Subcutaneous administration of a recombinant vaccinia virus vaccine expressing multiple envelopes of HIV-1.

A critical goal of HIV vaccine development is the identification of safe and immunogenic vectors. Recombinant vaccinia virus is a highly effective vaccine vector, with demonstrated capacity to protect animals from various viral pathogens, including rabies. Unlike many other candidate vaccine vectors, vast human experience exists with the parenteral smallpox vaccine. However, consideration of recombinant vaccinia virus as a modern vaccine is complicated by the relatively high prevalence of immunocompromised persons compared to such prevalence 4 or more decades ago (when smallpox vaccination was still routine). Administering vaccine by the subcutaneous (SQ) route, rather than the traditional scarification route, could address these concerns. SQ administration could prevent transmission of vaccinia virus to potentially vulnerable persons; it could also avoid the most common adverse events, which are cutaneous in nature. However, previous studies suggest that elicitation of immune response against passenger gene products following SQ administration requires development of a superficial pox lesion, defeating the intention of SQ administration. This is the first report to demonstrate that SQ administration of recombinant vaccinia virus does elicit immune response to the passenger protein in the absence of a cutaneous pox lesion. Results further show that a multi-envelope HIV vaccine can elicit antibody responses toward heterologous HIV-1 not represented by primary sequence in the vaccine. These findings have global implications because they support the consideration of recombinant vaccinia virus as a valuable HIV vaccine vector system.

Effect of natural HIV-1 envelope V1-V2 sequence diversity on the binding of V3-specific and non-V3-specific antibodies.

In past years, much attention has been paid to the HIV-1 envelope (env) protein variable region 3 (V3), termed the principal neutralizing determinant. HIV-1 vaccines were often designed to target V3, and vaccine efficacy was often measured with V3-based assays. Thus, some disappointment resulted when volunteers in first clinical vaccine trials generated V3-specific antibodies that could not protect against V3-similar viruses. We describe an analysis of V1 and V2 sequence effects on antibody binding to V3 and non-V3 determinants. This study involved the preparation of seven full-length (gp160), chimeric env proteins in a vaccinia virus (VV) expression system. Chimeric proteins displayed different V1-V2 sequences but were otherwise identical. A panel of 12 monoclonal antibodies was then tested for binding activities toward the seven chimeras. Results showed that V1-V2 sequences affected antibody binding to env, both in V3 and non-V3 positions. These data demonstrate the enormous complexity of HIV-1 env protein conformation and antigenic determinants. Respect for the complexity of antibody-antigen interactions encourages the design of sophisticated immunoglobulin and protein cocktails for use in HIV-1 therapies and vaccines, respectively.

Eliciting HIV-1 envelope-specific antibodies with mixed vaccinia virus recombinants.

Recombinant vaccinia virus (VV) vectors that express the envelope (Env) protein of the human immunodeficiency virus-type 1 (HIV-1) have been previously shown to elicit HIV-specific cytotoxic T-lymphocyte (CTL) and weak antibody responses in non-human primate studies and clinical trials. In first clinical trials, single Env proteins were presented to the immune system by VV recombinants and other vectors, but individuals were not protected against later exposures to heterologous HIV. It is likely that the generation of protective immune responses against diverse HIV will require that vaccines encompass proteins from not just one, but multiple distinct HIV isolates. Here is described the simple construction of numerous new VV, each expressing a unique, truncated, Env protein (VVenv). Mouse experiments were performed to evaluate the ability of these VVenv to elicit immune responses. HIV-1-specific antibodies appeared within one month following one intraperitoneal inoculation of mice with single or mixed VVenv, reaching plateau levels by 4 months. The magnitude of antibody production was poor at the dose of 10(5) p.f.u. VVenv per animal, but improved with increasing doses of VVenv up to 10(7) p.f.u. per animal. The subcutaneous route of VV immunization, previously proven safe in human trials, was also effective for administering VVenv. These results highlight the strengths of recombinant VV constructs as vehicles for the presentation of multiple HIV-1-Env proteins to the naive immune system.

Eliminating graft-versus-host potential from T cell immunotherapeutic populations.

It is common knowledge that donor T cells are responsible for graft-versus-host disease (GVHD) following bone marrow transplantation (BMT), yet GVHD remains a grave threat to transplant patients. The donor marrow can be purged of T cells to reduce this danger, but the risks of viral infections, tumor relapse and graft rejection are then increased. Here we describe a method that may be used to provide BMT patients with T cell immunotherapeutic populations responsive to foreign antigens, but unresponsive to host HLA. The method involves the culture of donor T cells with host-derived B lymphoblastoid cell lines (BLCL). During culture, the T cells are activated by the mismatched host HLA. Activated cells are subsequently removed by fluorescence-activated cell sorting. Criteria for removal include cell size and the expression of multiple T cell activation antigens on cell membranes. After the procedure, T cell populations retain helper and cytotoxic T cell responses against foreign antigens, but are specifically devoid of responses to host HLA. This technique offers a promising method for providing BMT patients the benefits of T cell immunity without the consequences of GVHD.

T cell receptor repertoire of CD4+ and CD8+ T cell subsets in the allogeneic bone marrow transplant recipient.

Allogeneic bone marrow transplantation (BMT) has become a therapy of choice for the treatment of certain malignancies and hematopoietic disorders. However, immunodeficiencies following BMT continue to cause significant morbidity and mortality. We have compared the T cell receptor (TCR) repertoire of BMT patients and healthy control individuals by staining peripheral blood mononuclear cells with fluorochrome-labeled TCR-specific antibodies. Several patients exhibited a biased pattern of TCR expression atypical of the healthy controls, yet no particular TCR bias characterized all patients. For example, we found that 2%-8% of T cells from healthy individuals expressed the V beta 19 TCR. One BMT patient exhibited V beta 19 expression on more than 60% of peripheral T cells, while additional patients expressed V beta 19 on less than 1% of T cells. The patients with the most extreme skewing of TCR types suffered from graft-versus-host disease. The causes of skewed TCR V beta expression patterns in BMT patients are not fully understood, yet some researchers have suggested that an oligoclonal expansion of CD8+ T cell populations may be largely responsible. To test this hypothesis, we examined the TCR V beta repertoire of CD4+ and CD8+ T cell populations. We found that biased V beta expression characterized both CD4+ and CD8+ T cell populations, sometimes within a single individual. Thus, therapies directed toward CD8+ T cells alone may not fully correct repertoire abnormalities following BMT.

T-cell receptor heterogeneity among Epstein-Barr virus-stimulated T-cell populations.

The mechanism by which Epstein-Barr Virus (EBV) escapes T-cell activity during latency in immunocompetent individuals has long been debated. In order to identify potential weaknesses in the EBV-specific immune response, a study of T-cell receptors (TCR) within virus stimulated T-cell populations was performed. Membrane staining techniques and the polymerase chain reaction were used to address two questions: (1) Does EBV behave as a superantigen, thus stimulating, and possibly eliminating, T-cell subsets based on TCR V beta expression?, and (2) Are T-cells dependent on a predominant TCR V beta segment for effective cytotoxic function towards EBV? In search for superantigen effects, V beta repertoires among PBL from seropositive and seronegative individuals were compared both before and after short term in vitro exposure to EBV. In order to characterize functional TCR, the V beta usage among CD8+ EBV-specific cytotoxic T-cell clones was determined. Taken together, results illustrated the strengths rather than weaknesses of the EBV-specific T-cell immune response. T-cells did not respond to EBV in a manner typifying potent superantigen activity, nor did T-cells rely on the expression of a single V beta gene segment for efficient, EBV-specific cytotoxic function.

Restricted usage of T-cell receptor V alpha sequence and variable-joining pairs after normal T-cell development and bone marrow transplantation.

TCR V alpha 3 and V alpha 5 transcripts in PBLs from healthy individuals of multiple age groups and from BMT recipients were analyzed. PCR, cloning, and sequencing studies revealed significant V-J junctional diversity among TCR transcripts from all tested blood samples, as provided both by N/P-region addition and exonuclease activity. However, results illustrated restrictions in TCR alpha diversity at several additional levels. First, V alpha 5 and V alpha 3 gene families, which were expected to be composed of multiple members, were dominated in each case by a single sequence at the transcript level. Second, restrictions existed in V-J pairing in that J alpha genes, which were encoded toward the 5' region of the locus, were rearranged frequently with V alpha 3 and rarely with V alpha 5. Conversely, J alpha genes encoded toward the 3' region of the locus preferentially rearranged with V alpha 5. Healthy individuals showed few differences with regard to V-J pairing patterns, while one of three BMT recipients demonstrated a skewed usage of 3' J alpha genes. In total, results demonstrated qualitative restrictions that may limit the working TCR repertoire in human peripheral tissues, both among BMT recipients and their healthy donors.

Reconstitution of the T cell receptor alpha beta repertoire in recipients of allogeneic BMT.

This report describes the qualitative analysis of T cell receptor (TCR) repertoire regeneration in recipients of BMT. RNA samples from patient and control peripheral blood lymphocytes were prepared and tested for the presence of multiple V alpha and V beta transcripts by the polymerase chain reaction. TCR V gene expression was highly diverse within the first 6 months post-transplantation in recipients receiving either T cell-depleted or T cell-replete marrow, and in HLA mismatched as well as matched donor-recipient pairs. The sequencing of TCR message from BMT recipients also demonstrated J gene diversity and apparently normal junctional diversity at the V-J alpha join. Thus, T cell pools in BMT recipients are largely heterogeneous, not mono- or oligoclonal.

Environmental influence on T cell receptor alpha gene rearrangement and expression in vitro.

Experiments were designed to test whether T cell progenitors are committed to particular T cell receptor (TcR) gene rearrangement and expression patterns (prior to rearrangement) or whether such patients are molded by the thymic microenvironment in which T cells develop. To this end, day 14 fetal thymocytes were removed from their normal environment and grown in organ culture (FTOC) for 5 to 12 days. RNA was extracted from organ-cultured cells, processed to cDNA, and TcR alpha sequences were amplified by the polymerase chain reaction for cloning and sequencing. By the examination of N-region additions and V-gene usage, and by the comparison of resultant patterns with those of early vs. adult stages of T cell differentiation in vivo, it was demonstrated that thymocytes in FTOC did not maintain early patterns of gene rearrangement. The thymocyte patterns were most dissimilar from those of normal, early ontogeny when interleukin-4 was added to FTOC. Taken together, results demonstrated the flexibility of T cell progenitors and that environment plays a critical role in the molding of TcR alpha rearrangement and expression patterns.