Barbara S. Schnierle

Membrane-Anchored Peptide Inhibits Human Immunodeficiency Virus Entry

ABSTRACT Peptides derived from the heptad repeats of human immunodeficiency virus (HIV) gp41 envelope glycoprotein, such as T20, can efficiently inhibit HIV type 1 (HIV-1) entry. In this study, replication of HIV-1 was inhibited more than 100-fold in a T-helper cell line transduced with a retrovirus vector expressing membrane-anchored T20 on the cell surface. Inhibition was independent of coreceptor usage.

Establishment of a mouse xenograft model for mycosis fungoides

Abstract:u2002 Mycosis fungoides (MF) is the most frequent variant of cutaneous T‐cell lymphomas (CTCLs). MF primarily involves the skin initially with patches and plaques. In later stages, cutaneous tumors develop and tumor cells may spread to lymph nodes and finally to visceral sites. Here, we describe an animal model for MF in immune‐deficient nude mice, using the CTCL cell line MyLa. Subcutaneous transplantation of MyLa cells leads to the formation of cutaneous tumors in 80% of the mice (50/60 total). Spread of tumor cells to visceral sites was detected by immunohistochemistry and polymerase chain reaction (PCR)‐based detection of specific T‐cell receptor‐γ rearrangement. MyLa cells were found circulating in the blood, lymph nodes, and in blood vessels of heart, kidney, lung, and liver. In lung and liver tissue, tumor cells presented perivascular invasion, but no large secondary tumors developed. The nude mouse model described here will be a valuable test system for new therapeutic approaches for the treatment of MF and opens the unique opportunity to study the disease in vivo.

Stable expression of the ecotropic retrovirus receptor in amphotropic packaging cells facilitates the transfer of recombinant vectors and enhances the yield of retroviral particles.

Retroviral vectors are used widely as gene transfer vehicles. Vector particles are generated by packaging cell lines, which supply the structural proteins gag, pol and env needed to package the retroviral vector RNA. The most efficient way to introduce the vector genome into the packaging cell line is cross-infection with a retroviral vector. Since the infection of a packaging cell line by the produced virus is blocked due to the down regulation of the retrovirus receptor by the envelope glycoprotein, the vector genome should be introduced by a virus with a host tropism different from the one of the packaging cell line. The murine ecotropic retrovirus receptor was expressed in the human amphotropic packaging cell line FLYA13 to generate a cell line which can be infected by murine ecotropic retroviruses. Vector transfer can now be facilitated by cross-infection with the appropriate ecotropic retroviral vectors and provides a simple and efficient method for the generation of amphotropic packaging lines.

Peptide Ligands Selected with CD4-Induced Epitopes on Native Dualtropic HIV-1 Envelope Proteins Mimic Extracellular Coreceptor Domains and Bind to HIV-1 gp120 Independently of Coreceptor Usage

ABSTRACT During HIV-1 entry, binding of the viral envelope glycoprotein gp120 to the cellular CD4 receptor triggers conformational changes resulting in exposure of new epitopes, the highly conserved CD4-induced (CD4i) epitopes that are essential for subsequent binding to chemokine receptor CCR5 or CXCR4. Due to their functional conservation, CD4i epitopes represent attractive viral targets for HIV-1 entry inhibition. The aim of the present study was to select peptide ligands for CD4i epitopes on native dualtropic (R5X4) HIV-1 envelope (Env) glycoproteins by phage display. Using CD4-activated retroviral particles carrying Env from the R5X4 HIV-1 89.6 strain as the target, we performed screenings of random peptide phage libraries under stringent selection conditions. Selected peptides showed partial identity with amino acids in the extracellular domains of CCR5/CXCR4, including motifs rich in tyrosines and aspartates at the N terminus known to be important for gp120 binding. A synthetic peptide derivative (XD3) corresponding to the most frequently selected phages was optimized for Env binding on peptide arrays. Interestingly, the optimized peptide could bind specifically to gp120 derived from HIV-1 strains with different coreceptor usage, competed with binding of CD4i-specific monoclonal antibody (MAb) 17b, and interfered with entry of both a CCR5 (R5)-tropic and a CXCR4 (X4)-tropic Env pseudotyped virus. This peptide ligand therefore points at unique properties of CD4i epitopes shared by gp120 with different coreceptor usage and could thus serve to provide new insight into the conserved structural details essential for coreceptor binding for further drug development.

Modified Envelope Glycoproteins to Retarget Retroviral Vectors

A conceptual breakthrough in gene therapy would be gene transfer vector that could be systemically applied, allowing targeted gene transfer into a predetermined cell type. The host range of a retroviral vector is determined by the interaction of the viral envelope glycoprotein (Env) and the retrovirus receptor on the surface of the host cell. In this review, we describe the current efforts to engineer targeted envelope glycoproteins, which can be incorporated into retroviral particles and are capable of delivering genes in a highly specific manner.

Decreased HIV diversity after allogeneic stem cell transplantation of an HIV-1 infected patient: a case report

The human immunodeficiency virus type 1 (HIV-1) coreceptor use and viral evolution were analyzed in blood samples from an HIV-1 infected patient undergoing allogeneic stem cell transplantation (SCT). Coreceptor use was predicted in silico from sequence data obtained from the third variable loop region of the viral envelope gene with two software tools. Viral diversity and evolution was evaluated on the same samples by Bayesian inference and maximum likelihood methods. In addition, phenotypic analysis was done by comparison of viral growth in peripheral blood mononuclear cells and in a CCR5 (R5)-deficient T-cell line which was controlled by a reporter assay confirming viral tropism. In silico coreceptor predictions did not match experimental determinations that showed a consistent R5 tropism. Anti-HIV directed antibodies could be detected before and after the SCT. These preexisting antibodies did not prevent viral rebound after the interruption of antiretroviral therapy during the SCT. Eventually, transplantation and readministration of anti-retroviral drugs lead to sustained increase in CD4 counts and decreased viral load to undetectable levels. Unexpectedly, viral diversity decreased after successful SCT. Our data evidence that only R5-tropic virus was found in the patient before and after transplantation. Therefore, blocking CCR5 receptor during stem cell transplantation might have had beneficial effects and this might apply to more patients undergoing allogeneic stem cell transplantation. Furthermore, we revealed a scenario of HIV-1 dynamic different from the commonly described ones. Analysis of viral evolution shows the decrease of viral diversity even during episodes with bursts in viral load.

Specific transduction of HIV-1 envelope expressing cells by retroviral vectors pseudotyped with hybrid CD4/CXCR4 receptors

Infection of a target cell by HIV is initiated by the interaction of the envelope glycoprotein with the CD4 receptor molecule on the surface of the target cell. This is followed by binding of a coreceptor of the chemokine receptor family and subsequently fusion of viral and cellular membranes. Membrane fusion is independent of whether the viral envelope protein is on the viral or on the cellular membrane. Accordingly, targeting of HIV infected cells by retroviral vectors has been previously achieved both by coincorporation of CD4 and coreceptors into murine leukemia virus (MLV) and lentivirus based vector particles. It was, therefore, tested whether hybrid genes of CD4 and CXCR4 are also able to yield receptor vectors. A construct containing the four extracellular loops of CD4 fused to CXCR4 (CD4-D4-X4) allowed gene transfer into HIV-1 envelope expressing cells by vectors based on either MLV or lentiviruses. The CD4-D2-X4 hybrid receptor, containing the first two extracellular CD4 domains, allowed gene transfer only by lentiviral vectors. Attempts to increase vector titres by deletion of the intracellular part of CXCR4 failed. Vector titres obtained by hybrid receptors were slightly lower than published titres obtained by separate expression of CD4 and CXCR4. Thus, CD4-D4-CXCR4 hybrids are useful for the generation of retroviral and lentiviral vectors with specificity for HIV-1 envelope expressing cells.

Replacement of the murine leukemia virus (MLV) envelope gene with a truncated HIV envelope gene in MLV generates a virus with impaired replication capacity.

Murine leukemia virus (MLV) capsid particles can be efficiently pseudotyped with a variant of the HIV-1 envelope protein (Env) containing the surface glycoprotein gp120-SU and a carboxyl-terminally truncated transmembrane (TM) protein, with only seven cytoplasmic amino acids. MLV/HIV pseudotyped vector particles acquire the natural host tropism of HIV-1 and their entry is dependent on the presence of CD4 and an appropriate co-receptor on the surface of the target cell. We describe here the construction of chimeric MLV/HIV proviruses containing the truncated HIV envelope gene. The MLV/HIV provirus was generated by direct replacement of the MLV envelope gene with HIV Env coding sequences either with or without the additional inclusion of the woodchuck hepatitis virus posttranscriptional regulatory element (WPRE). Chimeric MLV/HIV particles could be generated from transfected 293T cells and were able to infect CD4/CXCR4-positive target cells. However, the second round of infection of target cells was severely impaired, despite the fact that the WPRE element enhanced the amount of viral mRNA detected. Viral particles released from infected cells showed reduced HIV Env incorporation, indicating that additional factors required for efficient replication of MLV/HIV pseudotyped viruses are missing.

MLV/HIV-pseudotyped vectors: a new treatment option for cutaneous t cell lymphomas

Cutaneous T cell lymphomas (CTCLs) are lymphoproliferative disorders involving the skin. Malignant cells have a CD4+ T-helper phenotype and are found in early stages of the disease in plaques and cutaneous tumors. MLV/HIV-pseudotyped retroviral vectors target gene transfer to CD4-positive T cells and are therefore well suited to be specific delivery vehicles to treat CTCLs. We established a mouse xenograft model for CTCL and generated MLV/HIV-pseudotyped vectors encoding the herpes simplex virus thymidine kinase (HSV-TK), a well-known suicide gene, to prove the efficacy of MLV/HIV vectors in CTCL treatment. Vector particles were intratumorally injected into CTCL nude mouse xenografts. Mice were systemically treated with ganciclovir (GCV) and the tumor tissue was analyzed. A significant delay in tumor growth was observed for HSV-TK-transduced and GCV-treated tumors. GFP expression could be detected exclusively in CD4+ cells of tumors after transduction with GFP-encoding control vectors. The data demonstrate a cell-specific in vivo gene delivery via MLV/HIV-pseudotyped vectors and open new avenues for the treatment of CTCL in humans.

The Cellular Antiviral Restriction Factor Tetherin Does Not Inhibit Poxviral Replication

ABSTRACT Interferon-stimulated genes fulfill innate antiviral effector functions. Among them, tetherin (THN) blocks the release of many enveloped viruses from infected cells. Vaccinia virus (VACV) encodes immune modulators interfering with antiviral host responses. Therefore, it was tempting to study a potential VACV-THN interaction. Remarkably, THN expression did not inhibit VACV release and replication. VACV infection did not diminish THN surface levels or impair its function on retroviral release. This suggests that THN is unable to restrict VACV replication.