Kimberly Dunham

The detection of CMV pp65 and IE1 in glioblastoma multiforme.

Glioblastoma multiforme (GBM) is a highly lethal brain tumor affecting children and adults, with the majority of affected individuals dying from their disease by 2 years following diagnosis. Other groups have reported the association of cytomegalovirus (CMV) with GBM, and we sought to confirm these findings in a large series of patients with primary GBM from our institution. Immunohistochemical analysis of paraffin embedded tissue sections was performed on 49 newly diagnosed GBM tumors, the largest series reported to date. We confirmed the presence of CMV pp65 on 25/49 (51%) and of IE1 on 8/49 (16%) of these tumors. While pp65 and IE1 are generally found in the nucleus of cells that are permissibly infected by CMV, GBM in this series had mostly cytoplasmic staining, with only 16% having nuclear staining for one or both of these antigens. We infected GBM cell lines with a laboratory strain of CMV, and found that most of the staining was cytoplasmic, with some perinuclear localization of IE1. To test the potential for CMV infected GBM cells to be recognized by CMV pp65 and IE1 specific cytotoxic T lymphocytes (CTL), we used CMV infected GBM cell lines in cytotoxicity assays with human leukocyte antigen partially matched CMV CTL. Lysis of CMV infected GBM tumor cells was accentuated by pre-treating these cell lines with either the demethylating agent decitabine or interferon-γ, both of which were shown to increase MHC Class I and II expression on tumor cells in vitro. These studies confirm the presence of CMV pp65 or IE1 on approximately half of GBM, with the possibility that CMV positive tumor cells can be recognized by CMV pp65/IE1 specific T cells.

Adoptive Immunotherapy with CMV Specific Cytotoxic T Lymphocytes for Stem Cell Transplant Patients with Refractory CMV Infections

Adoptive immunotherapy with cytomegalovirus (CMV)-specific cytotoxic T lymphocytes (CTL) is an effective strategy for preventing and treating viral reactivation after allogeneic stem cell transplantation (SCT). We have shown previously that CMV CTL can be generated in 1 to 2 weeks by stimulating donor lymphocytes with peptide mixes derived from full-length pp65 and IE1. We conducted a multi-institutional study of CMV-specific CTL for patients with persistent or anti–viral-resistant CMV infections after allogeneic SCT, to determine the safety, feasibility, and immunologic effects of this approach. We were successful in stimulating CTL from 10/10 donors with pooled CMV overlapping peptide mixes. Five of the 7 subjects who met infusion criteria had new onset CMV-specific CTL activity detected within 4 to 6 weeks after infusion. Of the 2 subjects who did not have immunologic responses after infusion, 1 received CTL with a low viability after thawing, and the other patient received cyclosporine A and systemic corticosteroids at the time of the infusion, achieving only a low, transient increase (10%) in pp65-specific activity. There was no graft-versus-host disease attributable to these infusions. These findings indicate that the infusion of CTL stimulated over 1 to 2 weeks with overlapping CMV peptides can result in virus-specific immune reconstitution in SCT recipients, without exacerbations of graft-versus-host disease.

Expansion of Cytomegalovirus pp65 and IE-1 Specific Cytotoxic T Lymphocytes for Cytomegalovirus-Specific Immunotherapy Following Allogeneic Stem Cell Transplantation

Adoptive immunotherapy with antigen-specific cytotoxic T lymphocytes (CTLs) has proven effective in restoring cellular immunity to cytomegalovirus (CMV) and preventing viral reactivation after allogeneic stem cell transplantation (SCT). In an effort to develop a cost-effective, relatively rapid method of CMV CTL expansion, we investigated the use of a pool of overlapping CMV peptides. Because the possibility exists of vaccinating CMV-seronegative donors, and these individuals may have T cell responses predominantly against IE-1, commercially available peptide mixes for pp65 as well as IE-1 were used to stimulate CTLs from 10 seropositive donors. Of these 10 donors, 4 responded to pp65 only, 1 did not respond to either pp65 or IE-1, 4 responded to both pp65 and IE-1, and 1 responded to IE-1 only. These CMV- specific T cells included a mixture of CD4(+) and CD8(+) effectors, and specific cytotoxicity correlated with interferon-gamma production. The costs associated with a 28-day maintenance course of intravenous ganciclovir, cidofovir, foscarnet, and valganciclovir, as well as the preparation and shipping a single dose of CTLs, were determined. The price of generating CMV CTLs using this method was comparable to or less expensive than a 28-day maintenance course for these agents, not including the costs associated with drug administration, supportive care, and the treatment of drug-related complications. Considering the relative ease, low cost, and the fact that CTL administration can result in CMV-specific immune reconstitution, this option should be considered for patients with CMV reactivation or for prophylaxis in patients at high risk for infection.

Infusion of cytomegalovirus specific cytotoxic T lymphocytes from a sero-negative donor can facilitate resolution of infection and immune reconstitution.

We report a stem cell transplant patient with a therapy-refractory cytomegalovirus (CMV) infection who received CMV-specific T cells from his sero-negative stem cell donor. This donor received the Towne strain CMV vaccine, and T cells were expanded using monocytes pulsed with pp65 overlapping peptides. CMV DNA decreased after the CTL infusion, and CMV-specific cytotoxicity increased. This strategy could be implemented in similar situations or with persistent viremia post-transplant.

Wilms’ tumor 1-specific cytotoxic T lymphocytes can be expanded from adult donors and cord blood

The use of WT1-specific CTL is one potential strategy to treat leukemic relapse following allogeneic stem cell transplant (SCT). Previous studies have largely focused on generating WT1-CTL from adult donors by cloning. We demonstrate that WT1-CTL can be generated from healthy adult donors and from cord blood by stimulating with an overlapping pool of peptides derived from full length WT1 and selecting antigen-specific cells based on the expression of CD137. The rapid expansion with anti-CD3 and IL-2 resulted in a 100-200-fold expansion. These CTL lysed WT1 expressing targets, including leukemia lines, in a HLA restricted manner.