Roberto M. Lemoli

The P2X7 Receptor: A Key Player in IL-1 Processing and Release

Human IL-1 family proteins are key mediators of the host response to infections, injury, and immunologic challenges. The mechanism by which IL-1 activates proinflammatory responses in target cells, and the plasma membrane receptors involved, is fairly well known. This has led to the development of innovative drugs that block IL-1 downstream to its synthesis and secretion. On the contrary, the mechanism of IL-1 and other IL-1 family members (e.g., IL-18) maturation and release is incompletely understood. Accruing evidence points to a plasma membrane receptor for extracellular ATP, the P2X7 receptor, as a key player in both processes. A deeper understanding of the mechanism by which the P2X7 receptor triggers IL-1 maturation and exteriorization may suggest novel avenues for the treatment of inflammatory diseases and provide a deeper insight in the fundamental mechanism of protease activation and cellular export of proteins lacking a leader sequence.

Successful transfer of alloreactive haploidentical KIR ligand-mismatched natural killer cells after infusion in elderly high risk acute myeloid leukemia patients

Thirteen patients with acute myeloid leukemia, 5 with active disease, 2 in molecular relapse, and 6 in morphologic complete remission (CR; median age, 62 years; range, 53-73 years) received highly purified CD56(+)CD3(-) natural killer (NK) cells from haploidentical killer immunoglobulin-like receptor-ligand mismatched donors after fludarabine/cyclophosphamide immunosuppressive chemotherapy, followed by IL-2. The median number of infused NK cells was 2.74 × 10(6)/Kg. T cells were < 10(5)/Kg. No NK cell-related toxicity, including GVHD, was observed. One of the 5 patients with active disease achieved transient CR, whereas 4 of 5 patients had no clinical benefit. Both patients in molecular relapse achieved CR that lasted for 9 and 4 months, respectively. Three of 6 patients in CR are disease free after 34, 32, and 18 months. After infusion, donor NK cells were found in the peripheral blood of all evaluable patients (peak value on day 10). They were also detected in BM in some cases. Donor-versus-recipient alloreactive NK cells were shown in vivo by the detection of donor-derived NK clones that killed recipients targets. Adoptively transferred NK cells were alloreactive against recipients cells, including leukemia. In conclusion, infusion of purified NK cells is feasible in elderly patients with high-risk acute myeloid leukemia. This trial was registered at www.clinicaltrial.gov as NCT00799799.

The role of indoleamine 2,3-dioxygenase in the induction of immune tolerance: focus on hematology

The regulation of the interaction between the immune system and antigens, which may lead to the induction of immune tolerance, is critical both under physiologic conditions and in different pathological settings. In the past few years, major strides have been made in our understanding of the molecular and cellular bases of this process. Novel pathways have been identified and several novel therapeutic agents are currently under clinical investigation for those diseases in which the normal balance between activation and suppression of the immune response is altered. The tryptophan catabolic enzyme, indoleamine 2,3-dioxygenase (IDO), is one of the key players involved in the inhibition of cell proliferation, including that of activated T cells. Recent works have demonstrated a crucial role for IDO in the induction of immune tolerance during infection, pregnancy, transplantation, autoimmunity, and neoplasias, including hematologic malignancies. In this review, the role of IDO in the induction of immunologic tolerance is addressed with a specific focus on its recently discovered effect on hematologic malignancies.

Molecular Remission After Allogeneic or Autologous Transplantation of Hematopoietic Stem Cells for Multiple Myeloma

PURPOSE To assess the clinical relevance of minimal residual disease (MRD) in patients with multiple myeloma (MM), 50 patients were monitored while they were in complete clinical remission (CCR) after autologous or allogeneic stem-cell transplantation. PATIENTS AND METHODS Stringent molecular monitoring using clonal markers based on rearranged immunoglobulin heavy-chain genes was performed in 44 of 50 MM patients in CCR. Molecular clinical remission (MCR) was defined as more than one consecutive negative polymerase chain reaction (PCR) test result. RESULTS Twelve (27%) of 44 molecularly monitored patients achieved MCR; four of the 12 became PCR-positive, and one of these four relapsed. In comparison with patients who did not achieve MCR, patients who achieved MCR had a significantly lower relapse rate (41% v 16%; P <.05) and longer relapse-free survival (35 v 110 months; P <.005). Fourteen of 26 patients in CCR who had received allografts were evaluated on a molecular basis: seven (50%) of the 14 achieved MCR and did not relapse; one of the seven remaining patients relapsed. Thirty of 47 patients in CCR who received autografts were evaluated on a molecular basis: five (16%) of the 30 achieved MCR; two of these five became PCR-negative, and one of these two relapsed. Ten of the 25 remaining patients later relapsed. For these nonrandomized groups, the higher MCR rate after allograft procedures was statistically significant (P <.01; Fishers exact test). CONCLUSION MCR can be obtained in a relatively high proportion of MM patients who have achieved CCR after undergoing allograft procedures and in a smaller fraction of patients after undergoing autograft procedures. In approximately one fourth of MM patients who achieve CCR after transplantation, it may be possible to keep the disease burden constantly below the PCR threshold. Because MCR was associated with prolonged relapse-free survival, these patients could have a relatively favorable clinical outcome.

Granulocyte colony‐stimulating factor promotes the generation of regulatory DC through induction of IL‐10 and IFN‐α

We have recently demonstrated that G‐CSF promotes the generation of human T regulatory (TREG) type 1 cells. In this study, we investigated whether the immunomodulatory effects of G‐CSF might be mediated by DC. CD14+ monocytes were cultured with serum collected after clinical administration of G‐CSF (post‐G), which contained high amounts of IL‐10 and IFN‐α. Similar to incompletely matured DC, monocytes nurtured with post‐G serum acquired a DC‐like morphology, expressed high levels of costimulatory molecules and HLA‐DR, and exhibited diminished IL‐12p70 release and poor allostimulatory capacity. Importantly, post‐G DC‐like cells were insensitive to maturation stimuli. As shown by neutralization studies, IFN‐α and, even more pronounced, IL‐10 contained in post‐G serum inhibited IL‐12p70 release by post‐G DC‐like cells. Furthermore, phenotypic and functional features of post‐G DC‐like cells were replicated by culturing post‐G monocytes with exogenous IL‐10 and IFN‐α. Post‐G DC‐like cells promoted Ag‐specific hyporesponsiveness in naive allogeneic CD4+ T cells and orchestrated a TREG response that was dependent on secreted TGFβ1 and IL‐10. Finally, neutralization of IL‐10 and IFN‐α contained in post‐G serum translated into abrogation of the regulatory features of post‐G DC‐like cells. This novel mechanism of immune regulation effected by G‐CSF might be therapeutically exploited for tolerance induction in autoimmune disorders.

Proposed definition of 'poor mobilizer' in lymphoma and multiple myeloma: An analytic hierarchy process by ad hoc working group Gruppo ItalianoTrapianto di Midollo Osseo

Many lymphoma and myeloma patients fail to undergo ASCT owing to poor mobilization. Identification of poor mobilizers (PMs) would provide a tool for early intervention with new mobilization agents. The Gruppo italianoTrapianto di Midollo Osseo working group proposed a definition of PMs applicable to clinical trials and clinical practice. The analytic hierarchy process, a method for group decision making, was used in setting prioritized criteria. Lymphoma or myeloma patients were defined as ‘proven PM’ when: (1) after adequate mobilization (G-CSF 10 μg/kg if used alone or ⩾5 μg/kg after chemotherapy) circulating CD34+ cell peak is <20/μL up to 6 days after mobilization with G-CSF or up to 20 days after chemotherapy and G-CSF or (2) they yielded <2.0 × 106 CD34+ cells per kg in ⩽3 apheresis. Patients were defined as predicted PMs if: (1) they failed a previous collection attempt (not otherwise specified); (2) they previously received extensive radiotherapy or full courses of therapy affecting SC mobilization; and (3) they met two of the following criteria: advanced disease (⩾2 lines of chemotherapy), refractory disease, extensive BM involvement or cellularity <30% at the time of mobilization; age ⩾65 years. This definition of proven and predicted PMs should be validated in clinical trials and common clinical practice.

Alloantigen presenting capacity, T cell alloreactivity and NK function of G-CSF-mobilized peripheral blood cells

In this study we addressed whether the proportion and the function of antigen presenting cells (APC), T and NK lymphocytes are modified in the apheresis product of six healthy donors who received a stem cell mobilizing treatment with glycosylated G-CSF at 10 μg/kg/day × 5 days s.c. Flow cytometry analysis showed comparable percentages of HLA-DR+, CD19+, CD86+, CD80+ and CD1a+ cells in preG-CSF-peripheral blood mononuclear cells (preG-PBMC) and after mobilization in G-PBMC, whereas the proportion of CD14+ monocytes significantly increased in G-PBMC (3 ± 1% vs 17 ± 8%, P = 0.003). Analysis of lymphocyte subsets in preG-PBMC and G-PBMC showed similar proportions of CD3+, CD4+, CD8+ and CD28+ T cells, but a significantly lower percentage of CD16+ (11 ± 7% vs 4 ± 1%, P = 0.01), CD56+ (15 ± 6% vs 5 ± 2%, P = 0.008), CD57+ (16 ± 9% vs 5 ± 2%, P = 0.04), CD25+ (19 ± 2% vs 9 ± 6%, p = 0.009) and CD122+ (5 ± 2% vs 2 ± 1%, P = 0.05) cells in G-PBMC. Unfractionated preG-PBMC and G-PBMC were irradiated and tested in primary mixed leukocyte culture (MLC) with two HLA-incompatible responders and induced efficient alloresponses in four of six cases, whereas G-PBMC stimulated poorly in the remaining two cases. Also, in allo-MLC with irradiated G-PBMC we detected lower amounts of IFN-γ (P = 0.04) and of IL-2 (P = 0.06) than in allo-MLC with preG-PBMC. Furthermore, freshly isolated preG-PBMC and G-PBMC from each donor exerted comparable allogeneic responses to HLA-incompatible irradiated mononuclear cells in all cases. However, G-PBMC showed no NK activity against K562 target cells at any effector:target ratio tested. These data suggest that normal G-PBMC may prevent Th1 alloresponses, maintain efficient alloreactivity to HLA mismatched antigens and have impaired NK activity.

In vitro anti-tumour activity of anti-CD80 and anti-CD86 immunotoxins containing type 1 ribosome-inactivating proteins

Immunotoxins specific for the CD80 and CD86 antigens were prepared by linking three type 1 ribosome‐inactivating proteins (RIPs), namely bouganin, gelonin and saporin‐S6, to the monoclonal antibodies M24 (anti‐CD80) and 1G10 (anti‐CD86). These immunotoxins showed a specific cytotoxicity for the CD80/CD86‐expressing cell lines Raji and L428. The immunotoxins inhibited protein synthesis by target cells with IC50s (concentration causing 50% inhibition) ranging from 0·25 to 192 pmol/l as RIPs. The anti‐CD80 immunotoxins appeared 1–2 log more toxic for target cells than the anti‐CD86 ones. Immunotoxins containing saporin and bouganin induced apoptosis of target cells. The toxicity for bone marrow haemopoietic progenitors of these conjugates was also evaluated. Bouganin and related immunotoxins at concentrations up to 100 nmol/l did not significantly affect the recovery of committed progenitors or of more primitive cells. The saporin‐containing immunotoxins at concentrations ≥ 1 nmol/l showed some toxicity on colony‐forming unit cells (CFU‐C). The expression of the CD80 and CD86 molecules is prevalently restricted to antigen‐presenting cells and is also strong on Hodgkin and Reed–Sternberg cells in Hodgkins disease. Present results suggest that immunotoxins targeting type 1 ribosome‐inactivating proteins to these antigens could be considered and further studied for the therapy of Hodgkins disease or other CD80/CD86‐expressing tumours.

Fludarabine-containing regimens severely impair peripheral blood stem cells mobilization and collection in acute myeloid leukaemia patients

We studied the effects of an intensified induction/consolidation treatment containing fludarabine (ICE/FLAN/FLAN) on the mobilization and collection of peripheral blood stem cells (PBSC) in 31 consecutive untreated acute myeloid leukaemia (AML) patients. The complete remission (CR) rate was comparable to classic inductions (68% after ICE; 84% after ICE‐FLAN I). To mobilize PBSC, 19 patients received 10 μg/kg/d of granulocyte‐colony stimulating factor (G‐CSF) starting at day 13 after FLAN, 13 (69%) of whom were found to be nonmobilizers. When a second G‐CSF administration was performed in 10/13 patients mobilization was either not achieved (8/10) or was considered insufficient (<1 × 106 CD34+ cells/kg) (2/10) and all 13 were subsequently submitted to bone marrow harvest. The harvest was considered adequate in 12/13 (92%) patients and autologous BMT (ABMT) has so far been performed in 10/12 cases with a mean of 8.6 × 108/kg nucleated reinfused cells. The median times to neutrophil and platelet recovery after ABMT did not significantly differ from those of two previous series of patients treated with ABMT without fludarabine‐containing regimens. Adequate amounts of PBSC were obtained in 6/19 (31%) patients, who were then reinfused. Median times for platelet recovery were significantly longer than in a previous series of 26 AML cases reinfused with PBSC after treatment with the ICE‐NOVIA induction/consolidation regimen (125 v 20 d to 20 × 109 plt/l, P < 0.02; 218 v 37 d to 50 × 109 plt/l, P < 0.02). In addition, times for platelet recovery after ICE/FLAN/FLAN were not significantly different from those in a previous group treated with ABMT performed after ICE/NOVIA,without fludarabine. We conclude that fludarabine‐containing regimens severely impair mobilization and collection of PBSC in AML patients and seem unsuitable when PBSC autotransplantation is programmed.

Ber-H2 (anti-CD30)-saporin immunotoxin : a new tool for the treatment of Hodgkin's disease and CD30+ lymphoma : in vitro evaluation

An immunotoxin containing an anti‐CD30 monoclonal antibody (Ber‐H2) and saporin, a ribosome‐inactivating protein type 1, is described. It specifically inhibits protein synthesis by Hodgkin derived target cell lines with a very high efficiency (IC50 ranging from 5 × 10–12 M to 5.10∼14 M, assaporin), while irrelevant immunotoxins do not. Present results suggest that this immunotoxin could be used for in vivo therapy as well as for ex vivo bone marrow purging in Hodgkins disease and CD304+ lymphomas.