, Werquin, Justine, Jospin, Fabienne, Drocourt, Daniel, Bourlet, Thomas, Rochereau, Nicolas, and Paul, Stéphane

Subjects

IMMUNOGLOBULINS, CHO cell, HIV, HUMORAL immunity

Abstract

Broadly neutralizing antibodies (bNAbs) offer promising opportunities for preventing HIV-1 infection. The protection mechanisms of bNAbs involve the Fc domain, as well as their Fab counterpart. Here, different bNAb isotypes including IgG1, IgA1, IgA2, and IgA122 (IgA2 with the hinge of IgA1) were generated and then produced in CHO cells. Their ability to neutralize pseudovirus and primary HIV-1 isolates were measured, as well as their potential ADCC-like activity using a newly developed assay. In our work, gp41-specific IgA seems to be more efficient than IgG1 in inducing ADCC-like activity, but not in its virus neutralization effect. We show that either gp120-specific IgA or IgG1 isotypes are both efficient in neutralizing different viral strains. In contrast, gp120-specific IgG1 was a better ADCC-like inducer than IgA isotypes. These results provide new insights into the neutralization and ADCC-like activity of different bNAbs that might be taken into consideration when searching for new treatments or antibody-based vaccines. [ABSTRACT FROM AUTHOR]

Published

2022

17. An Artificial Peptide-Based Bifunctional HIV-1 Entry Inhibitor That Interferes with Viral Glycoprotein-41 Six-Helix Bundle Formation and Antagonizes CCR5 on the Host Cell Membrane

Author

Chao Wang, Qing Li, Lujia Sun, Xinling Wang, Huan Wang, Wenpeng Zhang, Jiahui Li, Yang Liu, Lu Lu, and Shibo Jiang

Subjects

HIV-1, gp41, CCR5, entry inhibitors, multitarget-directed ligands, coiled coil, Microbiology, QR1-502

Abstract

Human immunodeficiency virus type 1 (HIV-1) is characterized by high variability and drug resistance. This has necessitated the development of antivirals with a new chemotype and therapy. We previously identified an artificial peptide with non-native protein sequence, AP3, with the potential to inhibit HIV-1 fusion through targeting hydrophobic grooves on the N-terminal heptad repeat trimer of viral glycoprotein gp41. Here, a small-molecule HIV-1 inhibitor targeting chemokine coreceptor CCR5 on the host cell was integrated into the AP3 peptide, producing a novel dual-target inhibitor with improved activity against multiple HIV-1 strains including those resistant to the currently used anti-HIV-1 drug enfuvirtide. Its superior antiviral potency in comparison with the respective pharmacophoric moieties is in consonance with the dual binding of viral gp41 and host factor CCR5. Therefore, our work provides a potent artificial peptide-based bifunctional HIV-1 entry inhibitor and highlights the multitarget-directed ligands approach in the development of novel therapeutic anti-HIV-1 agents.

Published

2023

18. Identification of Anti-gp41 Monoclonal Antibodies That Effectively Target Cytotoxic Immunoconjugates to Cells Infected with Human Immunodeficiency Virus, Type 1

Author

Grant Klug, Frances M. Cole, Mark D. Hicar, Connie Watt, Tami Peters, and Seth H. Pincus

Subjects

HIV envelope, gp41, immunoconjugate, immunotoxin, CD4, cytotoxicity, Medicine

Abstract

We are developing cytotoxic immunoconjugates (CICs) targeting the envelope protein (Env) of the Human Immunodeficiency Virus, type 1 (HIV) to purge the persistent reservoirs of viral infection. We have previously studied the ability of multiple monoclonal antibodies (mAbs) to deliver CICs to an HIV-infected cell. We have found that CICs targeted to the membrane-spanning gp41 domain of Env are most efficacious, in part because their killing is enhanced in the presence of soluble CD4. The ability of a mAb to deliver a CIC does not correlate with its ability to neutralize nor mediate Ab-dependent cellular cytotoxicity. In the current study, we seek to define the most effective anti-gp41 mAbs for delivering CICs to HIV-infected cells. To do this, we have evaluated a panel of human anti-gp41 mAbs for their ability to bind and kill two different Env-expressing cell lines: persistently infected H9/NL4-3 and constitutively transfected HEK293/92UG. We measured the binding and cytotoxicity of each mAb in the presence and absence of soluble CD4. We found that mAbs to the immunodominant helix-loop-helix region (ID-loop) of gp41 are most effective, whereas neutralizing mAbs to the fusion peptide, gp120/gp41 interface, and the membrane proximal external region (MPER) are relatively ineffective at delivering CICs. There was only a weak correlation between antigen exposure and killing activity. The results show that the ability to deliver an effective IC and neutralization are distinct functions of mAbs.

Published

2023

19. A Protein-Based, Long-Acting HIV-1 Fusion Inhibitor with an Improved Pharmacokinetic Profile.

Author

Xu, Wei, Cong, Zhe, Duan, Qianyu, Wang, Qian, Su, Shan, Wang, Rui, Lu, Lu, Xue, Jing, and Jiang, Shibo

Subjects

*HIV, *ANTI-HIV agents, *PHARMACOKINETICS, *SERUM albumin, *CLINICAL medicine

Abstract

Recently, a series of highly effective peptide- or protein-based HIV fusion inhibitors have been identified. However, due to their short half-life, their clinical application is limited. Therefore, the development of long-acting HIV fusion inhibitors is urgently needed. Here, we designed and constructed a protein-based, long-acting HIV fusion inhibitor, termed FLT (FN3-L35-T1144), consisting of a monobody, FN3, which contains an albumin-binding domain (ABD), a 35-mer linker (L35), and a peptide-based HIV fusion inhibitor, T1144. We found that FLT bound, via its FN3 component, with human serum albumin (HSA) in a reversible manner, thus maintaining the high efficiency of T1144 against infection by both HIV-1 IIIB (X4) and Bal (R5) strains with IC50 of 11.6 nM and 15.3 nM, respectively, and remarkably prolonging the half-life of T1144 (~27 h in SD rats). This approach affords protein-based HIV fusion inhibitors with much longer half-life compared to enfuvirtide, a peptide-based HIV fusion inhibitor approved for use in clinics. Therefore, FLT is a promising candidate as a new protein-based anti-HIV drug with an improved pharmacokinetic profile. [ABSTRACT FROM AUTHOR]

Published

2022

20. SOSIP Trimer-Specific Antibodies Isolated from a Simian-Human Immunodeficiency Virus-Infected Monkey with versus without a Pre-blocking Step with gp41.

Author

Duggan, Natasha N., Weisgrau, Kim L., Magnani, Diogo M., Rakasz, Eva G., Desrosiers, Ronald C., and Martinez-Navio, Jose M.

Subjects

*MONONUCLEAR leukocytes, *MONKEYS, *RHESUS monkeys, *IMMUNOGLOBULINS, *MONOCLONAL antibodies

Abstract

BG505 SOSIP.664 (hereafter referred to as SOSIP), a stabilized trimeric mimic of the HIV-1 envelope spike resembling the native viral spike, is a useful tool for isolating anti-HIV-1 neutralizing antibodies. We screened long-term SHIV-AD8 infected rhesus monkeys for potency and breadth of serum neutralizing activity against autologous and heterologous viruses: SHIV-AD8, HIV-1 YU2, HIV-1 JR-CSF, and HIV-1 NL4-3. Monkey rh2436 neutralized all viruses tested and showed strong reactivity to the SOSIP trimer, suggesting this was a promising candidate for attempts at monoclonal antibody (MAb) isolation. MAbs were isolated by performing single B-cell sorts from peripheral blood mononuclear cells (PBMC) by FACS using the SOSIP trimer as a probe. An initial round of sorted cells revealed the majority of isolated MAbs were directed to the gp41 external domain portion of the SOSIP trimer and were mostly non-neutralizing against tested isolates. A second sort was performed, introducing a gp41 blocking step prior to PBMC staining and FACS sorting. These isolated MAbs bound SOSIP trimer but were no longer directed to the gp41 external domain portion. A significantly higher proportion of MAbs with neutralizing activity were obtained with this strategy. Our data show this pre-blocking step with gp41 greatly increases the yield of non-gp41-reactive, SOSIP-specific MAbs and increases the likelihood of isolating MAbs with neutralizing activity. [ABSTRACT FROM AUTHOR]

Published

2022

21. Engineering T-Cell Resistance to HIV-1 Infection via Knock-In of Peptides from the Heptad Repeat 2 Domain of gp41

Author

Alexandra Maslennikova, Natalia Kruglova, Svetlana Kalinichenko, Dmitriy Komkov, Mikhail Shepelev, Dmitriy Golubev, Andrei Siniavin, Andrei Vzorov, Alexander Filatov, and Dmitriy Mazurov

Subjects

CRISPR/Cas9, knock-in, GPI proteins, CD52, gp41, fusion inhibitors, Microbiology, QR1-502

Abstract

ABSTRACT Previous studies suggest that short peptides from the heptad repeat 2 (HR2) domain of gp41 expressed on the cell surface are more potent inhibitors of HIV-1 entry than soluble analogs. However, their therapeutic potential has only been examined using lentiviral vectors. Here, we aimed to develop CRISPR/Cas9-based fusion inhibitory peptide knock-in (KI) technology for the generation and selection of HIV-1-resistant T cells. First, we embedded a series of HIV-1 fusion inhibitory peptides in CD52, the shortest glycosylphosphatidylinositol (GPI)-anchored protein, which efficiently delivers epitope tags to the cell surface and maintains a sufficient level of KI. Among the seven peptides tested, MT-C34, HP-23L, and 2P23 exhibited significant activity against both cell-free and cell-to-cell HIV-1 infection. The shed variant of MT-C34 provided insufficient protection against HIV-1 due to its low concentration in the culture medium. Using Cas9 plasmids or ribonucleoprotein electroporation and peptide-specific antibodies, we sorted CEM/R5 cells with biallelic KI of MT-C34 and 2P23 peptides at the CXCR4 locus. In combination, these peptides provided a higher level of protection than individual KI. By extending homology arms and cloning donor DNA into a plasmid containing signals for nuclear localization, we achieved KI of MT-C34 into the CXCR4 locus and HIV-1 proviral DNA at levels of up to 35% in the T-cell line and up to 4 to 5% in primary CD4 lymphocytes. Compared to lentiviral delivery, KI resulted in the higher MT-C34 surface expression and stronger protection of lymphocytes from HIV-1. Thus, we demonstrate that KI is a viable strategy for peptide-based therapy of HIV infection. IMPORTANCE HIV is a human lentivirus that infects CD4-positive immune cells and, when left untreated, manifests in the fatal disease known as AIDS. Antiretroviral therapy (ART) does not lead to viral clearance, and HIV persists in the organism as a latent provirus. One way to control infection is to increase the population of HIV-resistant CD4 lymphocytes via entry molecule knockout or expression of different antiviral genes. Peptides from the heptad repeat (HR) domain of gp41 are potent inhibitors of HIV-1 fusion, especially when designed to express on the cell surface. Individual gp41 peptides encoded by therapeutic lentiviral vectors have been evaluated and some have entered clinical trials. However, a CRISPR/Cas9-based gp41 peptide delivery platform that operates through concomitant target gene modification has not yet been developed due to low knock-in (KI) rates in primary cells. Here, we systematically evaluated the antiviral activity of different HR2 peptides cloned into the shortest carrier molecule, CD52. The resulting small-size transgene constructs encoding selected peptides, in combination with improvements to enhance donor vector nuclear import, helped to overcome precise editing restrictions in CD4 lymphocytes. Using KI into CXCR4, we demonstrated different options for target gene modification, effectively protecting edited cells against HIV-1.

Published

2022

22. ADS-J21 is a novel HIV-1 entry inhibitor targeting gp41.

Author

Liang R, Dou D, Wang C, Huo S, Wu Y, Wang J, Yu Z, Zhang S, Xu J, Liu Y, Liu P, Jiang S, and Yu F

Abstract

HIV-1 envelope glycoprotein gp41 mediates fusion between HIV-1 and host cell membranes, making inhibitors of gp41 attractive anti-HIV drugs. We previously reported an efficient HIV-1 fusion inhibitor, ADS-J1, with a Y-shaped structure. Here, we discovered a new compound, ADS-J21, with a Y-shaped structure similar to that of ADS-J1 but with a lower molecular weight. Moreover, ADS-J21 exhibited effective anti-HIV-1 activity against divergent HIV-1 strains in vitro , including several HIV-1 laboratory-adapted strains and primary isolates with different subtypes (clades A to F) and tropisms (X4 or R5). Mechanistic studies have demonstrated that ADS-J21 blocks the formation of the gp41 six-helix bundle (6-HB) by targeting conserved amino acids Lys35 and Trp32. These findings suggest that ADS-J21 can be used as a new lead compound for further optimization in the development of a small-molecule fusion inhibitor., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors. Published by Elsevier B.V.)

Published

2024

23. Targeting a Conserved Lysine in the Hydrophobic Pocket of HIV-1 gp41 Improves Small Molecule Antiviral Activity

Author

Li He, Guangyan Zhou, Vladimir Sofiyev, Eddie Garcia, Newton Nguyen, Kathy H. Li, and Miriam Gochin

Subjects

HIV-1, gp41, covalent inhibitor, fusion inhibitor, Microbiology, QR1-502

Abstract

Human Immunodeficiency virus (HIV-1) fusion is mediated by glycoprotein-41, a protein that has not been widely exploited as a drug target. Small molecules directed at the gp41 ectodomain have proved to be poorly drug-like, having moderate efficacy, high hydrophobicity and/or high molecular weight. We recently investigated conversion of a fairly potent hydrophobic inhibitor into a covalent binder, by modifying it to react with a lysine residue on the protein. We demonstrated a 10-fold improvement in antiviral efficacy. Here, we continue this study, utilizing instead molecules with better inherent drug-like properties. Molecules possessing low to no antiviral activity as equilibrium binders were converted into µM inhibitors upon addition of an electrophilic warhead in the form of a sulfotetrafluorophenyl (STP) activated ester. We confirmed specificity for gp41 and for entry. The small size of the inhibitors described here offers an opportunity to expand their reach into neighboring pockets while retaining drug-likeness. STP esterification of equilibrium binders is a promising avenue to explore for inhibiting HIV-1 entry. Many gp41 targeting molecules studied over the years possess carboxylic acid groups which can be easily converted into the corresponding STP ester. It may be worth the effort to evaluate a library of such inhibitors as a way forward to small molecule inhibition of fusion of HIV and possibly other enveloped viruses.

Published

2022

24. C-terminal Motifs of HIV-1 gp41 as Possible Determinants of Viral Pathogenesis.

Author

Narváez-Pardo, Jorge Andrés, Villarreal Camacho, José-Luis, Varela Prieto, Lourdes Luz, and Cervantes-Acosta, Guillermo

Subjects

*HIV, *IMMUNOLOGICAL deficiency syndromes, *AIDS, *GLYCOPROTEINS, *MICROBIAL virulence

Abstract

human immunodeficiency virus type 1 (HIV-1) is the etiological agent of acquired immunodeficiency syndrome (aids), a pandemic with high economic and social costs. The envelope glycoprotein (env) of the virus mediates the infectious process by binding to and entering the host cell, one of the main target components of studies since its discovery. Its endodomain or C-terminal tail (CTT) participates in late replicative cycle processes, such as intracellular trafficking, activation, and cell death, which occurs because it interacts with multiple cellular factors through motifs or signal sequences present throughout its structure. Although these interactions have not been fully understood at specific levels, studies over more than three decades leave no doubt that this domain plays a fundamental role in the biology of the virus and probably the development of the disease. This review describes the studies carried out to date that demonstrate the importance of the CTT, focusing on the motifs responsible for its interactions and its possible roles in the pathogenicity of the infection. [ABSTRACT FROM AUTHOR]

Published

2021

25. Membrane Env Liposomes Facilitate Immunization with Multivalent Full-Length HIV Spikes.

Author

Leaman, Daniel P., Stano, Armando, Yajing Chen, Lei Zhang, and Zwick, Michael B.

Subjects

*LIPOSOMES, *HIV, *AIDS vaccines, *HIV antibodies, *ANTIBODY specificity, *PROTEIN engineering, *IMMUNIZATION

Abstract

A major goal of HIV vaccine design is to elicit broadly neutralizing antibodies (bNAbs). Such bNAbs target HIV's trimeric, membrane-embedded envelope glycoprotein spikes (mEnv). Soluble Env (sEnv) trimers have been used as vaccines, but engineering sEnvs for stability, multivalency, and desired antigenicity is problematic and deletes key neutralizing epitopes on glycoprotein 41 (gp41) while creating neoepitopes that elicit unwanted antibodies. Meanwhile, multivalent mEnv vaccines are challenging to develop due to trimer instability and low mEnv copy number amid other extraneous proteins on virus-like particles. Here, we describe a multivalent mEnv vaccine platform that does not require protein engineering or extraneous proteins. mEnv trimers were fixed, purified, and combined with naked liposomes in mild detergent. On removal of detergent, mEnv spikes were observed embedded in liposome particles (mean diameter, 133 nm) in correct orientation. These particles were recognized by HIV bNAbs and not non-NAbs and are designated mEnv liposomes (MELs). Following a sequential immunization scheme in rabbits, MELs elicited antibodies that neutralized tier 2 HIV isolates. Analysis of serum antibody specificities, including those to epitopes involving a missing conserved N-glycosylation site at position 197 near the CD4 binding site on two of the immunogens, provides clues on how NAb responses can be improved with modified immunogens. In sum, MELs are a biochemically defined platform that enables rational immunization strategies to elicit HIV bNAbs using multimerized mEnv. IMPORTANCE A vaccine that induced broadly neutralizing antibodies against HIV would likely end the AIDS pandemic. Such antibodies target membrane-embedded envelope glycoprotein spikes (mEnv) that HIV uses to enter cells. Due to HIV Env's low expression and instability, soluble stabilized Env trimers have been used as vaccine candidates, but these have an altered base that disrupts targets of HIV broadly neutralizing antibodies that bind near the membrane and are not available for all HIV isolates. Here, we describe membrane Env liposomes (MELs) that display a multivalent array of stable mEnvs on liposome particles. MELs showed the expected antibody recognition properties, including targeting parts of mEnv missing on soluble Envs. Immunization with MELs elicited antibodies that neutralized diverse HIV isolates. The MEL platform facilitates vaccine development with potentially any HIV Env at high valency, and a similar approach may be useful for eliciting antibodies to membrane-embedded targets of therapeutic interest. [ABSTRACT FROM AUTHOR]

Published

2021

26. Characterization of resistance to a potent d-peptide HIV entry inhibitor

Author

Amanda R. Smith, Matthew T. Weinstock, Amanda E. Siglin, Frank G. Whitby, J. Nicholas Francis, Christopher P. Hill, Debra M. Eckert, Michael J. Root, and Michael S. Kay

Subjects

HIV entry inhibition, d-peptide, PIE12-trimer, gp120, gp41, Viral resistance mutation, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background PIE12-trimer is a highly potent d-peptide HIV-1 entry inhibitor that broadly targets group M isolates. It specifically binds the three identical conserved hydrophobic pockets at the base of the gp41 N-trimer with sub-femtomolar affinity. This extremely high affinity for the transiently exposed gp41 trimer provides a reserve of binding energy (resistance capacitor) to prevent the viral resistance pathway of stepwise accumulation of modest affinity-disrupting mutations. Such modest mutations would not affect PIE12-trimer potency and therefore not confer a selective advantage. Viral passaging in the presence of escalating PIE12-trimer concentrations ultimately selected for PIE12-trimer resistant populations, but required an extremely extended timeframe (> 1 year) in comparison to other entry inhibitors. Eventually, HIV developed resistance to PIE12-trimer by mutating Q577 in the gp41 pocket. Results Using deep sequence analysis, we identified three mutations at Q577 (R, N and K) in our two PIE12-trimer resistant pools. Each point mutant is capable of conferring the majority of PIE12-trimer resistance seen in the polyclonal pools. Surface plasmon resonance studies demonstrated substantial affinity loss between PIE12-trimer and the Q577R-mutated gp41 pocket. A high-resolution X-ray crystal structure of PIE12 bound to the Q577R pocket revealed the loss of two hydrogen bonds, the repositioning of neighboring residues, and a small decrease in buried surface area. The Q577 mutations in an NL4-3 backbone decreased viral growth rates. Fitness was ultimately rescued in resistant viral pools by a suite of compensatory mutations in gp120 and gp41, of which we identified seven candidates from our sequencing data. Conclusions These data show that PIE12-trimer exhibits a high barrier to resistance, as extended passaging was required to develop resistant virus with normal growth rates. The primary resistance mutation, Q577R/N/K, found in the conserved gp41 pocket, substantially decreases inhibitor affinity but also damages viral fitness, and candidate compensatory mutations in gp160 have been identified.

Published

2019

27. The Glu143 Residue Might Play a Significant Role in T20 Peptide Binding to HIV-1 Receptor gp41: An In Silico Study

Author

Ahmed L. Alaofi

Subjects

enfuvirtide, gp41, HIV-1 receptor, molecular dynamics simulations, principal component analysis, free energy landscape, Organic chemistry, QD241-441

Abstract

Despite the enormous efforts made to develop other fusion inhibitors for HIV, the enfuvirtide (known as T20) peptide is the only approved HIV-1 inhibitory drug so far. Investigating the role of potential residues of the T20 peptide’s conformational dynamics could help us to understand the role of potential residues of the T20 peptide. We investigated T20 peptide conformation and binding interactions with the HIV-1 receptor (i.e., gp41) using MD simulations and docking techniques, respectively. Although the mutation of E143 into alanine decreased the flexibility of the E143A mutant, the conformational compactness of the mutant was increased. This suggests a potential role of E143 in the T20 peptide’s conformation. Interestingly, the free energy landscape showed a significant change in the wild-type T20 minimum, as the E143A mutant produced two observed minima. Finally, the docking results of T20 to the gp41 receptor showed a different binding interaction in comparison to the E143A mutant. This suggests that E143 residue can influence the binding interaction with the gp41 receptor. Overall, the E143 residue showed a significant role in conformation and binding to the HIV-1 receptor. These findings can be helpful in optimizing and developing HIV-1 inhibitor peptides.

Published

2022

28. Antiviral Activities of HIV-1-Specific Human Broadly Neutralizing Antibodies Are Isotype-Dependent

Author

Blandine Noailly, Melyssa Yaugel-Novoa, Justine Werquin, Fabienne Jospin, Daniel Drocourt, Thomas Bourlet, Nicolas Rochereau, and Stéphane Paul

Subjects

HIV, broadly neutralizing antibodies, gp41, gp120, ADCC, neutralization, Medicine

Abstract

Broadly neutralizing antibodies (bNAbs) offer promising opportunities for preventing HIV-1 infection. The protection mechanisms of bNAbs involve the Fc domain, as well as their Fab counterpart. Here, different bNAb isotypes including IgG1, IgA1, IgA2, and IgA122 (IgA2 with the hinge of IgA1) were generated and then produced in CHO cells. Their ability to neutralize pseudovirus and primary HIV-1 isolates were measured, as well as their potential ADCC-like activity using a newly developed assay. In our work, gp41-specific IgA seems to be more efficient than IgG1 in inducing ADCC-like activity, but not in its virus neutralization effect. We show that either gp120-specific IgA or IgG1 isotypes are both efficient in neutralizing different viral strains. In contrast, gp120-specific IgG1 was a better ADCC-like inducer than IgA isotypes. These results provide new insights into the neutralization and ADCC-like activity of different bNAbs that might be taken into consideration when searching for new treatments or antibody-based vaccines.

Published

2022

29. Structure of HIV-1 gp41 with its membrane anchors targeted by neutralizing antibodies

Author

Christophe Caillat, Delphine Guilligay, Johana Torralba, Nikolas Friedrich, Jose L Nieva, Alexandra Trkola, Christophe J Chipot, François L Dehez, and Winfried Weissenhorn

Subjects

HIV-1, gp41, membrane fusion, LN01, 4E10, 2H10, Medicine, Science, Biology (General), QH301-705.5

Abstract

The HIV-1 gp120/gp41 trimer undergoes a series of conformational changes in order to catalyze gp41-induced fusion of viral and cellular membranes. Here, we present the crystal structure of gp41 locked in a fusion intermediate state by an MPER-specific neutralizing antibody. The structure illustrates the conformational plasticity of the six membrane anchors arranged asymmetrically with the fusion peptides and the transmembrane regions pointing into different directions. Hinge regions located adjacent to the fusion peptide and the transmembrane region facilitate the conformational flexibility that allows high-affinity binding of broadly neutralizing anti-MPER antibodies. Molecular dynamics simulation of the MPER Ab-stabilized gp41 conformation reveals a possible transition pathway into the final post-fusion conformation with the central fusion peptides forming a hydrophobic core with flanking transmembrane regions. This suggests that MPER-specific broadly neutralizing antibodies can block final steps of refolding of the fusion peptide and the transmembrane region, which is required for completing membrane fusion.

Published

2021

30. Rational Design of A Novel Small-Molecule HIV-1 Inactivator Targeting Both gp120 and gp41 of HIV-1

Author

Jing Pu, Yu Dai, Qian Wang, Lu Lu, Junqi Zhang, Wei Xu, Lan Xie, Shengqi Wang, Fei Yu, Xiaoyang He, and Shibo Jiang

Subjects

HIV-1, entry inhibitor, inactivator, gp120, gp41, Six-helix bundle, Therapeutics. Pharmacology, RM1-950

Abstract

Virus inactivator can inactivate cell-free virions without relying on their replication cycle, potentially reducing the impact of viral infection on cells. Previously, we successfully constructed a HIV-1 protein inactivator, 2DLT, by conjugating the D1D2 region of CD4 to the fusion inhibitor T1144 via a 35-amino acid linker. Therefore, it targets both the CD4 binding site in gp120 and NHR region in gp41. Considering that small-molecule agents have the advantages of fast production, low cost, good stability, and oral availability, we herein report the design of a new small-molecule HIV-1 inactivator, FD028, by conjugating FD016 (an analog of NBD-556, a gp120-CD4 binding inhibitor) with FD017 (an analog of 11d, an HIV-1 fusion inhibitor). The results showed that FD028 inactivated cell-free virions at a moderate nanomolar concentration by targeting both HIV-1 gp120 and gp41. Moreover, FD028 has broad-spectrum inhibition and inactivation activity against HIV-1 resistant strains and primary isolates of different subtypes without significant cytotoxicity. Therefore, FD028 has potential for further development as an HIV-1 inactivator-based therapeutic.

Published

2021

31. A Protein-Based, Long-Acting HIV-1 Fusion Inhibitor with an Improved Pharmacokinetic Profile

Author

Wei Xu, Zhe Cong, Qianyu Duan, Qian Wang, Shan Su, Rui Wang, Lu Lu, Jing Xue, and Shibo Jiang

Subjects

HIV-1, gp41, fusion inhibitor, human serum albumin, long-acting inhibitor, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Recently, a series of highly effective peptide- or protein-based HIV fusion inhibitors have been identified. However, due to their short half-life, their clinical application is limited. Therefore, the development of long-acting HIV fusion inhibitors is urgently needed. Here, we designed and constructed a protein-based, long-acting HIV fusion inhibitor, termed FLT (FN3-L35-T1144), consisting of a monobody, FN3, which contains an albumin-binding domain (ABD), a 35-mer linker (L35), and a peptide-based HIV fusion inhibitor, T1144. We found that FLT bound, via its FN3 component, with human serum albumin (HSA) in a reversible manner, thus maintaining the high efficiency of T1144 against infection by both HIV-1 IIIB (X4) and Bal (R5) strains with IC50 of 11.6 nM and 15.3 nM, respectively, and remarkably prolonging the half-life of T1144 (~27 h in SD rats). This approach affords protein-based HIV fusion inhibitors with much longer half-life compared to enfuvirtide, a peptide-based HIV fusion inhibitor approved for use in clinics. Therefore, FLT is a promising candidate as a new protein-based anti-HIV drug with an improved pharmacokinetic profile.

Published

2022

32. Elucidating the Basis for Permissivity of the MT-4 T-Cell Line to Replication of an HIV-1 Mutant Lacking the gp41 Cytoplasmic Tail.

Author

Fernandez, Melissa V., Hoffman, Huxley K., Pezeshkian, Nairi, Tedbury, Philip R., van Engelenburg, Schuyler B., and Freed, Eric O.

Subjects

*VIRAL envelopes, *VIRAL transmission, *TAILS, *CELL membranes, *CELL lines

Abstract

HIV-1 encodes an envelope glycoprotein (Env) that contains a long cytoplasmic tail (CT) harboring trafficking motifs implicated in Env incorporation into virus particles and viral transmission. In most physiologically relevant cell types, the gp41 CT is required for HIV-1 replication, but in the MT-4 T-cell line the gp41 CT is not required for a spreading infection. To help elucidate the role of the gp41 CT in HIV-1 transmission, in this study, we investigated the viral and cellular factors that contribute to the permissivity of MT-4 cells to gp41 CT truncation. We found that the kinetics of HIV-1 production and virus release are faster in MT-4 than in the other T-cell lines tested, but MT-4 cells express equivalent amounts of HIV-1 proteins on a per-cell basis relative to cells not permissive to CT truncation. MT-4 cells express higher levels of plasmamembrane- associated Env than nonpermissive cells, and Env internalization from the plasma membrane is less efficient than that from another T-cell line, SupT1. Paradoxically, despite the high levels of Env on the surface of MT-4 cells, 2-fold less Env is incorporated into virus particles produced from MT-4 than SupT1 cells. Contact-dependent transmission between cocultured 293T and MT-4 cells is higher than in cocultures of 293T with most other T-cell lines tested, indicating that MT-4 cells are highly susceptible to cell-to-cell infection. These data help to clarify the long-standing question of how MT-4 cells overcome the requirement for the HIV-1 gp41 CT and support a role for gp41 CT-dependent trafficking in Env incorporation and cell-to-cell transmission in physiologically relevant cell lines. [ABSTRACT FROM AUTHOR]

Published

2020

33. Cell membrane-anchored anti-HIV single-chain antibodies and bifunctional inhibitors targeting the gp41 fusion protein: new strategies for HIV gene therapy

Author

Hongliang Jin, Li Li, Yuxian He, Huihui Chong, Yue Chen, Yuanmei Zhu, Xiaoran Tang, and Xiuzhu Geng

Subjects

CD4-Positive T-Lymphocytes, Glycosylphosphatidylinositols, Epidemiology, Genetic enhancement, HIV Infections, hiv, Infectious and parasitic diseases, RC109-216, HIV Antibodies, Cell Fusion, Fusion gene, Cell membrane, HIV Fusion Inhibitors, Drug Discovery, Transgenes, fusion inhibitory peptide, Lipid raft, biology, Chemistry, virus diseases, General Medicine, gene therapy, HIV Envelope Protein gp41, QR1-502, Infectious Diseases, medicine.anatomical_structure, Simian Immunodeficiency Virus, Antibody, Research Article, Anti-HIV Agents, Immunology, Gp41, Microbiology, Cell Line, Viral vector, Membrane Microdomains, Receptors, HIV, Virology, medicine, Humans, broadly neutralizing antibodies (bnabs), Genetic Therapy, Fusion protein, Peptide Fragments, glycosylphosphatidylinositol (gpi), Viral Tropism, HIV-2, Antimicrobial Agents, HIV-1, biology.protein, Parasitology, Broadly Neutralizing Antibodies, Single-Chain Antibodies

Abstract

Emerging studies indicate that infusion of HIV-resistant cells could be an effective strategy to achieve a sterilizing or functional cure. We recently reported that glycosylphosphatidylinositol (GPI)-anchored nanobody or a fusion inhibitory peptide can render modified cells resistant to HIV-1 infection. In this study, we comprehensively characterized a panel of newly isolated HIV-1-neutralizing antibodies as GPI-anchored inhibitors. Fusion genes encoding the single-chain variable fragment (scFv) of 3BNC117, N6, PGT126, PGT128, 10E8, or 35O22 were constructed with a self-inactivating lentiviral vector, and they were efficiently expressed in the lipid raft sites of target cell membrane without affecting the expression of HIV-1 receptors (CD4, CCR5 and CXCR4). Significantly, transduced cells exhibited various degrees of resistance to cell-free HIV-1 infection and cell-associated HIV-1 transmission, as well as viral Env-mediated cell–cell fusion, with the cells modified by GPI-10E8 showing the most potent and broad anti-HIV activity. In mechanism, GPI-10E8 also interfered with the processing of viral Env in transduced cells and attenuated the infectivity of progeny viruses. By genetically linking 10E8 with a fusion inhibitor peptide, we subsequently designed a group of eight bifunctional constructs as cell membrane-based inhibitors, designated CMI01∼CMI08, which rendered cells completely resistant to HIV-1, HIV-2, and simian immunodeficiency virus (SIV). In human CD4+ T cells, GPI-10E8 and its bifunctional derivatives blocked both CCR5- and CXCR4-tropic HIV-1 isolates efficiently, and the modified cells displayed robust survival selection under HIV-1 infection. Therefore, our studies provide new strategies for generating HIV-resistant cells, which can be used alone or with other gene therapy approaches.

Published

2022

34. The development of HIV vaccines targeting gp41 membrane-proximal external region (MPER): challenges and prospects

Author

Huan Liu, Xiaojie Su, Lulu Si, Lu Lu, and Shibo Jiang

Subjects

HIV-1, gp41, MPER, vaccine, neutralizing antibodies, ADCC, Cytology, QH573-671, Animal biochemistry, QP501-801

Abstract

Abstract A human immunodeficiency virus type-1 (HIV-1) vaccine which is able to effectively prevent infection would be the most powerful method of extinguishing pandemic of the acquired immunodeficiency syndrome (AIDS). Yet, achieving such vaccine remains great challenges. The membrane-proximal external region (MPER) is a highly conserved region of the envelope glycoprotein (Env) gp41 subunit near the viral envelope surface, and it plays a key role in membrane fusion. It is also the target of some reported broadly neutralizing antibodies (bNAbs). Thus, MPER is deemed to be one of the most attractive vaccine targets. However, no one can induce these bNAbs by immunization with immunogens containing the MPER sequence(s). The few attempts at developing a vaccine have only resulted in the induction of neutralizing antibodies with quite low potency and limited breadth. Thus far, vaccine failure can be attributed to various characteristics of MPER, such as those involving structure and immunology; therefore, we will focus on these and review the recent progress in the field from the following perspectives: (1) MPER structure and its role in membrane fusion, (2) the epitopes and neutralization mechanisms of MPER-specific bNAbs, as well as the limitations in eliciting neutralizing antibodies, and (3) different strategies for MPER vaccine design and current harvests.

Published

2018

35. DNA adjuvant Amiloride conjunct long immunization interval promote higher antibody responses to HIV-1 gp41 and gp140 immunogens.

Author

Yao, Lan, Wang, Jia-Ye, Bao, Li-Na, Fan, Meng-Xuan, Bai, Yang, Chen, Wen-Jiang, Yuan, Chen, Yuan, Li, Wang, Jing, Li, Yan, Zhuang, Min, and Ling, Hong

Subjects

*ANTIBODY formation, *AMILORIDE, *HIV-1 glycoprotein 120, *HUMORAL immunity, *IMMUNIZATION

Abstract

• Amiloride as a DNA adjuvant can promote humoral immune responses after protein boosts. • Long immunization interval is benefit for the production of specific binding Abs. • Amiloride & long interval show better immune effect than elevating immunization times. • Q577A mutants of gp140 and gp41 show different immune effects compared to wild type. Recent studies have revealed that the interface of gp120 and gp41 and some parts of gp41 are also critical epitopes for elicitation of broadly neutralizing antibodies. Therefore, potential trimeric gp41 or gp140 immunogen candidates are needed. Previously, we developed a trimer motif MTQ and demonstrated that it could help formation of trimeric gp120 and gp140 proteins. In the present study, we immunized Balb/c mice using trimeric gp41-expressing plasmid for prime and monomeric gp41 or trimeric gp140 protein as well as a mutant (Q577A) for boost. The antibody responses in the context of regimens with various immunization intervals and DNA adjuvants including praziquantel (PZQ), cimetidine (CIM), and amiloride (AML) were evaluated. We found that these three adjuvants were not enough to elicit remarkable specific Abs after gp41 DNA immunization, while AML could significantly promote humoral immune responses after protein boosts. Long immunization interval could induce the specific binding Abs earlier and higher and maintain a high level of Abs in the following 27 weeks after final protein boost. Moreover, two times of protein boosts with DNA adjuvant and a longer time interval achieved a higher titer of specific Abs than three times of protein boosts with a shorter time interval. Q577A mutant was benefit for trimeric gp140 boost in the production of binding Abs but harmful to inducing neutralizing Abs, while this mutant in monomeric gp41 presented the opposite trend which may be associated with the immunogen structures. This study highlights the significance of DNA adjuvant Amiloride and long immunization interval in promoting antibody responses and provides new insights into effective HIV immunization regimen design in the future. [ABSTRACT FROM AUTHOR]

Published

2020

36. Maternal Envelope gp41 Ectodomain-Specific Antibodies Are Associated With Increased Mother-to-Child Transmission of Human Immunodeficiency Virus-1.

Author

Naiman, Nicole E, Slyker, Jennifer, Nduati, Ruth, and Overbaugh, Julie M

Subjects

*IMMUNOGLOBULINS, *HIV antibodies, *HIV, *IMMUNODEFICIENCY

Abstract

Mother-to-child transmission of human immunodeficiency virus (HIV) occurs in the setting of maternal and passively acquired antibodies, providing a unique window into immune correlates of HIV risk. We compared plasma antibody binding to HIV antigens between 51 nontransmitting mother-infant pairs and 21 transmitting mother-infant pairs. Plasma antibody binding to a variety of gp41 ectodomain-containing antigens was associated with increased odds of transmission. Understanding the reasons why gp41 ectodomain-targeting antibodies are associated with transmission risk will be important in determining whether they can directly enhance infection or whether their presence reflects a redirecting of the humoral response away from targeting more protective epitopes. [ABSTRACT FROM AUTHOR]

Published

2020

37. The Tryptophan-Rich Motif of HIV-1 gp41 Can Interact with the N-Terminal Deep Pocket Site: New Insights into the Structure and Function of gp41 and Its Inhibitors.

Author

Yuanmei Zhu, Xiaohui Ding, Danwei Yu, Huihui Chong, and Yuxian He

Subjects

*PEPTIDOMIMETICS, *MEMBRANE fusion, *VIRAL envelopes, *BIOCHEMICAL mechanism of action, *PEPTIDES

Abstract

efolding of the HIV-1 gp41 N- and C-terminal heptad repeats (NHR and CHR, respectively) into a six-helix bundle (6-HB) juxtaposes viral and cellular membranes for fusion. The CHR-derived peptide T20 is the only clinically approved viral fusion inhibitor and has potent anti-HIV activity; however, its mechanism of action is not fully understood. In this study, we surprisingly found that T20 disrupted the α-helical conformation of the NHR-derived peptide N54 through its C-terminal tryptophan-rich motif (TRM) and that synthetic short peptides containing the TRM sequence, TRM8 and TRM12, disrupted the N54 helix in a dose-dependent manner. Interestingly, TRM8 efficiently interfered with the secondary structures of three overlapping NHR peptides (N44, N38, and N28) and interacted with N28, which contains mainly the deep NHR pocket-forming sequence, with high affinity, suggesting that TRM targeted the NHR pocket site to mediate the disruption. Unlike TRM8, the short peptide corresponding to the pocket-binding domain (PBD) of the CHR helix had no such disruptive effect, and the CHR peptide C34 could form a stable 6-HB with the NHR helix; however, addition of the TRM to the C terminus of C34 resulted in a peptide (C46) that destroyed the NHR helix. Although the TRM peptides alone had no anti-HIV activity and could not block the formation of 6-HB conformation, substitution of the TRM for the PBD in C34 resulted in a mutant inhibitor (C34TRM) with high binding and inhibitory capacities. Combined, the present data inform a new mode of action of T20 and the structure-function relationship of gp41. [ABSTRACT FROM AUTHOR]

Published

2020

38. The Potential of Camellia sinensis Extract to Prevent HIV/AIDS Transmission Risk Through the Inhibition of Syncytium, GP120, and GP41 Formation.

Author

Rahayu, Retno Pudji, Widiyanti, Prihartini, and Purwanto, Djoko Agus

Subjects

TEA, AIDS, CD4 antigen, HIV infections, GREEN tea

Abstract

Until now, HIV/AIDS is still a public health issue that needs serious attention. Vaccines for HIV currently fare far from expectations. Thus, the development of an effective, safe, and affordable anti-HIV treatment is essential to saving the lives of individuals already infected and at-risk with HIV. One of the natural ingredients that is thought to have a potential as an antiviral is green tea (Camellia sinensis). The largest green tea contents are flavonoids and epigallocatechin gallate (EGCG) that are suspected to have anti-HIV-1 effects by preventing the binding of gp120 and gp41 to T cell CD4 molecules. This study aims to analyze the potential of green tea extract in inhibiting the activity of HIV-1 infection through inhibitions to the formation of Syncytium, gp120, and gp41 and its development as a preclinical therapy based on the content of bioactive compounds contained in green tea extract. The study proves that green tea extract 10mg/ml has the ability to inhibit the formation of Syncytium and inhibit the attachment of gp120 and gp41 HIV virus to CD4 T cells in vitro. Thus, the process of HIV infection and fusion to target cells can be inhibited so that HIV/AIDS transmission can be inhibited. The conclusion is that green tea extracts, containing EGCG components, may be used as herbal-based anti-HIV candidates. [ABSTRACT FROM AUTHOR]

Published

2019

39. The Prevalence of Mesioangular Impacted Lower Third Molar Among Patients Attending the Polyclinic, Faculty of Dentistry, IIUM.

Author

Mustafa, Nazih Shaaban, Kashmoola, Muhannad Ali, Abdulqader, Omar Abduljabbar, Kamarulzaman Hassan, Fatin Bazlina bt., and Ramli, Nur Diyana bt.

Subjects

THIRD molars, DENTISTRY, IMPACTION of teeth, AGE groups, RACIAL differences

Abstract

Tooth impaction is failure of a tooth to erupt into its normal functioning positions within the expected time. It is a condition in which the unerupted or partially erupted tooth is positioned against another tooth, bone, or soft tissue so that complete eruption is unlikely.1 To study the prevalence of mesioangular impacted mandibular third molar using Orthopanthomograph (OPG) among patients attending Polyclinic, Faculty of Dentistry, IIUM Kuantan Campus. A cross sectional retrospective study on Orthopanthomographic radiographs which were taken from April 2009 until April 2012. OPGs with impacted mandibular third molar were collected and classified according to Winter’s classification; and the angulation measured by Padhye, M. N. et al. (2003) method using Planmeca Romexis software. Then, the position of the mesioangular impaction was further classified using Pell and Gregory classification. Among total 1177 cases of impacted mandibular third molar, 38.1% cases were mesioangular impaction, 34.3% cases were vertical impaction, 18.4% cases were horizontal impaction and 9.3% cases were distoangular impaction. Out of 448 OPGs with mesioangular impaction, 244 were female patients and 204 were male patients. Mesioangular impaction was mostly seen in 20-30 age group. Among the 448 cases of mesioangular impaction, race distribution were91.9% Malay, 4.7% Chinese and 3.4% from other races. In term of Pell and Gregory classification, Class IA, IB, IC, IIA, IIB, IIC, IIIA, IIIB and IIIC were 28.1%, 7.4%, 2.2%, 17.4%,29 %,6%, 3.8 %,2.5%,3.6 % respectively. There was no significant difference in gender and race (p > 0.05). The study indicated that the proportion of mesioangular mandibular third molar impaction was the highest among other types of impaction. Among the mesioangular impaction, Class IIB was the highest followed by IA, IIA, IB, IIC, IIIA, IIIC, IIIB, and IC. Although age influence was seen significantly among different classes of mesioangular impaction, no racial and gender influence was found. [ABSTRACT FROM AUTHOR]

Published

2019

40. Acquired Immune Deficiency Syndrome

Author

Khan, Manzoor M. and Khan, Manzoor M

Published

2016

41. C Peptides as Entry Inhibitors for Gene Therapy

Author

Egerer, Lisa, Kiem, Hans-Peter, von Laer, Dorothee, Gao, Guangping, Series editor, Grimm, Dirk, Series editor, Berkhout, Ben, editor, Ertl, Hildegund C.J., editor, and Weinberg, Marc S., editor

Published

2015

42. HIV-1 gp41-targeting fusion inhibitory peptides enhance the gp120-targeting protein-mediated inactivation of HIV-1 virions

Author

Qianqian Qi, Qian Wang, Weizao Chen, Lanying Du, Dimiter S Dimitrov, Lu Lu, and Shibo Jiang

Subjects

entry inhibitor, gp120, gp41, HIV-1, viral inactivation, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Protein- or peptide-based viral inactivators are being developed as novel antiviral drugs with improved efficacy, pharmacokinetics and toxicity profiles because they actively inactivate cell-free human immunodeficiency virus type 1 (HIV-1) virions before attachment to host cells. By contrast, most clinically used antiviral drugs must penetrate host cells to inhibit viral replication. In this study, we pre-treated HIV-1 particles with a gp120-targeting bispecific multivalent protein, 2Dm2m or 4Dm2m, in the presence or absence of the gp41-targeting HIV-1 fusion inhibitory peptides enfuvirtide (T20), T2635, or sifuvirtide (SFT). HIV-1 virions were separated from the inhibitors using PEG-6000, followed by testing of the residual infectivity of the HIV-1 virions. 2Dm2m and 4Dm2m exhibited significant inactivation activity against all HIV-1 strains tested with EC50 values at the low nanomolar level, whereas none of the gp41-targeting peptides showed inactivation activity at concentrations up to 250 nM. Notably, these three peptides significantly enhanced protein-mediated inactivation against cell-free HIV-1 virions, including HIV-1 laboratory-adapted and primary HIV-1 strains, as well as those resistant to T20 or T2635 and virions released from reactivated latently HIV-1-infected cells. These results indicate that the gp120-targeting bispecific multivalent proteins 2Dm2m and 4Dm2m have potential for further development as HIV-1 inactivator-based antiviral drugs for use in the clinic, either alone or in combination with a gp41-targeting HIV-1 fusion inhibitor such as T20, to treat patients with HIV-1 infection and AIDS.Emerging Microbes & Infections (2017) 6, e59; doi:10.1038/emi.2017.46; published online 21 June 2017

Published

2017

43. TLR10 Senses HIV-1 Proteins and Significantly Enhances HIV-1 Infection

Author

Bethany M. Henrick, Xiao-Dan Yao, Muhammad Atif Zahoor, Alash'le Abimiku, Sophia Osawe, and Kenneth L. Rosenthal

Subjects

human breast milk, HIV-1, gp41, p17, p24, TLR10, Immunologic diseases. Allergy, RC581-607

Abstract

Toll-like receptors (TLRs) play a crucial role in innate immunity and provide a first line of host defense against invading pathogens. Of the identified human TLRs, TLR10 remains an orphan receptor whose ligands and functions are poorly understood. In the present study, we sought to evaluate the level of TLR10 expression in breast milk (BM) and explore its potential function in the context of HIV-1 infection. We evaluated HIV-1-infected (Nigerian: n = 40) and uninfected (Nigerian: n = 27; Canadian: n = 15) BM samples for TLR expression (i.e., TLR10, TLR2, and TLR1) and report here that HIV-1-infected BM from Nigerian women showed significantly higher levels of TLR10, TLR1, and TLR2 expression. Moreover, the level of TLR10 expression in HIV-1-infected BM was upregulated by over 100-fold compared to that from uninfected control women. In vitro studies using TZMbl cells demonstrated that TLR10 overexpression contributes to higher HIV-1 infection and proviral DNA integration. Conversely, TLR10 inhibition significantly decreased HIV-1 infection. Notably, HIV-1 gp41 was recognized as a TLR10 ligand, leading to the induction of IL-8 and NF-κBα activation. The identification of a TLR10 ligand and its involvement in HIV-1 infection enhances our current understanding of HIV-1 replication and may assist in the development of improved future therapeutic strategies.

Published

2019

44. Corrigendum: A Comprehensive Analysis of the T and B Lymphocytes Repertoire Shaped by HIV Vaccines

Author

Longlong Wang, Wei Zhang, Liya Lin, Xiao Li, Nitin K. Saksena, Jinghua Wu, Shiyu Wang, Joseph G. Joyce, Xiuqing Zhang, Huanming Yang, Jian Wang, I-Ming Wang, and Xiao Liu

Subjects

HIV, vaccine, T cell receptors repertoire, B cell receptors repertoire, gp41, Immunologic diseases. Allergy, RC581-607

Published

2018

45. Synergistic Effect by Combining a gp120-Binding Protein and a gp41-Binding Antibody to Inactivate HIV-1 Virions and Inhibit HIV-1 Infection

Author

Xinling Wang, Miao Cao, Yanling Wu, Wei Xu, Qian Wang, Tianlei Ying, Lu Lu, and Shibo Jiang

Subjects

HIV-1, gp120, gp41, antibody, combination, viral inactivation, Organic chemistry, QD241-441

Abstract

Acquired immune deficiency syndrome (AIDS) has prevailed over the last 30 years. Although highly active antiretroviral therapy (HAART) has decreased mortality and efficiently controlled the progression of disease, no vaccine or curative drugs have been approved until now. A viral inactivator is expected to inactivate cell-free virions in the absence of target cells. Previously, we identified a gp120-binding protein, mD1.22, which can inactivate laboratory-adapted HIV-1. In this study, we have found that the gp41 N-terminal heptad repeat (NHR)-binding antibody D5 single-chain variable fragment (scFv) alone cannot inactivate HIV-1 at the high concentration tested. However, D5 scFv in the combination could enhance inactivation activity of mD1.22 against divergent HIV-1 strains, including HIV-1 laboratory-adapted strains, primary HIV-1 isolates, T20- and AZT-resistant strains, and LRA-reactivated virions. Combining mD1.22 and D5 scFv exhibited synergistic effect on inhibition of infection by divergent HIV-1 strains. These results suggest good potential to develop the strategy of combining a gp120-binding protein and a gp41-binding antibody for the treatment of HIV-1 infection.

Published

2021

46. GSK3732394: a Multi-specific Inhibitor of HIV Entry.

Author

Wensel, David, Yongnian Sun, Davis, Jonathan, Zhufang Li, Zhang, Sharon, McDonagh, Thomas, Langley, David, Mitchell, Tracy, Tabruyn, Sebastien, Nef, Patrick, Cockett, Mark, and Krystal, Mark

Subjects

*CD4 antigen, *SINGLE molecules, *SUBCUTANEOUS injections, *TRANSGENIC mice, *T cells, *HIV, *ALBUMINS

Abstract

Long-acting antiretrovirals could provide a useful alternative to daily oral therapy for HIV-1-infected individuals. Building on a bi-specific molecule with adnectins targeting CD4 and gp41, a potential long-acting biologic, GSK3732394, was developed with three independent and synergistic modes of HIV entry inhibition that potentially could be self-administered as a long-acting subcutaneous injection. Starting with the bi-specific inhibitor, an α-helical peptide inhibitor was optimized as a linked molecule to the anti-gp41 adnectin, with each separate inhibitor exhibiting at least single-digit nanomolar (or lower) potency and a broad spectrum. Combination of the two adnectins and peptide activities into a single molecule was shown to have synergistic advantages in potency, the resistance barrier, and the ability to inhibit HIV-1 infections at low levels of CD4 receptor occupancy, showing that GSK3732394 can work in trans on a CD4+ T cell. Addition of a human serum albumin molecule prolongs the half-life in a human CD4 transgenic mouse, suggesting that it may have potential as a long-acting agent. GSK3732394 was shown to be highly effective in a humanized mouse model of infection. GSK3732394 is currently in clinical trials. [ABSTRACT FROM AUTHOR]

Published

2019

47. Characterization of HIV-1 genotype specific antigens for the detection of recent and long-term HIV-1 infection in China.

Author

Cai, Qundi, Wang, Haiying, Huang, Liping, Yan, Huanchang, Zhu, Wenchang, and Tang, Shixing

Subjects

*HIV, *GENOTYPES, *IMMUNOASSAY, *IMMUNOSPECIFICITY, *RECOMBINANT proteins

Abstract

Highlights • The sequences at the loop region of HIV-1 gp41 are essential for HIV incidence assay. • The impact of HIV-1 gene diversity on the incidence assay performance was confirmed. • HIV-1 incidence assay must use gp41 peptides specific for the predominant strains. Abstract To characterize HIV-1 gp41 as an antigen for developing HIV-1 incidence assay and to investigate the impact of HIV-1 genetic diversity on the assay performance, a number of truncated peptides were synthesized to identify the immunodominant epitopes (IDEs) of HIV-1 gp41 protein. Subsequently, the mixed peptides (MP3) or the recombinant protein (MP4) containing HIV-1 gp41 IDEs of the major HIV-1 genotype CRF01_AE, CRF07_BC/ CRF08_BC and subtype B in China were used to verify the sensitivity and specificity of HIV-1 recency testing. We identified the QKFLG and GKIIC motifs located in the loop region of HIV-1 gp41 as the two major IDEs. The surrounding amino acids EAQQHLLQLT and WNSSWSN could block the binding of gp41 peptide and anti-HIV antibody with low avidity, making the gp41 peptide p57 suitable for distinguishing recent and long-term HIV-1 infections. Furthermore, MP3 or MP4-based immunoassay could significantly improve the assay sensitivity and showed 93.33% (140/150) vs. 94.59% (35/37) and 94.08% (143/152) vs. 94.59% (35/37) concordance with commercially available LAg-Avidity EIA test among the cross-sectional and longitudinal samples, respectively. The estimated mean duration of recent infection (MDRI) was 130 days (95% CI: 83–167) and 166 days (95% CI: 123–202) for MP3 and MP4 assays, respectively. Our preliminary results indicate that the HIV-1 gp41 peptide-based immunoassay specifically targeting the major HIV-1 genotype CRF01_AE, CRF07_BC/CRF08_BC and subtype B could serve as a simple incidence assay for differentiating recent and long-term HIV-1 infections in China. [ABSTRACT FROM AUTHOR]

Published

2019

48. Gp41 inhibitory activity prediction of theaflavin derivatives using ligand/structure-based virtual screening approaches.

Author

Mostashari-Rad, Tahereh, Saghaei, Lotfollah, and Fassihi, Afshin

Subjects

*MOLECULAR docking, *DYNAMIC simulation

Abstract

Graphical abstract Highlights • Theaflavin digallate, a potent HIV-1 inhibitor, was considered as a template for ligand- and structure-based virtual screening approaches. • In silico Lipinski's Rule of Five and ADMET calculations, were performed to select the compounds with the best potential drug-like properties. • Molecular docking and molecular dynamic simulations were performed to select compounds with the best pharmacodynamic properties. • Some hits with possibly good anti-HIV activities and better pharmacokinetic properties than TF 3 were identified. • The selected compounds have balanced hydophilicity and lipophilicity and probably better gastrointestinal and blood brain barrier absorption. Abstract Gp41 and its conserved hydrophobic groove on the NHR region is one of the attractive targets in the design of HIV-1 entry inhibitory agents. This hydrophobic pocket is very critical for the progression of HIV and host cell fusion. In this study different ligand-based (structure similarity search) and structure-based (molecular docking and molecular dynamic simulation) methods were performed in a virtual screening procedure to select the best compounds with the most probable HIV-1 gp41 inhibitory activities. In silico pharmacokinetics and ADMET (absorption, distribution, metabolism, excretion and toxicity) properties filtration also was considered to choose the compounds with best drug-like properties. The results of molecular docking and molecular dynamic simulations of the final selected compounds showed suitable stabilities of their complexes with gp41. The final selected hits could have better pharmacokinetics properties than the template compound, theaflavin digallate (TF 3), a naturally-originated potent gp41 inhibitor. [ABSTRACT FROM AUTHOR]

Published

2019

49. TLR10 Senses HIV-1 Proteins and Significantly Enhances HIV-1 Infection.

Author

Henrick, Bethany M., Yao, Xiao-Dan, Zahoor, Muhammad Atif, Abimiku, Alash'le, Osawe, Sophia, and Rosenthal, Kenneth L.

Subjects

TOLL-like receptors, GLYCOPROTEINS, NATURAL immunity, LIGANDS (Biochemistry), HIV infections

Abstract

Toll-like receptors (TLRs) play a crucial role in innate immunity and provide a first line of host defense against invading pathogens. Of the identified human TLRs, TLR10 remains an orphan receptor whose ligands and functions are poorly understood. In the present study, we sought to evaluate the level of TLR10 expression in breast milk (BM) and explore its potential function in the context of HIV-1 infection. We evaluated HIV-1-infected (Nigerian: n = 40) and uninfected (Nigerian: n = 27; Canadian: n = 15) BM samples for TLR expression (i.e., TLR10, TLR2, and TLR1) and report here that HIV-1-infected BM from Nigerian women showed significantly higher levels of TLR10, TLR1, and TLR2 expression. Moreover, the level of TLR10 expression in HIV-1-infected BM was upregulated by over 100-fold compared to that from uninfected control women. In vitro studies using TZMbl cells demonstrated that TLR10 overexpression contributes to higher HIV-1 infection and proviral DNA integration. Conversely, TLR10 inhibition significantly decreased HIV-1 infection. Notably, HIV-1 gp41 was recognized as a TLR10 ligand, leading to the induction of IL-8 and NF-κBα activation. The identification of a TLR10 ligand and its involvement in HIV-1 infection enhances our current understanding of HIV-1 replication and may assist in the development of improved future therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2019

50. A Review on Pharmacokinetics Properties of Antiretroviral Drugs to Treat HIV-1 Infections

Author

Krishna Kant Gupta, Mohd. Aqueel Khan, and Sanjeev Kumar Singh

Subjects

Anti-HIV Agents, medicine.medical_treatment, HIV Infections, Pharmacology, Gp41, Pharmacokinetics, Drug Discovery, Humans, Medicine, Distribution (pharmacology), Protease, biology, business.industry, Transmission (medicine), virus diseases, HIV Protease Inhibitors, General Medicine, Reverse transcriptase, Integrase, Bioavailability, Pharmaceutical Preparations, HIV-1, biology.protein, Reverse Transcriptase Inhibitors, Molecular Medicine, business

Abstract

Background: The HIV-1 pandemic is undoubtedly the major public-health crisis of our time. The extensive research on HIV has deepened our understanding of its pathogenesis and transmission dynamics. Some new entity molecules have been approved by the FDA for HIV treatment but till now protective vaccine remains elusive. Scientists are targeting many important proteins of HIV-1; gp41, gp120, CCR5 coreceptor, integrase, reverse transcriptase and protease. Few compounds are used as nucleotide analogues to stop HIV replication. Altogether, these compounds and their derivatives specifically block HIV entry and DNA replication. Using ADMET studies, people are working on these compounds to reduce toxicity and increase potency. Objective: Our main aim is to discuss the Pharmacokinetics properties of 23 important FDA antiretroviral drugs used for the treatment of HIV-1 infections. Methods: We have searched literature related to pharmacokinetics properties in PubMed, Google Scholar search engine. Conclusion: Here, we have reviewed the pharmacokinetic properties such as absorption, bioavailability, distribution, metabolism, and excretion, of important 23 FDA approved drugs. The drugs namely Fuzeon, Selzentry, Complera, Epivir, Retrovir, Emtriva, Ziagen, Edurant, Intelence, Pifeltro, Sustiva, Viramune, Isentress, Genvoya, Tivicay, Reyataz, Prezista, Lexiva, Invirase, Aptivus etc. are classified into five major classes: fusion inhibitors, Nucleoside/Nucleotide Reverse Transcriptase Inhibitors (NRTIs), Non-Nucleoside Reverse Transcriptase Inhibitors (NNRTIs), Integrase Strand transfer inhibitors (INSTIs) and Protease inhibitors (PIs). This Review may helpful for the future development of potent antiretroviral drugs with improved pharmacokinetic properties.

Published

2021