Uwe Fiebig

Neutralizing antibodies against conserved domains of p15E of porcine endogenous retroviruses: basis for a vaccine for xenotransplantation?

Porcine xenotransplants may offer a potential solution to the problem posed by the limited supply of allotransplants. However, xenotransplantation may be associated with the risk of transmission of microorganisms, in particular of porcine endogenous retroviruses (PERVs) that are an integral part of the porcine genome and able to infect human cells in vitro. Possible strategies to prevent virus transmission include the development of PERV knockout animals or of effective vaccines. When antisera prepared against the main structural proteins of PERV were screened, a goat antiserum against the recombinant ectodomain of the transmembrane envelope protein p15E was found to neutralize PERV infectivity. Epitope mapping using overlapping peptides revealed two epitopes, E1 (GPQQLEK) and E2 (FEGWFN). These sequences are identical for all PERVs and are highly conserved among all gammaretroviruses. Interestingly, antibodies isolated from AIDS patients and specific for sequences of HIV-1 partially homologous with E2 (Mab4E10, LWNWFN) or located in close proximity to E2 (Mab2F5, ELDKWA) are known to neutralize several strains of HIV-1. It is the first report showing epitope mapping of gammaretrovirus-specific neutralizing antibodies and demonstrating similarity to corresponding epitopes in HIV. These domains of the transmembrane proteins of different retroviruses are an effective target for neutralizing antibodies and may be a useful antigen to create an antiretroviral vaccine.

Transspecies Transmission of the Endogenous Koala Retrovirus

ABSTRACT The koala retrovirus (KoRV) is a gammaretrovirus closely related to the gibbon ape leukemia virus and induces leukemias and immune deficiencies associated with opportunistic infections, such as chlamydiosis. Here we characterize a KoRV newly isolated from an animal in a German zoo and show infection of human and rat cell lines in vitro and of rats in vivo, using immunological and PCR methods for virus detection. The KoRV transmembrane envelope protein (p15E) was cloned and expressed, and p15E-specific neutralizing antibodies able to prevent virus infection in vitro were developed. Finally, evidence for immunosuppressive properties of the KoRV was obtained.

Regulation of human endogenous retrovirus-K expression in melanomas by CpG methylation

The overall prognosis of patients with advanced melanoma is poor due to the lack of effective treatment. A key factor for successful therapy is an early detection of disease. Therefore, reliably detection methods and meaningful tumor markers are required. Expression of the human endogenous retrovirus (HERV)‐K(HML‐2) was found elevated in melanomas and it was shown that HERV‐K supports the in vitro transition of melanoma cells from adherent to a more malignant, nonadherent phenotype. Furthermore, the detection of HERV‐K‐specific antibodies in melanoma patients was found to correlate with reduced survival. However, the reason for HERV‐K expression in melanomas still remains unclear and its use as a tumor marker needs further investigation. Therefore, the tumor‐specific transcriptional regulation of HERV‐K expression in melanoma was studied in detail. Human melanoma cell lines were investigated for HERV‐K expression using real‐time PCR. Five cell lines showed very high levels of HERV‐K mRNA as a result of increased promoter activity. This promoter activity was directly silenced by DNA methylation in reporter gene experiments. Higher levels of long terminal repeat (LTR) methylation in cells not expressing HERV‐K compared with cells expressing HERV‐K were found using methylation‐sensitive PCR and bisulfite sequencing. Treatment of cell lines with the demethylating agent 5‐aza‐2′‐deoxycytidine resulted in increased levels of HERV‐K expression in cells previously not expressing HERV‐K and it was shown that this increase is not the result of transcription factor activation. These results demonstrate that increased HERV‐K expression in melanomas may be due to increased promoter activity and demethylation of the 5′LTR.

Novel Functions of Prototype Foamy Virus Gag Glycine- Arginine-Rich Boxes in Reverse Transcription and Particle Morphogenesis

ABSTRACT Prototype foamy virus (PFV) Gag lacks the characteristic orthoretroviral Cys-His motifs that are essential for various steps of the orthoretroviral replication cycle, such as RNA packaging, reverse transcription, infectivity, integration, and viral assembly. Instead, it contains three glycine-arginine-rich boxes (GR boxes) in its C terminus that putatively represent a functional equivalent. We used a four-plasmid replication-deficient PFV vector system, with uncoupled RNA genome packaging and structural protein translation, to analyze the effects of deletion and various substitution mutations within each GR box on particle release, particle-associated protein composition, RNA packaging, DNA content, infectivity, particle morphology, and intracellular localization. The degree of viral particle release by all mutants was similar to that of the wild type. Only minimal effects on Pol encapsidation, exogenous reverse transcriptase (RT) activity, and genomic viral RNA packaging were observed. In contrast, particle-associated DNA content and infectivity were drastically reduced for all deletion mutants and were undetectable for all alanine substitution mutants. Furthermore, GR box I mutants had significant changes in particle morphology, and GR box II mutants lacked the typical nuclear localization pattern of PFV Gag. Finally, it could be shown that GR boxes I and III, but not GR box II, can functionally complement each other. It therefore appears that, similar to the orthoretroviral Cys-His motifs, the PFV Gag GR boxes are important for RNA encapsidation, genome reverse transcription, and virion infectivity as well as for particle morphogenesis.

Generation of neutralising antibodies against porcine endogenous retroviruses (PERVs)

Antibodies neutralising porcine endogenous retroviruses (PERVs) were induced in different animal species by immunisation with the transmembrane envelope protein p15E. These antibodies recognised epitopes, designated E1, in the fusion peptide proximal region (FPPR) of p15E, and E2 in the membrane proximal external region (MPER). E2 is localised in a position similar to that of an epitope in the transmembrane envelope protein gp41 of the human immunodeficiency virus-1 (HIV-1), recognised by the monoclonal antibody 4E10 that is broadly neutralising. To detect neutralising antibodies specific for PERV, a novel assay was developed, which is based on quantification of provirus integration by real-time PCR. In addition, for the first time, highly effective neutralising antibodies were obtained by immunisation with the surface envelope protein of PERV. These data indicate that neutralising antibodies can be induced by immunisation with both envelope proteins.

Mode of interaction between the HIV-1-neutralizing monoclonal antibody 2F5 and its epitope.

Objective:To determine the mechanism of interaction between the HIV-1 gp41-specific broadly neutralizing monoclonal antibody (mAb) 2F5, its epitope in the membrane proximal external region and a domain located in the fusion peptide proximal region in the N-terminal region of gp41. Knowledge of these interactions would be useful for the design of antigens used to induce 2F5-like antibodies. Methods:The binding and avidity of the mAb 2F5 were analyzed using enzyme-linked immunosorbent assays, epitope mapping and surface plasmon resonance analysis. Inhibition of virus neutralization by 2F5 was analyzed using peptides corresponding to the gp41 sequence. Results:Using transmembrane envelope proteins of gammaretroviruses, we had previously induced neutralizing antibodies that recognize two epitopes, one located in the N-terminal part of the transmembrane protein (designated E1) and the other in the C-terminal membrane proximal external region (E2). The E2 epitope corresponds to the mAb 2F5/4E10 epitope in the gp41 of HIV and we have now identified a corresponding E1 domain in gp41. Although 2F5 did not bind directly to E1, the presence of E1 peptides increased the binding of 2F5 to peptides carrying its epitope. Neutralization of HIV-1 by 2F5 was inhibited more effectively by both gp41-derived peptides E1 and E2 together than with the peptide E2 alone. Conclusion:The interaction between the E1 and E2 domains of gp41 increased the efficacy of mAb 2F5 binding to its E2 epitope. Such an interaction may occur after gp41 folding into a six-helix bundle. Antigens containing both domains might be used to induce broadly neutralizing 2F5-like antibodies.

Increased neutralizing antibody response after simultaneous immunization with leucogen and the feline leukemia virus transmembrane protein.

To develop improved vaccination strategies against feline leukemia virus (FeLV), rats were immunized with the transmembrane envelope protein p15E of FeLV alone or in combination with the commercial vaccine Leucogen® comprising the nonglycosylated FeLV surface envelope protein. Binding and neutralizing antibodies were induced in both groups and in the group immunized with Leucogen alone. Higher titers of antibodies neutralizing FeLV were induced by simultaneous immunization with Leucogen and p15E compared to the responses using Leucogen or p15E alone, suggesting that combination vaccines should be used in the future. Epitope mapping of p15E-specific antibodies induced by simultaneous immunization with Leucogen and p15E revealed the same pattern of response as obtained after immunization with p15E alone: one epitope was localized in the membrane-proximal external region (MPER) and the other in the fusion peptide-proximal region, and they are related to the epitopes detected after immunization with p15E of the porcine endogenous retrovirus and the koala retrovirus. The data indicate that these epitopes in the MPER are an effective target for neutralization and that antigens containing them may therefore prove to be a useful component of vaccines against retroviruses, including HIV-1.

A neutralization assay for HIV-2 based on measurement of provirus integration by duplex real-time PCR

Specific, effective and rapid neutralization assays are crucial for the development of an HIV vaccine based on the stimulation of neutralizing antibodies and the development of such an assay for the human immunodeficiency virus-2 (HIV-2) is described. Virus neutralization was measured as the reduction of provirus integration using a duplex real-time PCR with high efficiency (99.4%). This PCR uses primers and a probe specific for the proviral LTR. Amplification and quantitative analysis of the cellular GAPDH gene was carried out in parallel to control for toxic or growth-inhibitory components in the sera. The neutralization assay was used to screen sera from 23 HIV-2 infected patients. 21 sera were able to neutralize HIV-2(60415K), 20 sera neutralized HIV-2(7312A) and 7 sera cross-neutralized HIV-1 IIIB. In contrast, when 14 of these sera were tested in parallel with a conventional neutralization assay based on a p27Gag capture ELISA, only one was found to neutralize HIV-2(60415K) and 11 to neutralize HIV-2(7312A) compared with 12 and 13 sera respectively using the PCR-based assay.

Lack of antiviral antibody response in koalas infected with koala retroviruses (KoRV)

Many wild koalas are infected with the koala retrovirus, KoRV, some of which suffer from lymphoma and chlamydial disease. Three subgroups, KoRV-A, KoRV-B and KoRV-J, have so far been described. It is well known that other closely related gammaretroviruses can induce tumours and severe immunodeficiencies in their respective hosts and a possible role for KoRV infection in lymphoma and chlamydial disease in koalas has been suggested. In many wild koalas, KoRV-A has become endogenised, i.e., it is integrated in the germ-line and is passed on with normal cellular genes. In this study, sera from koalas in European zoos and from wild animals in Australia were screened for antibodies against KoRV-A. These naturally infected animals all carry endogenous KoRV-A and two zoo animals are also infected with KoRV-B. The antibody response is generally an important diagnostic tool for detecting retrovirus infections. However, when Western blot analyses were performed using purified virus or recombinant proteins corresponding to KoRV-A, none of the koalas tested positive for specific antibodies, suggesting a state of tolerance. These results have implications for koala vaccination, as they suggest that therapeutic immunisation of animals carrying and expressing endogenous KoRV-A will not be successful. However, it remains unclear whether these animals can be immunised against KoRV-B and immunisation of uninfected koalas could still be worthwhile.

Induction of antibodies binding to the membrane proximal external region of gp36 of HIV-2.

Objective: The ability to induce neutralizing antibodies may be the most important feature of an antiretroviral vaccine, preventing infection of target cells and subsequent integration of the virus into the cellular genome where the virus may persist. Broadly neutralizing antibodies directed against conserved epitopes in the membrane proximal external region (MPER) of the transmembrane envelope (TM) protein gp41 of HIV-1 such as the monoclonal antibodies (mAb) 2F5 and mAb 4E10 have been found in infected individuals; however, all attempts to induce such antibodies failed. In individuals infected with HIV-2 such antibodies were not yet reported. Methods: Two recombinant proteins corresponding to the ectodomain of the TM protein gp36 of HIV-2 were produced, rats were immunized and sera were analyzed for binding and neutralizing antibodies. Results: Although binding antibodies were induced, none of the sera neutralized HIV-2. Most interestingly, epitope mapping showed specific binding of the antibodies to the MPER of gp36, to a region homologous to the binding site of the mAb 4E10 in gp41 of HIV-1. Conclusions: Although MPER-specific antibodies were induced by vaccination with gp36, these antibodies did not neutralize HIV-2. This is similar to the situation with HIV-1, but in contrast to that with gammaretroviruses.