Lidia De Felice

Haploidentical, unmanipulated, G-CSF–primed bone marrow transplantation for patients with high-risk hematologic malignancies

UNLABELLED Eighty patients with high-risk hematologic malignancies underwent unmanipulated, G-CSF–primed BM transplantation from an haploidentical family donor. Patients were transplanted in first or second complete remission (CR, standard-risk: n =45) or in > second CR or active disease (high-risk: n =35). The same regimen for GVHD prophylaxis was used in all cases. The cumulative incidence (CI) of neutrophil engraftment was 93% 0.1%. The 100-day CIs for II-IV and III-IV grade of acute GVHD were 24% 0.2% and 5% 0.6%, respectively. The 2-year CI of extensive chronic GVHD was 6% 0.1%. The 1-year CI of treatment-related mortality was 36% 0.3%. After a median follow-up of 18 months, 36 of 80 (45%) patients are alive in CR. The 3-year probability of overall and disease-free survival for standard-risk and high-risk patients was 54% 8% and 33% 9% and 44% 8% and 30% 9%, respectively. In multivariate analysis, disease-free survival was significantly better for patients who had standard-risk disease and received transplantations after 2007. We conclude that unmanipulated, G-CSF–primed BM transplantation from haploidentical family donor provides very encouraging results in terms of engraftment rate, incidence of GVHD and survival and represents a feasible, valid alternative for patients with high-risk malignant hematologic diseases, lacking an HLA identical sibling and in need to be urgently transplanted. KEY POINTS Haploidentical, unmanipulated, G-CSF-primed bone marrow transplantation. Haploidentical hematopoietic stem cell transplantation for hematologic malignancies.

Histone Deacetylase Inhibitor Valproic Acid Enhances the Cytokine-Induced Expansion of Human Hematopoietic Stem Cells

Ex vivo amplification of human hematopoietic stem cells (HSC) without loss of their self-renewing potential represents an important target for transplantation, gene and cellular therapies. Valproic acid is a safe and widely used neurologic agent that acts as a potent inhibitor of histone deacetylase activities. Here, we show that valproic acid addition to liquid cultures of human CD34+ cells isolated from cord blood, mobilized peripheral blood, and bone marrow strongly enhances the ex vivo expansion potential of different cytokine cocktails as shown by morphologic, cytochemical, immunophenotypical, clonogenic, and gene expression analyses. Notably, valproic acid highly preserves the CD34 positivity after 1 week (range, 40-89%) or 3 weeks (range, 21-52%) amplification cultures with two (Flt3L + thrombopoietin) or four cytokines (Flt3L + thrombopoietin + stem cell factor + interleukin 3). Moreover, valproic acid treatment increases histone H4 acetylation levels at specific regulatory sites on HOXB4, a transcription factor gene with a key role in the regulation of HSC self-renewal and AC133, a recognized marker gene for stem cell populations. Overall, our results relate the changes induced by valproic acid on chromatin accessibility with the enhancement of the cytokine effect on the maintenance and expansion of a primitive hematopoietic stem cell population. These findings underscore the potentiality of novel epigenetic approaches to modify HSC fate in vitro.

Mechanisms of Osteoclast Dysfunction in Human Osteopetrosis: Abnormal Osteoclastogenesis and Lack of Osteoclast-Specific Adhesion Structures

Osteoclasts from a patient affected by osteopetrosis were examined in vivo and in vitro. Iliac crest biopsy revealed an osteosclerotic pattern, with prominent numbers of osteoclasts noted for hypernuclearity and incomplete adherence to the bone surface. A population comprising tartrate‐resistant acid phosphatase (TRAP)‐positive, multinucleated and mononuclear cells, and alkaline phosphatase‐positive stromal fibroblasts was obtained in vitro from bone marrow. Mononuclear TRAP‐positive precursors spontaneously fused in culture to form giant osteoclast‐like cells. These cells expressed the osteoclast marker MMP‐9 and calcitonin receptor, and lacked the macrophage marker, Fc receptor. Expression and distribution of c‐src, c‐fms, and CD68, and response to steroid hormones relevant to osteoclast differentiation and function were apparently normal, whereas cell retraction in response to calcitonin was impaired. TRAP‐positive multinucleated cells did not form osteoclast‐specific adhesion structures (clear zone, podosomes, or actin rings). Bone resorption rate was severely reduced in vitro. Focal adhesions and stress fibers were observed en lieu of podosomes and actin rings. Adhesion structures contained low levels of immunoreactive vitronectin receptor, most of this integrin being retained in cytoplasmic vesicles. These data provide the first characterization of abnormal differentiation and function of human osteopetrotic osteoclast‐like cells.

Flt3L induces the ex‐vivo amplification of umbilical cord blood committed progenitors and early stem cells in short‐term cultures

Umbilical cord blood (UCB) has been successfully used for haemopoietic stem cell transplantation, although its use has been cautiously limited to paediatric patients because of the reduced volume produced. The clinical results have confirmed that either engraftment or survival significantly correlate with cell dose infused. We have standardized a culture method providing in a short time a significant amplification of both committed progenitors and primitive stem cells for clinical use.

Intermediate-dose cyclophosphamide and granulocyte colony-stimulating factor is a valid alternative to high-dose cyclophosphamide for mobilizing peripheral blood CD34+ cells in patients with multiple myeloma

Peripheral blood stem cells (PBSC) are widely used in the setting of dose-intensive chemotherapies in patients with multiple myeloma (MM). Although the granulocyte colony-stimulating factor (G-CSF), following chemotherapy or not, is considered the standard growth factor for mobilizing PBSC, the optimal chemotherapeutic regimen still remains to be defined. Cyclophosphamide (CTX) is an effective drug in the treatment of MM which is capable of mobilizing PBSC if followed by growth factors, even though administration of high-dose CTX (7 g/m2) results in severe toxicity requiring hospitalization and increasing costs. We have retrospectively analyzed the results obtained in 38 newly diagnosed MM patients treated with 1.2 g/m2 CTX on days 1 and 3 combined with 40 mg dexamethasone daily for 4 days. The results were compared with those obtained in 25 newly diagnosed MM patients treated with 7 g/m2 CTX. A higher number of CD34+ cells/kg was collected during the first leukapheresis and a statistically significant lower consumption of G-CSF was observed following two doses of 1.2 g/m2 CTX compared to the 7 g/m2 CTX dose. The possibility of treating patients with day-hospital regimens, with a satisfactory yield of hematopoietic cells harvested, may have relevant economic implications for treatment strategies in MM patients.

Autologous bone marrow transplantation in acute myeloid leukemia after in-vitro purging with an anti-lacto-N-fucopentaose III antibody and rabbit complement

Two AML patients, whose leukemic clonogenic cells totally reacted to the anti-lactofucopentaose III S4-7 monoclonal antibody (MoAb), underwent autologous bone marrow transplantation, in first complete remission, after in-vitro purging with S4-7 MoAb and complement. After ablative chemotherapy (BAVC regimen) and reinfusion of S4-7 purged cells, regeneration of marrow cells occurred with prompt recovery of granulopoiesis and erythropoiesis. A more delayed platelet recovery was observed. The two patients are in complete remission at 20 and 11 months from ABMT. The results indicate that immunologic purging with S4-7 MoAb is safe and suitable for selected AML patients undergoing ABMT.

A prospective molecular study of chimaerism in patients with haematological malignancies receiving unrelated cord blood or bone marrow transplants: detection of mixed chimaerism predicts graft failure with or without early autologous reconstitution in cord blood recipients

We prospectively studied the chimaerism status in the bone marrow (BM) and peripheral blood (PB) of 23 patients receiving umbilical cord (UCB, 14 cases) or BM (nine cases) transplants from unrelated donors by PCR amplification of four individual‐specific VNTR genetic loci. Haematological engraftment, with persistent full donor pattern, was observed in 10/14 (72%) patients receiving UCB and in 9/9 (100%) patients transplanted with marrow from an unrelated donor (MUD). In contrast, the remaining four patients converted to an autologous pattern. Three out of these four patients had an early autologous haematological reconstitution reaching a neutrophil level >0.5 × 109/l at days 27, 33 and 37 after transplant, respectively. In all three of these patients, chimaerism analysis demonstrated an early appearance of donor cells (i.e. within 35 d after UCB transplant) showing a transient full donor (one case) or mixed chimaerism condition (two cases). Despite the early autologous haemopoietic reconstitution, one of the three patients died of GVHD at day 60, which was explained by the demonstration of low levels of donor lymphoid cells. In the MUD group all nine patients converted to a persistent full donor pattern with haematological reconstitution, accompanied in two of them by transient mixed chimaerism lasting to days 60 and 270 after transplant. Our data show that monitoring of chimaerism may predict graft failure with or without early autologous haemopoietic reconstitution in patients receiving unrelated UCB transplants. Furthermore, chimaerism analysis may identify, in patients with autologous reconstitution, those at risk of severe GVHD in whom immunosuppressive therapy should not be discontinued.

In vitro pharmacological purging of human bone marrow is enhanced by the use of lonidamine

Lonidamine (LND), previously reported as a useful antitumor substance in combination with physical or chemical agents, has been studied for its capacity in increasing pharmacological elimination in vitro of residual tumor cells from human bone marrow. Different drugs were tested in association with LND against mixtures of human bone marrow and a tumor cell line, clonogenic human leukemic blast progenitors, and normal human bone marrow precursors. The results demonstrated that LND increased the efficacy of anthracycline derivatives (Adriamycin, Mitoxantrone) both on the tumor cell line and on the leukemic blast progenitors, while VP-16 or ASTA-Z 7654 was not affected by the same substance. The toxicity on normal stem cells reflected that of each drug and was not modified by the addition of LND. While a consistent dose-dependent CFU-GM reduction was observed immediately after treatment with the different drugs, a complete recovery was reached after 7 and 14 days of long-term marrow cultures. Because of the low toxicity and the efficacy demonstrated in association with certain agents in increasing tumor cell elimination in vitro, LND could play an important role in in vitro purging prior to autologous bone marrow transplantation.

Valproic acid affects the engraftment of TPO-expanded cord blood cells in NOD/SCID mice

Hematopoietic stem and progenitor cells (HSPC) can improve the long-term outcome of transplanted individuals and reduce the relapse rate. Valproic acid (VPA), an inhibitor of histone deacetylase, when combined with different cytokine cocktails, induces the expansion of CD34+ cell populations derived from cord blood (CB) and other sources. We evaluated the effect of VPA, in combination with thrombopoietin (TPO), on the viability and expansion of CB-HSPCs and on short- and long-term engraftability in the NOD/SCID mouse model. In vitro, VPA+TPO inhibited HSPC differentiation and preserved the CD34+ cell fraction; the self-renewal of the CD34+ TPO+VPA-treated cells was suggested by the increased replating efficiency. In vivo, short- and long-term engraftment was determined after 6 and 20 weeks. After 6 weeks, the median chimerism percentage was 13.0% in mice transplanted with TPO-treated cells and only 1.4% in those transplanted with TPO+VPA-treated cells. By contrast, after 20 weeks, the engraftment induced by the TPO+VPA-treated cells was three times more effective than that induced by TPO alone, and over ten times more effective compared to the short-term engraftment induced by the TPO+VPA-treated cells. The in vivo results are consistent with the higher secondary plating efficiency of the TPO+VPA-treated cells in vitro.

Effect of Hemopoietic Growth Factors on the Proliferation of Acute Myeloid and Lymphoid Leukemias.

The effect of G-CSF, GM-CSF, IL-1 and IL-3 on the proliferation of acute leukemia cells (evaluated as (3)HTdR uptake) was investigated in short-term liquid cultures and compared with that observed on normal bone marrow (BM) populations enriched for immature cells. In acute myeloid leukemias (AML), a marked leukemic proliferation was induced in 10/18 cases by IL-3, in 9/18 by GM-CSF, in 7/18 by IL-1 and in 4/18 by G-CSF. In acute lymphoid leukemias (ALL), marked stimulation was observed in 7/11 cases with IL-3 and in 5/11 with GM-CSF, whereas IL-1 and G-CSF were ineffective. Both in AML and ALL, the combination of several factors did not result in an additive synergistic effect. Purified normal BM cells responded to all four growth factors and their combinations produced an additive effect on cell proliferation which probably relates to the heterogeneity of the cell populations studied. The effect of a G-CSF, GM-CSF, IL-1 and IL-3 on the proliferation of acute leukemia cells by different growth factors suggests that caution should be exercised in their clinical use in these diseases.