Charles S. Hesdorffer

Characterization of CD4+CD25+ Regulatory T Cells in Patients Treated With High-Dose Interleukin-2 for Metastatic Melanoma or Renal Cell Carcinoma

PURPOSE To characterize the number and functional status of CD4+CD25+ regulatory T cells (Tregs) in patients with metastatic melanoma (MM) and renal cell carcinoma (RCC) treated with high-dose bolus interleukin-2 (IL-2). PATIENTS AND METHODS Patients with MM or RCC treated with high-dose bolus IL-2 (600,000 IU/kg every 8 hours) at a single center provided pre- and post-treatment whole blood specimens. Peripheral blood mononuclear cells were isolated by Ficoll density gradient centrifugation, separated into cellular subsets, and analyzed by flow cytometry or used for in vitro proliferation assays. RESULTS Between September 2003 and July 2005 57 patients were enrolled in the study with 48 patients available for analysis (45 MM, 12 RCC). Tregs were defined as CD4+CD25(hi) T cells, and this subset was significantly elevated in the cancer patients compared with normal donors (7.75% v 2.24%). The CD4(+)CD25(hi) T-cell pool in the patients constitutively expressed intracellular FoxP3, CTLA-4, and produced high amounts of IL-10. The Tregs were CCR7+ with 50% representing naïve and 50% central-memory T cells. The cells were functionally suppressive in mixed in vitro proliferation assays. Following IL-2 administration, the number and frequency of Tregs increased in patients with progressive disease but returned to normal levels in patients with objective clinical responses. CONCLUSION The number of Tregs, defined as CD4+CD25(hi) T cells is increased in patients with MM and RCC. High-dose IL-2 resulted in a significant decrease of Tregs in those patients achieving an objective clinical response to IL-2 therapy.

A peripheral circulating compartment of natural naive CD4+ Tregs

CD4CD25 Tregs play a central role in the maintenance of peripheral self tolerance by keeping autoreactive T cells in check. Whereas the thymic origin of CD4CD25 Tregs, as a distinct lineage, has been inferred, understanding of their developmental pathways has remained elusive. In both mice and humans, peripheral CD4CD25 Treg populations have been described as composed of antigen-experienced T cells that fail to significantly proliferate following TCR stimulation but suppress proliferation and effector functions of CD25 T cells. Here we show that analysis of CD25 expression in human circulating CD4 T lymphocytes with respect to their in vivo differentiation stages identifies a distinct subset of CD25CCR7CD62LCTLA-4FOXP3 cells contained in the CD45RA/RO naive fraction. The subset, which we have named natural naive Tregs (NnTregs), is prominent in young adults and decreases with age together with the total naive CD4 population. NnTregs are anergic following stimulation in the absence of IL-2 and exert ex vivo cell-cell contact-mediated suppressor functions. In addition, they proliferate in response to stimulation with autologous APCs, which indicates a high enrichment in T cells bearing self-reactive TCRs. The definition of this subset has important implications for the analysis of human naturally occurring Tregs and for their targeting in therapeutic immune interventions.

Multiepitope CD8+ T cell response to a NY-ESO-1 peptide vaccine results in imprecise tumor targeting

The cancer-testis antigen NY-ESO-1 is one of the most promising candidates for generic vaccination of cancer patients. Here we analyzed the CD8(+) T cell response to a NY-ESO-1 peptide vaccine composed of the two previously defined peptides 157-165 and 157-167, administered with GM-CSF as a systemic adjuvant. The NY-ESO-1 peptide vaccine elicited a CD8(+) T cell response directed against multiple distinct epitopes in the 157-167 region, as revealed by using A2/peptide multimers incorporating overlapping A2 binding peptides in this region. However, only a minor fraction of the elicited CD8(+) T cells, namely those recognizing the peptide 157-165 with sufficiently high functional avidity, recognized the naturally processed target on NY-ESO-1(+) tumor cells. In contrast, the majority of peptide 157-165-specific CD8(+) T cells exhibited lower functional avidity and no tumor reactivity. In addition, vaccine-elicited CD8(+) T cells specific for other overlapping epitopes in the 157-167 region failed to significantly recognize NY-ESO-1-expressing tumor targets. Thus, because of the complexity of the CD8(+) T cell repertoire that can be elicited by vaccination with synthetic peptides, a precise definition of the targeted epitope, and hence, of the corresponding peptide to be used as immunogen, is required to ensure a precise tumor targeting.

Membranous Glomerulopathy Associated with Graft-versus-Host Disease following Allogeneic Stem Cell Transplantation

We report two cases of nephrotic syndrome presenting 18 and 20 months after allogeneic stem cell transplantation (alloSCT) with chronic myelogenous leukemia. Both patients had acute and chronic graft-versus-host disease (GVHD) and renal biopsy findings of membranous glomerulopathy (MG). A review of the literature revealed 10 additional cases of immune-complex-mediated glomerular disease following alloSCT, 8 of which were diagnostic of MG. All patients showed evidence of acute or chronic GVHD. Patients typically presented with preserved renal function (mean creatinine 1.2 mg/dl) and full nephrotic syndrome including heavy proteinuria (mean 9.2 g/24 h), edema, hypoalbuminemia (mean 2.1 g/dl) and hypercholesterolemia (mean 472 mg/dl). Most patients showed stabilization of renal function and significant decreases in proteinuria when treated with steroids and/or cyclosporine. The close temporal association as well as evidence from murine models of GVHD support a pathogenetic association between GVHD and the development of MG.

Transcript profiling of human dendritic cells maturation‐induced under defined culture conditions: comparison of the effects of tumour necrosis factor alpha, soluble CD40 ligand trimer and interferon gamma

Using cDNA arrays, we characterized patterns of gene expression in populations of human dendritic cells (DCs) produced for clinical use. Culture and maturation induction of myeloid adherent cells under serum‐free conditions yielded DCs with phenotypes similar to those described in serum‐based systems. Analysis of gene expression in DCs treated with tumour necrosis factor alpha, soluble CD40L trimer or interferon gamma, however, showed specific patterns for each factor examined. Our studies document the expression of several transcripts that have not hitherto been described in DCs and/or differentially regulated according to the differentiation state of the DCs, and suggest important functional differences among the DC populations examined. In addition, DC maturation directs changes in the levels of mRNA specific for transcriptional regulators that effect the production of cytokines (e.g. BCL‐6, c‐rel). Other changes observed, including alteration in the gene expression profile of adhesion molecules and chemokine receptors such as CD44H, CD 49B, Rantes R, CXCR5 and CD37, suggest differences in trafficking potential between the populations studied. This broad‐based description of DC populations, produced under serum‐free conditions, has enabled us to better define intermediate stages of DC maturation as well as the differentiation‐inducing effects of cytokines on these cells.

An immunodominant SSX-2–derived epitope recognized by CD4+ T cells in association with HLA-DR

Ectopic gene expression in tumors versus normal somatic tissues provides opportunities for the specific immunotargeting of cancer cells. SSX gene products are expressed in tumors of different histological types and can be recognized by tumor-reactive CTLs from cancer patients. Here, we report the identification of an SSX-2-derived immunodominant T cell epitope recognized by CD4(+) T cells from melanoma patients in association with HLA-DR. The epitope maps to the 37-58 region of the protein, encompassing the sequence of the previously defined HLA-A2-restricted immunodominant epitope SSX-2(41-49). SSX-2(37-58)-specific CD4(+) T cells were detected among circulating lymphocytes from the majority of melanoma patients analyzed and among tumor-infiltrating lymphocytes, but not in healthy donors. Together, our data suggest a dominant role of the 37-58 sequence in the induction of cellular CD4(+) T cell responses against SSX antigens and will be instrumental for both the onset and the monitoring of upcoming cancer-vaccine trials using SSX-derived immunogens.

Competitive repopulation of retrovirally transduced haemopoietic stem cells.

Gene transfer into haemopoietic stem cells (HSC) may be useful in gene therapy for a variety of inherited and acquired human diseases. Cell division is required for retroviral transduction, and cytokine stimulation is often used to increase mitosis of quiescent HSC. Exposure to cytokines has been shown to have an unfavourable effect on the engraftment of these cells when competed with unmanipulated HSC. We now show that a similar engraftment defect is present when HSC are manipulated and transduced with the human multiple drug resistance (MDR) gene. The extent of the unfavourable competition depended on the relative numbers of cytokine‐treated and fresh cells when the two populations of cells were administered simultaneously into marrow‐ablated isogenic mice. When the manipulated transduced cells were given 2 or 4 d before the unmanipulated cells there was a much greater engraftment of the manipulated cells. The data suggested that the manipulated cells were at a relative disadvantage for marrow engraftment as compared to fresh cells, presumably due to the more efficient homing and engraftment properties of these latter unmanipulated cells. However, the manipulated cells had no intrinsic inability to engraft when they were the predominant donor cell population. In all cases the percent of MDR transduced cells in the engrafting manipulated cells remained relatively constant at about 25–30%. These results have implications for the use of manipulated transduced stem cells in gene therapy, suggesting that administering them before adding fresh cells can overcome their engraftment defect.

Combined Fludarabine and Rituximab for Low Grade Lymphoma and Chronic Lymphocytic Leukemia

As both fludarabine and rituximab are active against indolent lymphoproliferative disorders, we have studied the combination of fludarabine and rituximab in patients with low-grade lymphoma and chronic lymphocytic leukemia (CLL) in phase I/II fashion. Of 33 patients enrolled, 21(63.6%) had low-grade lymphoma and 12 (36.4%) had CLL. They received fludarabine 30 mg/m 2 on days 1-4 and rituximab 125, 250 or 375 mg/m 2 on day 5 at intervals of 28 days to a maximum of 8 cycles. Three patients were removed from the study because of rituximab-associated anaphylaxis and four because of prolonged hematopoietic toxicity. Toxicity and responsiveness did not differ at the different dose levels of rituximab. For 29 evaluable patients, responses were seen in 82.8% and complete responses in 34.5%. Of 7 responding patients not referred for stem cell transplantation, 6 remain in complete remission at a median follow-up of 16 months (range 4-30 months). Of 13 previously untreated patients, all responded and 46.2% had a complete response. Of 16 previously treated patients, 68.5% responded and 25% had a complete response. The combination of fludarabine and rituximab has major activity and acceptable toxicity in patients with low-grade lymphoma and CLL.

Decreased binding of peptides-MHC class I (pMHC) multimeric complexes to CD8 affects their binding avidity for the TCR but does not significantly impact on pMHC/TCR dissociation rate.

The CD8 coreceptor plays a crucial role in both T cell development in the thymus and in the activation of mature T cells in response to Ag-specific stimulation. In this study we used soluble peptides-MHC class I (pMHC) multimeric complexes bearing mutations in the CD8 binding site that impair their binding to the MHC, together with altered peptide ligands, to assess the impact of CD8 on pMHC binding to the TCR. Our data support a model in which CD8 promotes the binding of TCR to pMHC. However, once the pMHC/TCR complex is formed, the TCR dominates the pMHC/TCR dissociation rates. As a consequence of these molecular interactions, under physiologic conditions CD8 plays a key role in complex formation, resulting in the enhancement of CD8 T cell functions whose specificity, however, is determined by the TCR.

Identification of an SSX-2 Epitope Presented by Dendritic Cells to Circulating Autologous CD4+ T Cells

Accumulating evidence supports the requirement for both tumor-specific CD8+ and CD4+ T cell responses for efficient tumor rejection to occur. Because of its expression in different tumor types, the cancer/testis Ag encoded by the synovial sarcoma X breakpoint 2 (SSX-2) gene is among the most relevant candidates for the development of generic cancer vaccines. The immunogenicity of SSX-2 has been previously corroborated by detection of specific humoral and CD8+ T cell responses in cancer patients. In this study we report identification of the first CD4+ T cell epitope encoded by SSX-2. The identified epitope mapped to the 19–34 region of the protein and was recognized by CD4+ T cells from an Ag-expressing melanoma patient in association with HLA-DPB1*0101. The absence of detectable response in healthy donors and other patients suggests that SSX-2-specific CD4+ T cells in the responder patient had been previously expanded in vivo in response to the autologous tumor. The epitope did not appear to be presented on the surface of tumor cells at levels sufficient to allow direct recognition. In contrast, it was efficiently presented by autologous dendritic cells, supporting the concept that processing by professional APC is the main pathway through which the CD4+ T cell immunoresponse to tumor Ags occurs in vivo.