Neoantigen and tumor antigen-specific immunity transferred from immunized donors is detectable early after allogeneic transplantation in myeloma patients.

To enhance the therapeutic index of allogeneic hematopoietic SCT (HSCT), we immunized 10 HLA-matched sibling donors before stem cell collection with recipient-derived clonal myeloma Ig, idiotype (Id), as a tumor antigen, conjugated with keyhole limpet hemocyanin (KLH). Vaccinations were safe in donors and recipients. Donor-derived KLH- and Id-specific humoral and central and effector memory T-cell responses were detectable by day 30 after HSCT and were boosted by post-transplant vaccinations at 3 months in most recipients. One patient died before booster vaccinations. Specifically, after completing treatment, 8/9 myeloma recipients had persistent Id-specific immune responses and 5/9 had improvement in disease status. Although regulatory T cells increased after vaccination, they did not impact immune responses. At a median potential follow-up period of 74 months, 6 patients are alive, the 10 patients have a median PFS of 28.5 months and median OS has not been reached. Our results provide proof of principle that neoantigen and tumor antigen-specific humoral and cellular immunity could be safely induced in HSCT donors and passively transferred to recipients. This general strategy may be used to reduce relapse of malignancies and augment protection against infections after allogeneic HSCT.

IGHV unmutated CLL B cells are more prone to spontaneous apoptosis and subject to environmental prosurvival signals than mutated CLL B cells.

Tumor cells in chronic lymphocytic leukemia (CLL) are more prone to apoptosis when cultured ex vivo, because they lack prosurvival signals furnished in vivo via B-cell receptor (BCR)-dependent and -independent pathways. This study compared the susceptibility of unmutated (UM) and mutated (M) CLL B cells to spontaneous apoptosis and prosurvival signals. UM CLL B cells showed a significantly higher rate of spontaneous apoptosis than M CLL B cells. Nuclear factor-kB (NF-kB) was rapidly inactivated, and B-cell leukemia/lymphoma 2 (Bcl-2) expression progressively down-regulated in the UM CLL B cells. CD40-Ligand, interleukin-4 and stromal cells significantly improved their viability and partially recovered Bcl-2, but not NF-kB expression. Peripheral blood mononuclear cells also offered protection of UM CLL B cells, and recovered both NF-kB and Bcl-2 expression. T cells, rather than nurse-like cells, were responsible for protecting UM CLL B cells by means of cell-to-cell contact and soluble factors. Despite their more aggressive features, UM CLL B cells are more susceptible to spontaneous apoptosis and depend from environmental prosurvival signals. This vulnerability of UM CLL B cells can be exploited as a selective target of therapeutic interventions.

Effector gammadelta T cells and tumor cells as immune targets of zoledronic acid in multiple myeloma.

The aim of this study was to investigate the in vitro immunomodulatory effects of zoledronic acid (Zol) on peripheral blood Vgamma9/Vdelta2 (gammadelta) T cells of normal donors and multiple myeloma (MM) patients. gammadelta T cells were stimulated with Zol and low doses of interleukin-2 (IL-2), and then analyzed for proliferation, cytokine production, and generation of effector activity against myeloma cell lines and primary myeloma cells. Proliferation of gammadelta T cells was observed in 100% of normal donors and 50% of MM patients. gammadelta T cells produced IFN-gamma, surface mobilized the CD107a and CD107b antigens, and exerted direct cell-to-cell antimyeloma activity irrespective of the ability to proliferate to Zol and IL-2. The memory phenotype was predominant in the MM gammadelta T cells that proliferated in response to Zol (responders), whereas effector cells were predominant in those that did not (nonresponders). Zol induced antimyeloma activity through the monocyte-dependent activation of gammadelta T cells and by enhancing the immunosensitivity of myeloma cells to gammadelta T cells. Mevastatin, a specific inhibitor of hydroxy-methylglutaryl-CoA reductase, completely abrogated this antimyeloma activity.

Long-term follow-up of idiotype vaccination in human myeloma as a maintenance therapy after high-dose chemotherapy.

The aim of this work was to evaluate the long-term immunological and clinical impact of idiotype (Id) vaccination in multiple myeloma (MM) patients in first remission after high-dose chemotherapy. A total of 15 patients received a series of subcutaneous (s.c.) injections of autologous Id, conjugated to keyhole limpet hemocyanin (KLH) and in association with low doses of GM-CSF. The median duration of follow-up was 110 months from diagnosis. The vaccine induced immune responses that lasted almost 2 years after the end of treatment. Antibody responses included anti-KLH IgM and IgG (90% of patients), anti-KLH IgE (30%), anti-GM-CSF IgG (20%), anti-Id IgG (20%), and anti-Id IgE (30%). Id-specific delayed type hypersensitivity skin tests were positive in 85% of tested patients. Following vaccination, a progressive recovery of T-cell receptor (TCR) diversity was observed and the loss of oligoclonality was significantly correlated with the remission duration. Although Id/KLH conjugates did not eliminate the residual tumor burden, the median progression-free survival, and overall survival were 40 and 82 months, respectively. A retrospective case-matched analysis showed similar results in patients treated with IFN-alpha alone or in association with steroids. This vaccine formulation can overcome Id-specific immune tolerance by inducing clinical responses that are worthy of further investigation.

Severe and long-lasting disruption of T-cell receptor diversity in human myeloma after high-dose chemotherapy and autologous peripheral blood progenitor cell infusion.

Vaccine-based strategies are currently under investigation as a means of inducing tumour-specific immune responses and improving the clinical outcome of multiple myeloma (MM) patients in remission after high-dose chemotherapy and peripheral blood progenitor cell (PBPC) infusion. The immune competence of these patients was investigated by determining the overall diversity of the T-cell receptor (TCR) repertoire in the peripheral blood (PB) and bone marrow (BM). The average time after transplantation was 13 months. The clonality and reciprocal usage of BV gene segments (TCRBV repertoire) was estimated at the cDNA level and membrane protein expression. The TCRBV repertoire of MM was severely disrupted compared with age-matched normal donors. On average, one-third of the total repertoire in both the PB and the BM consisted of T cells expressing oligoclonal TCRbeta transcripts. Flow cytometry showed an increased frequency of abnormally expanded BV subfamilies at both sites. BV expansions were predominantly CD8+ and had the phenotype of antigen-experienced memory T cells as well as T cells with the naive phenotype. Oligoclonality was not restricted to phenotypically expanded BV subfamilies, but also involved normally represented BV subfamilies. The TCR repertoire of MM in remission was then compared with monoclonal gammopathy of undetermined significance (MGUS) and MM patients at diagnosis. The degree of TCR diversity was similar in age-matched normal donors and MGUS, but progressively decreased from MGUS to MM at diagnosis and then to MM in remission. These data indicate that: (1) there is a long-lasting and severe disruption of TCR diversity after high-dose chemotherapy and PBPC infusion, and (2) the extent of TCR disruption may affect the clinical outcome of vaccine-based strategies delivered at the stage of minimal residual disease.

Increased expression of non-functional killer inhibitory receptor CD94 in CD8+ cells of myeloma patients.

Different MHC class I-specific killer inhibitory receptors (KIRs) are expressed in vivo by a minor fraction of activated memory CD8+ cells. It has been postulated that KIRs may 'fine-tune' specific responses by altering their threshold of activation by the TCR-CD3 complex. We have previously shown that, in multiple myeloma (MM) patients, a large fraction of peripheral blood CD8+ cells display the phenotype of chronically activated memory T cells (CD38+, HLA-DR+, CD25-, CD45R0+, CD28-). We investigated the expression of KIRs on MM T cells and determined their possible influence on cytolytic responses elicited via the CD3-TCR complex. The expression of CD94, a molecule that is part of a heterodimeric KIR recognizing the non-classical MHC surface HLA-E molecule, was almost threefold higher in MM T cells than in age-matched normal control subjects (P < 0.0001). CD94 expression was preferentially confined to CD8+ cells but not restricted to activated (HLA-DR+) and/or memory (CD45R0+) T cells. Unlike normal T cells, in which CD94 is assembled with glycoproteins of the NKG2 family to form functional receptors with activating or inhibitory properties, most CD94+ MM T cells were devoid of both the NKG2-A and NKG2-C glycoproteins detected in the inhibitory or activating form respectively. CD94 blockade did not significantly affect either T-cell proliferation or cytotoxic T-lymphocyte generation induced by the myeloma-derived cell lines NCI and RPMI 8226. Similarly, the cytolytic activity induced by direct anti-CD3-mediated targeting of MM T cells to FCR+ P815 target cells was unaffected by the addition of anti-CD94 and/or anti-NKG2-A/C monoclonal antibodies (mAbs). These data indicate that the large majority of MM CD8+ cells do not express a functional CD94 receptor. Thus, their ability to 'fine-tune' an appropriate immune response against tumour cells can be impaired.