Antonella Tosti

Haploidentical hematopoietic transplantation from KIR ligand–mismatched donors with activating KIRs reduces nonrelapse mortality

Because activating killer cell immunoglobulinlike receptors (KIRs) are heterogeneously expressed in the population, we investigated the role of donor activating KIRs in haploidentical hematopoietic transplants for acute leukemia. Transplants were grouped according to presence vs absence of KIR-ligand mismatches in the graft-vs-host direction (ie, of donor-vs-recipient natural killer [NK]-cell alloreactivity). In the absence of donor-vs-recipient NK-cell alloreactivity, donor activating KIRs had no effects on outcomes. In the 69 transplant pairs with donor-vs-recipient NK-cell alloreactivity, transplantation from donors with KIR2DS1 and/or KIR3DS1 was associated with reduced risk of nonrelapse mortality, largely infection related (KIR2DS1 present vs absent: hazard ratio [HR], 0.25; P = .01; KIR3DS1 present vs absent: HR, 0.18; P = .006), and better event-free survival (KIR2DS1 present vs absent: HR, 0.31; P = .011; KIR3DS1 present vs absent: HR, 0.30; P = .008). Transplantation from donors with KIR2DS1 and/or KIR3DS1 was also associated with a 50% reduction in infection rate (P = .003). In vitro analyses showed that KIR2DS1 binding to its HLA-C2 ligand upregulated inflammatory cytokine production by alloreactive NK cells in response to infectious challenges. Because ∼40% of donors able to exert donor-vs-recipient NK-cell alloreactivity carry KIR2DS1 and/or KIR3DS1, searching for them may become a feasible, additional criterion in donor selection.

Effects of anti-NKG2A antibody administration on leukemia and normal hematopoietic cells

Natural killer cells are key cells of the innate immune system. Natural killer cell receptor repertoires are diversified by a stochastic expression of killer-cell-immunoglobulin-like receptors and lectin-like receptors such as NKG2 receptors. All individuals harbor a subset of natural killer cells expressing NKG2A, the inhibitory checkpoint receptor for HLA-E. Most neoplastic and normal hematopoietic cells express HLA-E, the inhibitory ligand of NKG2A. A novel anti-human NKG2A antibody induced tumor cell death, suggesting that the antibody could be useful in the treatment of cancers expressing HLA-E. We found that immunodeficient mice, co-infused with human primary leukemia or Epstein-Barr virus cell lines and NKG2A+ natural killer cells, pre-treated with anti-human NKG2A, were rescued from disease progression. Human NKG2A+ natural killer cells reconstituted in immunodeficient mice after transplantation of human CD34+ cells. These natural killer cells are able to kill engrafted human primary leukemia or Epstein-Barr virus cell lines by lysis after intraperitoneal administration of anti-human NKG2A. Thus, this anti-NKG2A may exploit the anti-leukemic action of the wave of NKG2A+ natural killer cells recovering after hematopoietic stem cell transplants or adoptive therapy with natural killer cell infusions from matched or mismatched family donors after chemotherapy for acute leukemia, without the need to search for a natural killer cell alloreactive donor.

Innate immunity against hematological malignancies

BACKGROUND Allogeneic hematopoietic transplantation relies on T-cell alloreactions for engraftment and the GvL effect. In HLA haplotype-mismatched transplants, extensive T-cell depletion of the graft is essential to prevent GvHD. This raises the question of whether mismatched transplants exert any GvL effect, and whether it will ever be possible to reduce the intensity of preparative regimens. Natural killer (NK) cells are negatively regulated by MHC Class I-specific inhibitory receptors. Mismatched transplants may therefore trigger NK-cell alloreactivity. METHODS The effects of NK-cell alloreactivity were evaluated in clinical transplantation and in murine transplant models. RESULTS In clinical hematopoietic stem-cell transplants, HLA Class I disparities driving NK-cell alloreactions in the GvH direction eliminate AML relapse and graft rejection, while protecting patients from GvHD. In murine MHC mismatched transplant models, the pre-transplant infusion of donor-versus-recipient alloreactive NK cells conditioned the recipients to BMT, and reduced GvHD. DISCUSSION NK-cell alloreactivity may thus provide a novel, powerful tool for enhancing the efficacy and safety of allogeneic hematopoietic transplantation.

IDO1 suppresses inhibitor development in hemophilia A treated with factor VIII

The development of inhibitory antibodies to factor VIII (FVIII) is a major obstacle in using this clotting factor to treat individuals with hemophilia A. Patients with a congenital absence of FVIII do not develop central tolerance to FVIII, and therefore, any control of their FVIII-reactive lymphocytes relies upon peripheral tolerance mechanisms. Indoleamine 2,3-dioxygenase 1 (IDO1) is a key regulatory enzyme that supports Treg function and peripheral tolerance in adult life. Here, we investigated the association between IDO1 competence and inhibitor status by evaluating hemophilia A patients harboring F8-null mutations that were either inhibitor negative (n = 50) or positive (n = 50). We analyzed IDO1 induction, expression, and function for any relationship with inhibitor occurrence by multivariable logistic regression and determined that defective TLR9-mediated activation of IDO1 induction is associated with an inhibitor-positive status. Evaluation of experimental hemophilic mouse models with or without functional IDO1 revealed that tryptophan metabolites, which result from IDO1 activity, prevent generation of anti-FVIII antibodies. Moreover, treatment of hemophilic animals with a TLR9 agonist suppressed FVIII-specific B cells by a mechanism that involves IDO1-dependent induction of Tregs. Together, these findings indicate that strategies aimed at improving IDO1 function should be further explored for preventing or eradicating inhibitors to therapeutically administered FVIII protein.

Optimizing a photoallodepletion protocol for adoptive immunotherapy after haploidentical SCT

In adults, one-haplotype-mismatched haematopoietic SCT (haploidentical HSCT) is associated with slow immune recovery due to decaying thymic function and extensive T-cell depletion of the graft. Although essential for preventing GVHD, T-cell depletion underlies the major reasons for transplant failure: leukemia relapse and infections, with infection-related mortality accounting for about 40% of non-leukemic deaths. Adoptive T-cell therapy would be helpful for these patients but to administer it without causing GVHD, alloreactive T cells need to be eliminated from donor T lymphocytes before infusion. In a preclinical study, to address this problem, we determined the efficacy of photodynamic purging of alloreactive T cells, by investigating combinations of parameters in order to achieve maximum allodepletion, preservation of T-regulatory cells and of pathogen and leukemia-specific T-cell responses in donor-vs-recipient MLR. We also needed to identify an optimal method to quantify the Ag-specific T-cell repertoires. Optimal procedures were identified. In particular, we compared limiting-dilution analyses (LDA) of proliferating T cells with H3-thymidine incorporation by bulk T cells and with flow cytometry CD25 expression, which is accepted as a T-cell activation marker. This study demonstrated that LDA is a reliable, predictable and sensitive method for measuring alloreactive, pathogen- and leukemia-specific T-cell frequencies.

Thymosin α1 to harness immunity to pathogens after haploidentical hematopoietic transplantation

We designed a phase I/II clinical study to determine safety and efficacy of thymosin α1 (Tα1) administration in recipients of one HLA haplotype (haploidentical) stem cell transplants for hematologic malignancies. Tα1 administration did not cause acute or chronic graft versus host disease and was associated with significant improvement in polymorphonuclear (phagocytosis) and dendritic cell (phagocytosis, expression of costimulatory molecules, and cytokine production) functions. It was also associated with increased T‐cell counts and earlier appearance of functional pathogen‐specific T cell responses (by a sensitive limiting dilution assay that detects frequency of T cells specific for Aspergillus, Candida, CMV, ADV, VZV, HSV, Toxoplasma). Five of six haploidentical transplant recipients who received Tα1 are alive and disease free at a median follow‐up of 10 months after transplantation (range: 5–20). They experienced only a single nonlethal infectious episode and one patient developed fatal immune hemolytic anemia. At this very early stage of the clinical trial, we conclude Tα1 administration is safe and may impact favorably on immune function. Larger numbers of patients and longer follow‐up are, of course, needed to assess its impact on survival.

Differences in Aspergillus‐specific immune recovery between T‐cell‐replete and T‐cell‐depleted hematopoietic transplants

After hematopoietic stem cell transplantation, invasive aspergillosis remains one of the most lethal infections. Susceptibility may be due to prophylaxis and treatment of graft‐vs.‐host disease in T‐cell‐replete transplants, and delayed immune rebuilding due to T‐cell depletion in haploidentical transplantation.