Marcella Sarzotti

Induction of Protective CTL Responses in Newborn Mice by a Murine Retrovirus

The susceptibility of neonates to virus-induced disease is thought to reflect, in part, the immaturity of their immune systems. However, inoculation of newborn mice with low doses of Cas-Br-M murine leukemia virus induced a protective cytotoxic T lymphocyte (CTL) response. The inability of neonates to develop a CTL response to high doses of virus was not the result of immunological immaturity but correlated with the induction of a nonprotective type 2 cytokine response. Thus, the initial viral dose is critical in the development of protective immunity in newborns.

Recommendations for the Design and Use of Standard Virus Panels To Assess Neutralizing Antibody Responses Elicited by Candidate Human Immunodeficiency Virus Type 1 Vaccines

Laboratory measures of antigen-specific immunity are an essential component of the vaccine discovery process. For human immunodeficiency virus type 1 (HIV-1), this process will likely require iterative evaluations of vaccine immunogens to choose the most promising vaccine candidates to advance into human trials. To optimally evaluate and compare vaccine immunogens, we will need high-throughput assays that allow accurate and reproducible measurements of immune responses. In addition, vaccine sponsors and regulatory agencies appropriately require that immune assays associated with human trials be performed in laboratories that comply with guidelines for good laboratory practices (GLP). The rigorous process of assay validation associated with GLP can improve the accuracy of immune assessment assays and contribute to vaccine development by advancing our ability to distinguish incremental improvements in immune responses elicited by novel immunogens. In this commentary, we address several of these issues with regard to the measurement of anti-HIV-1 neutralizing antibodies (NAbs). We recommend the use of DNA plasmids encoding full-length functional HIV-1 envelope glycoproteins (Env); these env clones, when transfected with an HIV-1 envdefective molecular clone, produce well-characterized HIV-1 Env pseudovirions. Additionally, we recommend the establishment of standardized panels of Env-pseudotyped viruses to assess the potencies and breadths of NAbs elicited by vaccine immunogens. These virus panels would form the basis for GLP neutralization assays used to assess sera from clinical vaccine studies, and the same virus panels could be used by investigators interested in the preclinical evaluation of vaccine immunogens.

T cell immunity in neonates

Typically, neonates exhibit decreased or aberrant cellular immune responses when compared to adults, resulting in increased susceptibility to infection. However, it is clear that newborns are able to generate adult-like protective T cell responses under certain conditions. The focus of our research is to understand the deficiencies within the neonatal immune system that lead to improper cellular responses and how priming conditions can be altered to elicit the appropriate T cell response necessary to protect against development of pathogen-induced disease. With these goals in mind, we are exploring the attributes of neonatal T cells and their development, as well as the conditions during priming that influence the resulting response to immune challenge during the neonatal period.

GRP94 (gp96) and GRP94 N-Terminal Geldanamycin Binding Domain Elicit Tissue Nonrestricted Tumor Suppression

In chemical carcinogenesis models, GRP94 (gp96) elicits tumor-specific protective immunity. The tumor specificity of this response is thought to reflect immune responses to GRP94-bound peptide antigens, the cohort of which uniquely identifies the GRP94 tissue of origin. In this study, we examined the apparent tissue restriction of GRP94-elicited protective immunity in a 4T1 mammary carcinoma model. We report that the vaccination of BALB/c mice with irradiated fibroblasts expressing a secretory form of GRP94 markedly suppressed 4T1 tumor growth and metastasis. In addition, vaccination with irradiated cells secreting the GRP94 NH2-terminal geldanamycin-binding domain (NTD), a region lacking canonical peptide-binding motifs, yielded a similar suppression of tumor growth and metastatic progression. Conditioned media from cultures of GRP94 or GRP94 NTD-secreting fibroblasts elicited the up-regulation of major histocompatibility complex class II and CD86 in dendritic cell cultures, consistent with a natural adjuvant function for GRP94 and the GRP94 NTD. Based on these findings, we propose that GRP94-elicited tumor suppression can occur independent of the GRP94 tissue of origin and suggest a primary role for GRP4 natural adjuvant function in antitumor immune responses.

T Cell Repertoire Development in Humans with SCID After Nonablative Allogeneic Marrow Transplantation

Transplantation of HLA-identical or haploidentical T cell-depleted allogeneic bone marrow (BM) into SCID infants results in thymus-dependent T cell development in the recipients. Immunoscope analysis of the TCR Vβ repertoire was performed on 15 SCID patients given BM transplants. Before and within the first 100 days after bone marrow transplantation (BMT), patients’ PBMC displayed an oligoclonal or skewed T cell repertoire, low TCR excision circles (TREC) values, and a predominance of CD45RO+ T cells. In contrast, the presence of high numbers of CD45RA+ cells in the circulation of SCID patients >100 days post-BMT correlated with active T cell output by the thymus as revealed by high TREC values and a polyclonal T cell repertoire demonstrated by a Gaussian distribution of Vβ-specific peaks. Ten years after BMT, we observed a decrease of the normal polyclonal T cell repertoire and an increase of a more skewed T cell repertoire. A decline of TREC levels and a decrease in the number of CD45RA+ cells beyond 10 years after BMT was concomitant with the detection of oligoclonal CD3+CD8+CD45RO+ cells. The switch from a polyclonal to a more skewed repertoire, observed in the CD3+CD8+CD45RO+ T cell subset, is a phenomenon that occurs normally with decreased thymic output during aging, but not as rapidly as in this patient population. We conclude that a normal T cell repertoire develops in SCID patients as a result of thymic output and the repertoire remains highly diverse for the first 10 years after BMT. The TCR diversity positively correlates in these patients with TREC levels.

Cellular Immune Responses in Neonates

Reduced numbers of lymphocytes and antigen presenting cells have been described as some of the main factors responsible for antigenic tolerance or low responsiveness in neonates. However, by changing the parameters of immunization, such as dose of antigen and frequency of antigen presenting cells we and others have shown that neonates have the option of developing the same variety of immune responses seen in adults. Several aspects of the development of cellular immunity in human and murine neonates are reviewed in this article, with a special focus on the development of T cell mediated responses, from ontogeny to effector function.

Induction of cytotoxic T cell responses in newborn mice by DNA immunization

Cytotoxic T cells (CTL) play a critical role in controlling viral infections. Infection of neonatal NFSIN mice with a high dose of Cas-Br-M murine leukemia virus, a neuropathogenic type C retrovirus, results in virus-induced neurologic disease and in their failure to generate a protective CTL response. Cas-Br-M-specific CTL are necessary in the protection of neonatal mice from Cas-Br-M-induced neurologic disease. Here we demonstrate that intramuscular inoculation of newborn mice with naked DNA expressing the full length Cas-Br-M genome induces a virus-specific CTL-mediated response. This CTL response is mediated by CD8+ T cells, is long lasting and, when transferred to susceptible neonatal recipients, protects them from Cas-induced neurologic disease. We also provide evidence that the intramuscular inoculation of neonates with plasmid DNA encoding only env sequences induces a dose-dependent CTL response in the absence of an anti-MuLV antibody response.

Glucose-Regulated Protein 94/Glycoprotein 96 Elicits Bystander Activation of CD4+ T Cell Th1 Cytokine Production In Vivo

Glucose-regulated protein 94 (GRP94/gp96), the endoplasmic reticulum heat shock protein 90 paralog, elicits both innate and adaptive immune responses. Regarding the former, GRP94/gp96 stimulates APC cytokine expression and dendritic cell maturation. The adaptive component of GRP94/gp96 function reflects a proposed peptide-binding activity and, consequently, a role for native GRP94/gp96-peptide complexes in cross-presentation. It is by this mechanism that tumor-derived GRP94/gp96 is thought to suppress tumor growth and metastasis. Recent data have demonstrated that GRP94/gp96-elicited innate immune responses can be sufficient to suppress tumor growth and metastasis. However, the immunological processes activated in response to tumor Ag-negative sources of GRP94/gp96 are currently unknown. We have examined the in vivo immunological response to nontumor sources of GRP94/gp96 and report that administration of syngeneic GRP94/gp96- or GRP94/gp96-N-terminal domain-secreting KBALB fibroblasts to BALB/c mice stimulates CD11b+ and CD11c+ APC function and promotes bystander activation of CD4+ T cell Th1 cytokine production. Only modest activation of CD8+ T cell or NK cell cytolytic function was observed. The GRP94/gp96-dependent induction of CD4+ T cell cytokine production was markedly inhibited by carrageenan, indicating an essential role for APC in this response. These results identify the bystander activation of CD4+ T lymphocytes as a previously unappreciated immunological consequence of GRP94/gp96 administration and demonstrate that GRP94/gp96-elicited alterations in the in vivo cytokine environment influence the development of CD4+ T cell effector functions, independently of its proposed function as a peptide chaperone.

Statistical analysis of antigen receptor spectratype data

MOTIVATION The effectiveness of vertebrate adaptive immunity depends crucially on the establishment and maintenance of extreme diversity in the antigen receptor repertoire. Spectratype analysis is a method used in clinical and basic immunological settings in which antigen receptor length diversity is assessed as a surrogate for functional diversity. The purpose of this paper is to describe the systematic derivation and application of statistical methods for the analysis of spectratype data. RESULTS The basic probability model used for spectratype analysis is the multinomial model with n, the total number of counts, indeterminate. We derive the appropriate statistics and statistical procedures for testing hypotheses regarding differences in antigen receptor distributions and variable repertoire diversity in different treatment groups. We then apply these methods to spectratype data obtained from several healthy donors to examine the differences between normal CD4+ and CD8+ T cell repertoires, and to data from a thymus transplant patient to examine the development of repertoire diversity following the transplant.

γδ T Cells Are a Component of Early Immunity against Preerythrocytic Malaria Parasites

ABSTRACT We tested the hypothesis that γδ T cells are a component of an early immune response directed against preerythrocytic malaria parasites that are required for the induction of an effector αβ T-cell immune response generated by irradiated-sporozoite (irr-spz) immunization. γδ T-cell-deficient (TCRδ−/−) mice on a C57BL/6 background were challenged with Plasmodium yoelii(17XNL strain) sporozoites, and then liver parasite burden was measured at 42 h postchallenge. Liver parasite burden was measured by quantification of parasite-specific 18S rRNA in total liver RNA by quantitative-competitive reverse transcription-PCR and by an automated 5′ exonuclease PCR. Sporozoite-challenged TCRδ−/− mice showed a significant (P < 0.01) increase in liver parasite burden compared to similarly challenged immunocompetent mice. In support of this result, TCRδ−/− mice were also found to be more susceptible than immunocompetent mice to a sporozoite challenge when blood-stage parasitemia was used as a readout. A greater percentage of TCRδ−/− mice than of immunocompetent mice progressed to a blood-stage infection when challenged with five or fewer sporozoites (odds ratio = 2.35, P = 0.06). TCRδ−/− mice receiving a single irr-spz immunization showed percent inhibition of liver parasites comparable to that of immunized immunocompetent mice following a sporozoite challenge. These data support the hypothesis that γδ T cells are a component of early immunity directed against malaria preerythrocytic parasites and suggest that γδ T cells are not required for the induction of an effector αβ T-cell immune response generated by irr-spz immunization.