Investigation of a Putative Secondary Binding Site between the Broadly Neutralizing Monoclonal anti-HIV-1 Antibody and its Antigen gp41

Wierzbicka, Marta

30 December 2010

One potential approach to vaccine development against HIV involves generating an immunogen that can elicit the production of broadly neutralizing monoclonal antibodies (bnmAbs), which target specific sites on the HIV-1 envelope. Using site-directed mutagenesis and ELISA assays, this thesis investigates the idea of a secondary binding site of one of the bnmAbs, 2F5, as suggested by previous studies that identified residues Asp64, Thr65, and Arg82B on 2F5 that are recognized by its anti-idiotypic antibody 3H6. Results show that 2F5 binds only very weakly to the gp41 ectodomain in its post-fusion conformation. However, a small but significant difference was observed between the binding of the mutants and the T-20 peptide, a fusion inhibiting drug. Due to the limited effect, the results need to be confirmed using more quantitative techniques and more optimal conformations of the antigen, but raise the prospect that design of immunogens to elicit HIV-specific antibodies might have to incorporate this novel interaction site.

HIV-1

broadly neutralizing antibodies

gp41

2F5 Fab

0487

Investigation of a Putative Secondary Binding Site between the Broadly Neutralizing Monoclonal anti-HIV-1 Antibody and its Antigen gp41

Wierzbicka, Marta

30 December 2010

One potential approach to vaccine development against HIV involves generating an immunogen that can elicit the production of broadly neutralizing monoclonal antibodies (bnmAbs), which target specific sites on the HIV-1 envelope. Using site-directed mutagenesis and ELISA assays, this thesis investigates the idea of a secondary binding site of one of the bnmAbs, 2F5, as suggested by previous studies that identified residues Asp64, Thr65, and Arg82B on 2F5 that are recognized by its anti-idiotypic antibody 3H6. Results show that 2F5 binds only very weakly to the gp41 ectodomain in its post-fusion conformation. However, a small but significant difference was observed between the binding of the mutants and the T-20 peptide, a fusion inhibiting drug. Due to the limited effect, the results need to be confirmed using more quantitative techniques and more optimal conformations of the antigen, but raise the prospect that design of immunogens to elicit HIV-specific antibodies might have to incorporate this novel interaction site.

HIV-1

broadly neutralizing antibodies

gp41

2F5 Fab

0487

Architecture of the HIV-1 glycan shield

Pritchard, Laura K.

January 2014

In recent years the glycan shield of the HIV-1 envelope spike (Env) has emerged as a potential target for microbicide and vaccine design. The densely packed glycans on its surface include an intrinsic population of under-processed oligomannose structures, and a number of lectins and broadly neutralising antibodies (bnAbs) have been isolated which are reactive to these ‘non-self’ glycan structures. The potential value of these agents in therapeutic or vaccine contexts depends upon the prevalence of their glycan targets in nature and their resilience to sequence mutation. Here the prevalence of oligomannose-type glycans on recombinant gp120 was demonstrated across a panel of isolates, revealing subtle cross clade differences. Alanine scanning of all potential N-glycosylation sites (PNGSs) within a model gp120 demonstrated the overall stability of the oligomannose population, but highlighted regions of glycan clusters where individual glycans act to limit the processing of their neighbours. This was formally demonstrated for the N332 ‘site of vulnerability’, where deletion of nearby glycosylation sites led to altered glycan processing at the N332 site. A panel of N332-dependent bnAbs was screened for their ability to tolerate such changes in glycan processing, with differing results. While some displayed promiscuous binding, others were more sensitive to glycan microheterogeneity. Site-specific glycosylation analysis of the PGT135 epitope revealed that an intolerance of certain glycoforms may explain its limited breadth. While a greater understanding of Env glycan microheterogeneity and bnAb promiscuity is required, these findings reveal insights into the architecture of the HIV-1 glycan shield that suggest it is a conserved and robust target for drug and vaccine design.

616.97

CD4 T Follicular Helper and Regulatory Cell Dynamics and Function in HIV Infection

Miles, Brodie, Miller, Shannon M., Connick, Elizabeth

27 December 2016

T follicular helper cells (T-FH) are a specialized subset of CD4 T cells that reside in B cell follicles and promote B cell maturation into plasma cells and long-lived memory B cells. During chronic infection prior to the development of AIDS, HIV-1 (HIV) replication is largely concentrated in T-FH. Paradoxically, T-FH numbers are increased in early and midstages of disease, thereby promoting HIV replication and disease progression. Despite increased T-FH numbers, numerous defects in humoral immunity are detected in HIV-infected individuals, including dysregulation of B cell maturation, impaired somatic hypermutation, and low quality of antibody production despite hypergammaglobulinemia. Clinically, these defects are manifested by increased vulnerability to bacterial infections and impaired vaccine responses, neither of which is fully reversed by antiretroviral therapy (ART). Deficits in T-FH function, including reduced HIV-specific IL-21 production and low levels of co-stimulatory receptor expression, have been linked to these immune impairments. Impairments in T-FH likely contribute as well to the ability of HIV to persist and evade humoral immunity, particularly the inability to develop broadly neutralizing antibodies. In addition to direct infection of T-FH, other mechanisms that have been linked to T-FH deficits in HIV infection include upregulation of PD-L1 on germinal center B cells and augmented follicular regulatory T cell responses. Challenges to development of strategies to enhance T-FH function in HIV infection include lack of an established phenotype for memory T-FH as well as limited understanding of the relationship between peripheral T-FH and lymphoid tissue T-FH. Interventions to augment T-FH function in HIV-infected individuals could enhance immune reconstitution during ART and potentially augment cure strategies.

follicular T helper cells

follicular T regulatory cells

germinal center

broadly neutralizing antibodies

HIV

Elicitation of antibody responses against the HIV-1 gp41 Membrane Proximal External Region (MPER)

Cheng, Yuxing

06 June 2014

An effective vaccine to protect against HIV-1/AIDS remains elusive due to the extensive mechanisms employed by the HIV-1 virus to evade immune attack. Highly potent broadly neutralizing antibodies isolated from chronically infected individuals, however, show that such relevant antibodies can be naturally produced, implying that their elicitation through vaccination is a realistic possibility. These broadly neutralizing antibodies target different regions on the trimeric spikes formed by three protomers of the envelope (Env) protein. Each Env protein is comprised of the gp120 surface subunit in non-covalent association with the gp41 transmembrane subunit. Four regions have been identified: the CD4 binding site, the V1/V2 segment and the V3/glycan area all on the gp120 subunit as well as the MPER segment on the gp41 subunit. This dissertation focuses on the gp41 MPER segment given its highly conserved amino acid sequence among all HIV-1 clades and viral strain isolates and essential function in Env-mediated fusion and HIV entry. Of note, the MPER segment contains several adjacent epitopes targeted by broadly neutralizing antibodies, suggesting that the immune system is capable of producing neutralizing antibodies against this specific region. Analysis of both clade B and C MPER segments shows them to be L-shaped, consisting of two  helices separated by a hinge. We have found that the hinge region of the MPER segment provides the conformational flexibility necessary for the Env-mediated hemifusion and fusion processes. A significant reduction in virus infectivity is observed when the hinge region is disrupted by introduction of two amino acid mutations that eliminate -helical capping residues and the tandem hinge joints. The importance of the hinge region of the MPER segment is further supported by the action of four MPER-specific neutralizing antibodies 2F5, 4E10, 10E8 and Z13E1. These neutralizing antibodies block virus infection by disrupting MPER hinge-related function.

Biology

Public health

antibody responses

broadly neutralizing antibodies

gp41

HIV-1

MPER

Vaccine

Targeting the CD4- and Coreceptor-Binding Sites of the HIV-1 Envelope Glycoprotein

Gardner, Matthew Ryan

06 June 2014

The HIV-1 envelope glycoprotein, Env, facilitates the translocation of the viral capsid across the cellular membrane. Env is a trimer of hetero-dimers composed of a gp120 subunit and gp41 transmembrane protein. The gp120 subunit binds the primary receptor, CD4, leading to conformational changes of Env that then promote binding to the coreceptor, principally CCR5 or CXCR4. As the sole protein on the surface of the virion, Env is under continuous pressure from the host's antibody response. Two classes of antibodies target the highly conserved receptor-binding sites of gp120: CD4-binding site (CD4bs) and CD4-induced (CD4i) antibodies.

Virology

broadly neutralizing antibodies

CD4i antibodies

eCD4-Ig

HIV-1 entry

HIV-1 envelope glycoprotein

Molecular Diagnosis of Common Viral Infectious Diseases Based on Real-Time PCR

Mohamed, Nahla

January 2006

Molecular biology has become an integral part of the diagnosis of infectious diseases. Recently, quantitative real-time PCR (QPCR) methods (often in the form of so-called TaqMan® systems) have been developed for the diagnosis of a wide range of infectious diseases; these techniques found valuable clinical application in the diagnosis and evaluation of progress and therapeutic success of viral diseases. The use of QPCR as a tool for diagnostic virological and viral research laboratories has greatly increased in recent years. It often replaces conventional PCR and amplicon detection systems which are more complex and laborious, with a higher risk of amplicon carry-over contamination. The new QPCR methods presented here utilize broadly targeted primers and probes for rational and sensitive detection and quantification of variable RNA viruses. They take advantage of the dual properties, both RNA and DNA dependent DNA polymerase activities, of the rTth thermostable polymerase, and thermolabile UNG with dUTP to protect against inadvertent contamination of samples with amplimers. In paper one, a novel QPCR approach to detect and quantify human enteroviral (EV) RNA in patients with neurological disorders such as aseptic meningitis is presented. In the second paper, the development of a novel serological technique, quantitative PCR enhanced immunoassay (QPIA), for serodiagnosis of EV infection, is described. In paper three the subject is the development of a touch-down QPCR (TD-QPCR) for detection and preliminary genogrouping of norovirus (NV), a group of Caliciviruses. In paper four a rational, broadly targeted, system for detection of diverse influenza viruses, yet being able to discriminate between influenza A, B and C, is designed and evaluated. In the last paper, another rational broadly targeted system, for detection of corona viruses in humans and animals, is described. The technologies described in this collection of papers have common features. They are a platform for further development of diagnostic tools for screening and detection of viruses in known viral diseases, maybe also for discovering new viruses.

Molecular biology

Microbiology

Virology

rTth DNA polymerase

UNG

QPCR

RNA virus

broadly targeted PCR

Molekylärbiologi

Detection and Quantification of Variable Viral RNA by Real-Time PCR Assays

Muradrasoli, Shaman

January 2008

As the area of nucleic acid based technologies develops, so will our understanding of how structural variations in DNA and RNA pathogens are associated with disease. The overall goal of this thesis is the development of broadly targeted measurement techniques for variable viral RNA by Real-Time PCR (here referred to as quantitative reverse transcriptase PCR, QRT-PCR). In papers I & II, broadly targeted and specific QRT-PCRs were used to study expression of endogenous and exogenous betaretrovirus sequences in human tissues. Results from human tissues demonstrated endogenous betaretrovirus expression in a tissue-specific manner, highest in reproductive tissues. Despite the high sensitivity, no exogenous betaretrovirus was found in human breast cancer samples. The limits of primer and probe degeneracy for detection of a diverse set of retroviral sequences was evaluated. These methods are useful for further investigations on the pathophysiological contribution(s) of endogenous betaretrovirus and to investigate whether an exogenous betaretrovirus is involved in human breast cancer. In papers III & IV, we developed and applied broadly targeted one-step QRT-PCRs for influenza viruses and coronaviruses. In addition to the generic primers, two novel probe design strategies were used in order to be able to broadly amplify these diverse sets of viruses: A triplex system for simultaneous detection and quantification of influenza A, B and C (3QRT-PCR and further developed 3QRT-PCR-MegB; where MegB stands for MegaBeacon) based on TaqMan® and MegB probes, and a pan-CoV QRT-PCR, based on three TaqMan® probes i.e., degeneracy was distributed on three probes. Probe fault tolerance was thus increased in two ways, either with short probes with/without locked nucleic acid (LNA) nucleotides concentrated to conserved stretches, or with long probes (MegB), compensating mismatching positions with many matching ones. Clinical samples, negative by antigen detection with immunofluorescence (IFA), were influenza A positive with 3QPCR-MegB. Avian pooled samples, negative with an earlier pan-CoV QPCR, came out positive with the triple-probe system. Assay evaluation with clinical samples and reference strains revealed good clinical diagnostic potential. Thus, the thesis describes several strategies to counteract sequence variation of RNA viruses and describes a set of broadly targeted QRT-PCRs useful for scientific screening or diagnostics of betaretroviruses and respiratory viruses.

Virology

Diagnosis of Viral RNA

QPCR

RNA virus

broadly targeted PCR

probe design strategy

Infectious diseases

Antigen-binding Fragments: Production for and Use in Crystallographic Studies

Liu, Feiyang (Victoria)

05 December 2013

An immunoglobulin (IgG) consists of two antigen-binding fragments (Fab) connected to a crystallisable fragment through hinge regions. This thesis mainly investigates the production methods of Fabs used in structural studies. A cost effective and time saving protocol has been established for the production of recombinant 2F5 Fab, a HIV-1 broadly neutralizing monoclonal antibody fragment, using an Escherichia coli expression system. The integrity of structure and antigen-binding capability of the produced 2F5 Fab was confirmed by determining the crystal structure of the Fab-antigen peptide complex. In parallel, 3H1 Fab, a fragment of an antibody which is involved in detecting misfolded superoxide dismutase, which is related to familial amyotrophic lateral sclerosis, was produced by papain proteolysis of its parent IgG molecule. Both Fab production methods resulted in high yields of pure Fab samples that are crystallisable and ready to be engaged in structural studies using X-ray crystallography.

antigen-binding fragment

X-ray crystallography

HIV-1

broadly neutralizing monoclonal antibody

0307

Antigen-binding Fragments: Production for and Use in Crystallographic Studies

Liu, Feiyang (Victoria)

05 December 2013

An immunoglobulin (IgG) consists of two antigen-binding fragments (Fab) connected to a crystallisable fragment through hinge regions. This thesis mainly investigates the production methods of Fabs used in structural studies. A cost effective and time saving protocol has been established for the production of recombinant 2F5 Fab, a HIV-1 broadly neutralizing monoclonal antibody fragment, using an Escherichia coli expression system. The integrity of structure and antigen-binding capability of the produced 2F5 Fab was confirmed by determining the crystal structure of the Fab-antigen peptide complex. In parallel, 3H1 Fab, a fragment of an antibody which is involved in detecting misfolded superoxide dismutase, which is related to familial amyotrophic lateral sclerosis, was produced by papain proteolysis of its parent IgG molecule. Both Fab production methods resulted in high yields of pure Fab samples that are crystallisable and ready to be engaged in structural studies using X-ray crystallography.

antigen-binding fragment

X-ray crystallography

HIV-1

broadly neutralizing monoclonal antibody

0307