Optimization and validation of in vivo flow cytometry chimeric antigen receptor T cell detection method using CD19his indirect staining

CD19-targeted chimeric antigen receptor T (CAR-T) cell therapy has shown unprecedented results in patients with B cell relapsed/refractory acute lymphoblastic leukemia (R/R-ALL) and B cell non-Hodgkin lymphomas where no other curative options are available. In vivo monitoring of CAR-T cell kinetics is fundamental to understand the correlation between CAR-T cells expansion and persistence with treatment response and toxicity development. The aim of this study was to define a robust, sensitive, and universal method for CAR-T cell detection using flow cytometry. We set up and compared with each other three assays for CD19 CAR-T cell detection, all based on commercially available reagents. All methods used a recombinant human CD19 protein fragment recognized by the single-chain variable fragment of the CAR construct. The two indirect staining assays (CD19his + APC-conjugated antihistidine antibody and CD19bio + APC-conjugated antibiotin antibody) showed better sensitivity and specificity compared with the direct staining with CD19-FITC, and CD19his had a better cost-effective profile. We validated CAR detection with CD19his with parallel quantitative real-time polymerase chain reaction data and we could demonstrate a strong positive correlation. We also showed that CD19his staining can be easily included in a multicolor flow cytometry panel to achieve additional information about the cell phenotype of CAR-T cell positive subpopulations. Finally, this method can be used for different anti-CD19 CAR-T cell products and for different sample sources. These data demonstrate that detection of CAR-T cells by CD19his flow cytometry staining is a reliable, robust, and broadly applicable tool for in vivo monitoring of CAR-T cells.

Human inhalable antibody fragments neutralizing SARS-CoV-2 variants for COVID-19 therapy

As of December 2021, coronavirus disease 2019 (COVID-19), caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), remains a global emergency, and novel therapeutics are urgently needed. Here we describe human single-chain variable fragment (scFv) antibodies (76clAbs) that block an epitope of the SARS-CoV-2 spike protein essential for ACE2-mediated entry into cells. 76clAbs neutralize the Delta variant and other variants being monitored (VBMs) and inhibit spike-mediated pulmonary cell-cell fusion, a critical feature of COVID-19 pathology. In two independent animal models, intranasal administration counteracted the infection. Because of their high efficiency, remarkable stability, resilience to nebulization, and low cost of production, 76clAbs may become a relevant tool for rapid, self-administrable early intervention in SARS-CoV-2-infected subjects independently of their immune status.

Sleeping Beauty-engineered CAR T cells achieve antileukemic activity without severe toxicities

BACKGROUNDChimeric antigen receptor (CAR) T cell immunotherapy has resulted in complete remission (CR) and durable response in highly refractory patients. However, logistical complexity and high costs of manufacturing autologous viral products limit CAR T cell availability.METHODSWe report the early results of a phase I/II trial in B cell acute lymphoblastic leukemia (B-ALL) patients relapsed after allogeneic hematopoietic stem cell transplantation (HSCT) using donor-derived CD19 CAR T cells generated with the Sleeping Beauty (SB) transposon and differentiated into cytokine-induced killer (CIK) cells.RESULTSThe cellular product was produced successfully for all patients from the donor peripheral blood (PB) and consisted mostly of CD3+ lymphocytes with 43% CAR expression. Four pediatric and 9 adult patients were infused with a single dose of CAR T cells. Toxicities reported were 2 grade I and 1 grade II cytokine-release syndrome (CRS) cases at the highest dose in the absence of graft-versus-host disease (GVHD), neurotoxicity, or dose-limiting toxicities. Six out of 7 patients receiving the highest doses achieved CR and CR with incomplete blood count recovery (CRi) at day 28. Five out of 6 patients in CR were also minimal residual disease negative (MRD-). Robust expansion was achieved in the majority of the patients. CAR T cells were measurable by transgene copy PCR up to 10 months. Integration site analysis showed a positive safety profile and highly polyclonal repertoire in vitro and at early time points after infusion.CONCLUSIONSB-engineered CAR T cells expand and persist in pediatric and adult B-ALL patients relapsed after HSCT. Antileukemic activity was achieved without severe toxicities.TRIAL REGISTRATIONClinicalTrials.gov NCT03389035.FUNDINGThis study was supported by grants from the Fondazione AIRC per la Ricerca sul Cancro (AIRC); Cancer Research UK (CRUK); the Fundación Científica de la Asociación Española Contra el Cáncer (FC AECC); Ministero Della Salute; Fondazione Regionale per la Ricerca Biomedica (FRRB).

Endothelial injury and thrombotic microangiopathy in COVID-19: Treatment with the lectin-pathway inhibitor narsoplimab

In COVID-19, acute respiratory distress syndrome (ARDS) and thrombotic events are frequent, life-threatening complications. Autopsies commonly show arterial thrombosis and severe endothelial damage. Endothelial damage, which can play an early and central pathogenic role in ARDS and thrombosis, activates the lectin pathway of complement. Mannan-binding lectin-associated serine protease-2 (MASP-2), the lectin pathway’s effector enzyme, binds the nucleocapsid protein of severe acute respiratory syndrome-associated coronavirus-2 (SARS-CoV-2), resulting in complement activation and lung injury. Narsoplimab, a fully human immunoglobulin gamma 4 (IgG4) monoclonal antibody against MASP-2, inhibits lectin pathway activation and has anticoagulant effects. In this study, the first time a lectin-pathway inhibitor was used to treat COVID-19, six COVID-19 patients with ARDS requiring continuous positive airway pressure (CPAP) or intubation received narsoplimab under compassionate use. At baseline and during treatment, circulating endothelial cell (CEC) counts and serum levels of interleukin-6 (IL-6), interleukin-8 (IL-8), C-reactive protein (CRP) and lactate dehydrogenase (LDH) were assessed. Narsoplimab treatment was associated with rapid and sustained reduction of CEC and concurrent reduction of serum IL-6, IL-8, CRP and LDH. Narsoplimab was well tolerated; no adverse drug reactions were reported. Two control groups were used for retrospective comparison, both showing significantly higher mortality than the narsoplimab-treated group. All narsoplimab-treated patients recovered and survived. Narsoplimab may be an effective treatment for COVID-19 by reducing COVID-19-related endothelial cell damage and the resultant inflammation and thrombotic risk.

RARα2 and PML-RAR similarities in the control of basal and retinoic acid induced myeloid maturation of acute myeloid leukemia cells

Treatment of acute promyelocytic leukemia (APL) with all-trans retinoic acid (ATRA) is the first example of targeted therapy. In fact, the oncogenic fusion-protein (PML-RAR) typical of this leukemia contains the retinoid-nuclear-receptor RARα. PML-RAR is responsible for the differentiation block of the leukemic blast. Besides PML-RAR, two endogenous RARα proteins are present in APL blasts, i.e. RARα1 and RARα2. We developed different cell populations characterized by PML-RAR, RARα2 and RARα1 knock-down in the APL-derived NB4 cell-line. Unexpectedly, silencing of PML-RAR and RARα2 results in similar increases in the constitutive expression of several granulocytic differentiation markers. This is accompanied by enhanced expression of the same granulocytic markers upon exposure of the NB4 blasts to ATRA. Silencing of PML-RAR and RARα2 causes also similar perturbations in the whole genome gene-expression profiles of vehicle and ATRA treated NB4 cells. Unlike PML-RAR and RARα2, RARα1 knock-down blocks ATRA-dependent induction of several granulocytic differentiation markers. Many of the effects on myeloid differentiation are confirmed by over-expression of RARα2 in NB4 cells. RARα2 action on myeloid differentiation does not require the presence of PML-RAR, as it is recapitulated also upon knock-down in PML-RAR-negative HL-60 cells. Thus, relative to RARα1, PML-RAR and RARα2 exert opposite effects on APL-cell differentiation. These contrasting actions may be related to the fact that both PML-RAR and RARα2 interact with and inhibit the transcriptional activity of RARα1. The interaction surface is located in the carboxy-terminal domain containing the D/E/F regions and it is influenced by phosphorylation of Ser-369 of RARα1.

A novel method using blinatumomab for efficient, clinical-grade expansion of polyclonal T cells for adoptive immunotherapy

Current treatment of chronic lymphocytic leukemia (CLL) patients often results in life-threatening immunosuppression. Furthermore, CLL is still an incurable disease due to the persistence of residual leukemic cells. These patients may therefore benefit from immunotherapy approaches aimed at immunoreconstitution and/or the elimination of residual disease following chemotherapy. For these purposes, we designed a simple GMP-compliant protocol for ex vivo expansion of normal T cells from CLL patients' peripheral blood for adoptive therapy, using bispecific Ab blinatumomab (CD3 × CD19), acting both as T cell stimulator and CLL depletion agent, and human rIL-2. Starting from only 10 ml CLL peripheral blood, a mean 515 × 10(6) CD3(+) T cells were expanded in 3 wk. The resulting blinatumomab-expanded T cells (BET) were polyclonal CD4(+) and CD8(+) and mostly effector and central memory cells. The Th1 subset was slightly prevalent over Th2, whereas Th17 and T regulatory cells were <1%. CMV-specific clones were detected in equivalent proportion before and after expansion. Interestingly, BET cells had normalized expression of the synapse inhibitors CD272 and CD279 compared with starting T cells and were cytotoxic against CD19(+) targets in presence of blinatumomab in vitro. In support of their functional capacity, we observed that BET, in combination with blinatumomab, had significant therapeutic activity in a systemic human diffuse large B lymphoma model in NOD-SCID mice. We propose BET as a therapeutic tool for immunoreconstitution of heavily immunosuppressed CLL patients and, in combination with bispecific Ab, as antitumor immunotherapy.

Human platelet lysate allows expansion and clinical grade production of mesenchymal stromal cells from small samples of bone marrow aspirates or marrow filter washouts

We compared two protocols for the expansion of human mesenchymal stromal cells (hMSCs) starting from diagnostic samples of BM aspirates (2-5 ml) or using the remnants in the bag and filter at the end of the BM infusions. The protocols differed in the presence of either 10% fetal bovine serum (FBS) or 5% platelet lysate (PL). We obtained a significantly (P=0.02) better expansion with PL, obtaining a median 1010-fold compared to 198-fold with a selected batch of FBS and in fewer days (29.8 in PL versus 41.4 in FBS). Overall, we recovered a variable number from 54.8 x 10(6) to 365 x 10(6) hMSCs in PL versus a variable number from 2.7 x 10(6) to 31 x 10(6) in FBS. No difference could be found in terms of gross morphology, differentiation potential, surface markers and immunological properties (inhibition of allogeneic PHA response and mixed lymphocyte reaction) of cells expanded with PL or FBS. The preparations were found within the range of acceptability for all the quality control criteria. Due to the clinical grade nature of the PL and the reproducibility of separate preparations, we propose this method to obtain hMSCs even from minute amounts of BM cells.

Repeated infusions of donor-derived cytokine-induced killer cells in patients relapsing after allogeneic stem cell transplantation: a phase I study

BACKGROUND AND OBJECTIVES

Cytokine-induced killer (CIK) cells have shown anti-leukemic activity and little graft-versus-host disease (GVHD) in several animal models. The safety of these cells in autologous settings has been shown. We performed a phase I study of allogeneic (donor's) CIK cells in patients relapsing after allogeneic haematopoietic stem cell transplantation (HSCT).

DESIGN AND METHODS

Eleven patients with acute myelogenous leukemia (n=4), Hodgkin's disease (n=3), chronic myelomonocytic leukemia, (n=1), pre-B acute lymphoblastic leukemia (n=1) and myelodysplasia (n=2), all of whom had relapsed after sibling (n=6) or matched unrelated donor (n=5) HSCT, entered this study.

RESULTS

Before CIK administration, six patients had received other salvage treatments including chemotherapy (n=5), radiotherapy (n=1) and unmanipulated donor lymphocytes (n=6) without any significant tumor response. The median number of CIK infusions was two (range 1-7) and the median number of total CIK cells was 12.4x106/kg (range 7.2-87.4). The infusions were well tolerated and no acute or late infusion-related reactions were recorded. Acute GVHD (grade I and II) was observed in four patients, 30 days after the last CIK infusion, and progressed into extensive chronic GVHD in two cases. Disease progression and death occurred in six patients. One patient had stable disease, one had hematologic improvement and three achieved complete responses.

INTERPRETATION AND CONCLUSIONS

This study shows that the production of allogeneic CIK cells is feasible under clinical-grade conditions, well tolerated and may contribute to clinical responses.

Rapid and massive expansion of cord blood-derived cytokine-induced killer cells: an innovative proposal for the treatment of leukemia relapse after cord blood transplantation

We have used a standardized 21-day expansion protocol to produce cytokine-induced killer (CIK) cells starting from very small amounts of nucleated cells (approximately 15 x 10(6) cells) isolated from cord blood. Mononuclear cells are stimulated with anti CD3 (OKT3) and IFNgamma and then expanded with IL-2. Moreover, we show that washouts of cord blood units bags (at the end of the infusion) may be sufficient to yield almost 500 x 10(6) CIK by the same expansion protocol. CIK cells show strong cytotoxic activity against a variety of tumor target cell lines including B and T lymphomas and myeloid leukemias. More importantly, expanded cord blood-derived CIK cells are cytotoxic against fresh leukemic blasts and express perforin, granzyme and NKG2D molecule at high levels. The same in vitro protocol has already been used to expand CIK cells from peripheral blood of adult donors under GMP conditions and therefore these observations open up the possibility of imagining a future clinical application of leukemia relapse following cord blood transplantation with CIK cells obtained from the same cord blood unit.

Clinical grade expansion of CD45RA, CD45RO, and CD62L-positive T-cell lines from HLA-compatible donors: high cytotoxic potential against AML and ALL cells

OBJECTIVE

Identification of a clinical grade method for the ex vivo generation of donor-derived T cells cytotoxic against both myeloid and lymphoblastic cells still remains elusive. We investigated rapid generation and expansion of donor derived-allogeneic T-cell lines cytotoxic against patient leukemic cells.

MATERIALS AND METHODS

Acute myelogenous leukemia (AML) and acute lymphoblastic leukemia (ALL) blasts were cultured 5 days in Stem Span, granulocyte macrophage colony-stimulating factor, interleukin-4, and calcium ionophore. All B-precursor ALL (N22) and AML (N13), but not T-cell ALL (N3), differentiated into mature leukemia-derived antigen-presenting cells (LD-APC). All but one LD-APC generated cytotoxic T lymphocyte (CTL) from adult human leukocyte antigen (HLA)-identical (N8) or unrelated donors (N2).

RESULTS

Upon in vitro culture, donor-derived CTL acquired a memory T phenotype, showing concomitant high CD45RA, CD45RO, CD62L expression. CD8(+) cells, but not CD4(+) cells, were granzyme, perforine, and interferon-gamma-positive. Pooled CD4(+) and CD8(+) cells were cytotoxic against leukemic blasts (32%, 30:1 E:T ratio), but not against autologous or patient-derived phytohemagglutinin blasts. LD-APC from five ALL patients were used to generate CTL from cord blood. A mixed population of CD4(+) and CD8(+) cells was documented in 54% of wells. T cells acquired classical effector memory phenotype and showed a higher cytotoxicity against leukemia blasts (47%, 1:1 E:T ratio). Adult and cord blood CTL showed a skewing from a complete T-cell receptor repertoire to an oligo-clonal/clonal pattern.

CONCLUSIONS

Availability of these cells should allow clinical trials for salvage treatment of leukemia patients relapsing after allogeneic stem cell transplantation.

Risk-oriented postremission strategies in adult acute lymphoblastic leukemia: prospective confirmation of anthracycline activity in standard-risk class and role of hematopoietic stem cell transplants in high-risk groups

INTRODUCTION

Although definite risk classes are well known, risk-adapted modulation of first-line therapy is seldom attempted in adult ALL. So, a prospective validation of the therapeutic efficacy of a protocol (or a component thereof) in specific risk groups is uncommon.

MATERIALS AND METHODS

From 1996-1999 a risk-oriented program (08/96) was evaluated in 102/121 unselected patients (median age 35 years, blast count 0-450 x 10(9)/l, 100 B(lin) (lineage), 21 T(lin)) responsive to induction therapy. The standard risk (SR) class was B(lin) CD10+ Ph- with blasts < 10 x 10(9)/l (prior studies: disease-free survival (DFS) rate 52% at five years with dose-intensive anthracycline-containing programs). The SR protocol was therefore anthracycline-rich (early consolidation cycles with total idarubicin 96 mg/m2), and comprised long-term maintenance. High-risk (HR) patients were eligible to the following three options: allogeneic hematopoietic stem cell transplantation (HSCT) from related family donor; short sequence with high-dose cyclophosphamide-cytarabine-methotrexate followed by melphalan/total body irradiation with autologous HSCT; or T(lin) ALL chemotherapy regimen inclusive of high-dose cytarabine and methotrexate.

RESULTS

Treatment realization and three-year DFS rates according to risk class, HR subset and postremission treatment intensity were the following. SR group (n = 28): realization rate 93%, DFS 68.5%. HR group (n = 74): realization rate 80%, DFS 39% (P = 0.052 vs SR category). In HR group, three-year DFS rates by disease subtype were the following. B(lin) Ph- (n = 35) 43%; Ph+ (n = 19) 13% at 2.7 years (P = 0.006 vs other HR subtypes); T(lin) (n = 18) 59.5%. And DFS rates by treatment intensity were: allograft (n = 21) 40%; autograft (n = 28) 27%; shift to SR protocol (n = 13) 52% (P = ns vs allograft/autograft); T(lin) program (n = 10) 57%. Matched analyses of treatment protocols and disease subtypes suggested a possible therapeutic role of the autograft regimen in B(lin) Ph- ALL with a blast count < 25 x 10(9)/l, and of T(lin) protocol for T(lin) ALL. Comparisons with retrospective control cohorts were confirmatory of anthracycline activity in SR subclass.

CONCLUSION

The intended strategy was applicable to the majority of study patients, confirming the value of anthracyclines in SR class and, preliminarily, the usefulness a T(lin)-specific treatment. Apart from the case of Ph+ ALL, the indications for high-dose procedures with HSCT remains largely undetermined in this study.

Characterization of CD20-transduced T lymphocytes as an alternative suicide gene therapy approach for the treatment of graft-versus-host disease

We have previously proposed the CD20 molecule as a novel suicide gene for T lymphocytes in the context of allogeneic bone marrow transplantation, because CD20 can be used both as a selection marker and as a killer gene after exposure to the anti-CD20 therapeutic antibody rituximab. We now report on preclinical studies using this novel system, in which the best transduction protocol, reproducibility, yield, feasibility, and functionality of the transduced T lymphocytes have been investigated with a large donor series. Wild-type human CD20 cDNA was transduced into human T lymphocytes, using a Moloney-derived retroviral vector. Alternative protocols were tested by employing either one or four spinoculations (in which cells are centrifuged in the presence of retroviral vector supernatant) and stimulating T cells with phytohemagglutinin (PHA) or anti-CD3/CD28. One spinoculation alone was sufficient to obtain approximately 30% CD20-positive cells within four experimental days. Four spinoculations significantly increased transduction to 60%. A small difference in transduction efficiency was observed between the two stimulation methods, with PHA being superior to anti-CD3/CD28. Transduced cells could be purified on immunoaffinity columns, with purity reaching 98% and yield being on average 50%. Finally, 86-97% of immunoselected T lymphocytes could be killed in vitro with rituximab and complement. More importantly, the CD20 transgene did not alter the functionality of T lymphocytes with respect to allogeneic recognition and cytotoxic response, anti-Epstein-Barr virus cytotoxic response, antigenic response to tetanus toxoid antigen, interleukin 2 (IL-2), IL-4, and interferon gamma production; chemotaxis in the presence of stromal cell-derived factor 1, phenotype for several activation markers including HLA-DR, CD25, CD69, and CD95, and T cell repertoire.

Rituximab-mediated antibody-dependent cellular cytotoxicity against neoplastic B cells is stimulated strongly by interleukin-2

BACKGROUND AND OBJECTIVES

We analyzed the sensitivity of freshly isolated neoplastic B cells to rituximab-mediated antibody-dependent cellular cytotoxicity (ADCC), using different effector cells.

DESIGN AND METHODS

ADCC was performed by 51Cr release assays in vitro, using peripheral blood mononuclear cells, IL-2-activated or expanded NK cells, neutrophils or macrophages as effector cells. B lymphoma lines and freshly isolated leukemic samples were used as targets.

RESULTS

NK cells, but PMN or macrophages mediated rituximab dependent cellular cytotoxicity against two B lymphoma lines. Purified NK cells (95% CD56+/CD16+) reached 70% lysis at the highest E:T ratio. By contrast, all freshly isolated B leukemia or lymphoma cases, including 5 chronic lymphocytic leukemia, 1 B-prolymphocytic leukemia, 1 mantle cell lymphoma, 2 marginal zone lymhomas and 2 follicular lymphomas were poorly lysed by ADCC in the same conditions and regardless of CD20 expression levels, reaching a mean of 4% and 27% maximal lysis with PBMC or purified NK cells, respectively. Interestingly, short term IL-2 cultured PBMC, containing 10 % activated NK cells, as well as long-term expanded NK cells, containing 80-95% activated NK cells, became strong ADCC effector cells with rituximab and lysed all leukemic samples to a mean of 57% and 67% at the highest E:T ratio, respectively.

INTERPRETATION AND CONCLUSIONS

Primary leukemic cells are more resistant than cell lines to rituximab- and NK cell-mediated ADCC but short-term exposure to IL-2 or long-term expansion of NK cells in vitro may provide effective tools to improve the therapeutic activity of rituximab.

Phase I trial with escalating doses of idarubicin and multidrug resistance reversal by short-course cyclosporin A, sequential high-dose cytosine arabinoside, and granulocyte colony-stimulating factor for adult patients with refractory acute leukemia

BACKGROUND AND OBJECTIVES

Patients with refractory acute myeloid or lymphoid leukemia (AML, ALL) were treated with a high-dose regimen comprising idarubicin (IDR) plus short-course cyclosporin A (CsA) as multidrug resistance type-1 (MDR1) blocking agent. The principal aim was to define the maximum tolerated dose (MTD) of IDR, which is reported to be a less MDR1-sensitive anthracycline. The short CsA infusion was patterned after the results of a previous in vitro study.

DESIGN AND METHODS

This was a phase I trial, in which eligible patients received high-dose cytarabine (HDAC) 3 g/m(2)/bd on days 1, 2 and 8, 9, and IDR 12.5-20 mg/m(2)/d on days 3 and 10, with increments of 2.5 mg/m(2)/d from the baseline per treatment group. Intravenous CsA infusion started 4 hours before IDR and lasted 12 hours. Recombinant granulocyte colony-stimulating factor (G-CSF) was added from day 11. IDR MTD was evaluated through analysis of regimen-related toxicity (RRT).

RESULTS

Eighteen patients were treated (16 AML, 2 ALL; MDR1+: 8/8 studied). Overall response rate was 61%. Toxicity was severe but manageable up to an IDR dose of 17.5 mg/m(2)/d, while grade 4 RRT developed with IDR 20 mg/m(2)/d. High-grade toxicity, not strictly regimen-related, was sometimes observed at lower IDR concentrations in patients with unresolved complications from prior extensive treatments. In keeping, the complete response (CR) rate was 92% (11/12) for patients with an ECOG performance score <2 compared to 0% (0/6) in the others (p=0.000). Apart from that, induction of markedly hypocellular, leukemia-free bone marrow on day 11 was associated with achievement of CR (13 evaluable: CR 8/10 vs 0/3, p=0.035).

INTERPRETATION AND CONCLUSIONS

IDR at 17.5 mg/m(2)/d (x2) can be associated with short-course CsA and HDAC for the management of refractory acute leukemias. While this regimen could deserve testing in a larger phase II trial, to document activity in MDR1+ disease, it remains important to select the most suitable patients in order to avoid the occurrence of life-threatening cumulative toxicity.

Negative selection of peripheral blood stem cells to support a tandem autologous transplantation programme in multiple myeloma

We recently described a two-step negative selection procedure whereby peripheral blood stem cells (PBSCs) were efficiently purged of contaminating neoplastic cells by a combination of monoclonal antibodies. Here, we report 60 newly diagnosed multiple myeloma (MM) patients treated with a double transplant programme and randomized to receive either unmanipulated or in vitro purged PBSCs. We demonstrated that this technique is feasible and safe without significant loss of either CD34+ or CD3+ cells. Haematological engraftment and immunological reconstitution were rapid without treatment-related mortality. Using polymerase chain reaction (PCR), we compared the level of minimal residual disease (MRD) in PBSC before and after in vitro purging and in vivo after transplant. A median of one tumour cell per 10(2) normal cells (range 10(1)-10(5)) was seen in the unmanipulated aphereses with a 3-4 log reduction after manipulation in vitro. However, despite this tumour debulking, all patients remained PCR positive in vivo. At 3 years, the estimated event-free survival was 40% in the control arm and 72% in the experimental arm (P = 0.05), whereas the estimated overall survival was 83% in both arms. This suggests that autologous transplantation using efficiently purged PBSCs can be performed safely, but confirms the need for innovative protocols for MRD eradication in vivo.

CD20 levels determine the in vitro susceptibility to rituximab and complement of B-cell chronic lymphocytic leukemia: further regulation by CD55 and CD59

Complement-dependent cytotoxicity is thought to be an important mechanism of action of the anti-CD20 monoclonal antibody rituximab. This study investigates the sensitivity of freshly isolated cells obtained from 33 patients with B-cell chronic lymphocytic leukemia (B-CLL), 5 patients with prolymphocytic leukemia (PLL), and 6 patients with mantle cell lymphoma (MCL) to be lysed by rituximab and complement in vitro. The results showed that in B-CLL and PLL, the levels of CD20, measured by standard immunofluorescence or using calibrated beads, correlated linearly with the lytic response (coefficient greater than or equal to 0.9; P <.0001). Furthermore, the correlation remained highly significant when the 6 patients with MCL were included in the analysis (coefficient 0.91; P <.0001), which suggests that CD20 levels primarily determine lysis regardless of diagnostic group. The role of the complement inhibitors CD46, CD55, and CD59 was also investigated. All B-CLL and PLL cells expressed these molecules, but at different levels. CD46 was relatively weak on all samples (mean fluorescence intensity less than 100), whereas CD55 and CD59 showed variability of expression (mean fluorescence intensity 20-1200 and 20-250, respectively). Although CD55 and CD59 levels did not permit prediction of complement susceptibility, the functional block of these inhibitors demonstrated that they play an important role in regulating complement-dependent cytotoxicity. Thus, lysis of poorly responding B-CLL samples was increased 5- to 6-fold after blocking both CD55 and CD59, whereas that of high responders was essentially complete in the presence of a single blocking antibody. These data demonstrate that CD20, CD55, and CD59 are important factors determining the in vitro response to rituximab and complement and indicate potential strategies to improve the clinical response to this biologic therapy.

Need for an accurate molecular diagnosis to assess the donor origin of leukemia relapse after allogeneic stem cell transplantation

BACKGROUND AND OBJECTIVES

Leukemia relapse occurring in donor cells after allogeneic hematopoietic stem cell transplantation has been reported in rare cases. Cytogenetic analysis and molecular probing of variable number of tandem repeats (VNTRs) have been used to confirm this unusual event in the few cases so far reported in the literature. The aim of this study was to demonstrate that extensive molecular characterization of leukemic cells at diagnosis and relapse may be necessary to avoid many technical pitfalls possibly leading to an erroneous diagnosis of leukemia relapse in donor cells after allogeneic transplantation.

DESIGN AND METHODS

We report the case of a 49- year old man who received an allogeneic transplantation from his HLA-identical sister because of BCR-ABL+ acute lymphoblastic leukemia (ALL). After having achieved complete hematologic and molecular remission, two years later an overt leukemia relapse occurred with cytogenetic findings suggesting a leukemia relapse in donor cells. The donor or patient origin of leukemic cells at relapse was further investigated by fluorescence in situ hybridization (FISH) karyotyping, reverse transcription (RT) polymerase chain reaction (PCR) analysis of BCR-ABL chimeric transcripts, PCR amplification of several VNTRs and the Y chromosome-specific DYS14 sequence and finally by amplification, cloning and sequencing of the CDRIII region of the immunoglobulin heavy chain (IgH) gene.

RESULTS

At the time of relapse, conventional and FISH karyotyping revealed the presence of a Phl+ chromosome and a female karyotype in all the 25 metaphases analyzed and PCR amplification of the Y chromosome-specific DYS14 sequence was negative. Moreover, the molecular evaluation of hematopoietic chimerism performed by the NZ-22 VNTR allowed us to demonstrate that at the time of relapse, a consistent proportion of hematopoietic cells was of donor origin. However, the molecular cloning and sequencing of the CDRIII region of the immunoglobuin heavy chain (IgH) gene rearrangement in leukemic blasts at diagnosis and relapse demonstrated their identity thus formally proving the patient origin of both leukemic clones.

INTERPRETATION AND CONCLUSIONS

While the simplest interpretation of the apparent female karyotype at relapse is the consequence of a loss of the Y chromosome which in leukemic blasts took place along with duplication of an X-chromosome, this case strongly emphasizes the need for accurate and extensive molecular characterization to prove the donor origin of a leukemia relapse after allogeneic transplantation.

Epstein-Barr virus-negative lymphoproliferate disorders in long-term survivors after heart, kidney, and liver transplant

BACKGROUND

Solid organ transplant patients undergoing long-term immunosuppression have high risk of developing lymphomas. The pathogenesis of the late-occurring posttransplantation lymphoproliferative disorders (PTLD) have not yet been extensively investigated.

METHODS

We studied 15 patients who developed PTLD after a median of 79 months (range 22-156 months) after organ transplant. Clonality, presence of Epstein-Barr virus (EBV) genome, and genetic lesions were evaluated by Southern blot analysis or polymerase chain reaction.

RESULTS

All monomorphic PTLD and two of three polymorphic PTLD showed a monoclonal pattern. Overall, 44% of samples demonstrated the presence of the EBV genome. Within monomorphic PTLD, the EBV-positive lymphomas were even lower (31%). A c-myc gene rearrangement was found in two cases (13%), whereas none of the 15 samples so far investigated showed bcl-1, bcl-2, or bcl-6 rearrangement. The modulation of immunosuppression was ineffective in all patients with monomorphic PTLD independent of the presence of the EBV genome. The clinical outcome after chemotherapy was poor because of infectious complications and resistant disease. With a median follow-up of 4 months, the median survival time of these patients was 7 months.

CONCLUSIONS

Late occurring lymphomas could be considered an entity distinct from PTLD, occurring within 1 year of transplant, because they show a histological and clinical presentation similar to lymphomas of immunocompetent subjects, are frequently negative for the EBV genome, are invariably clonal, and may rearrange the c-myc oncogene. New therapeutic strategies are required to reduce the mortality rate, and new modalities of long-lasting immunosuppression are called for.

Genetic modification of human T cells with CD20: a strategy to purify and lyse transduced cells with anti-CD20 antibodies

A retroviral vector has been constructed that contains the human CD20 cDNA under the control of the Moloney murine leukemia virus (Mo-MuLV) LTR. Freshly isolated mononuclear cells are infected for three consecutive days in the presence of PHA and hrlL-2, and a mean 15.9% of the cells (range, 6.5 to 31.7%) acquire a CD3+CD20+ phenotype. Transduced T lymphocytes grow and expand in vitro for up to 3 weeks like mock-infected cells and, as observed for the T lymphoblastoid CEM cell line, CD20 expression is maintained for several months with no change in the growth curve of the cells. CD20-expressing CEM and fresh T lymphocytes can be positively immunoselected on columns using different anti-CD20 antibodies. Exposure to monoclonal chimeric anti-CD20 IgG1(kappa) Rituximab antibody (Roche), in the presence of complement, results in effective and rapid killing of the transduced CD3+CD20+ human T cells in vitro. This approach represents a new and alternative method to gene manipulation with "suicide" genes for the production of drug-responsive T cell populations, a crucial step for the future management of graft-versus-host disease in bone marrow transplant patients.

Leucocyte alkaline phosphatase identifies terminally differentiated normal neutrophils and its lack in chronic myelogenous leukaemia is not dependent on p210 tyrosine kinase activity

Leucocyte alkaline phosphatase (LAP) is a marker of post-mitotic granulocytes and its activity is reduced or absent in chronic myelogenous leukaemia (CML) granulocytes as a consequence of LAP messenger RNA (mRNA) deficiency. We provide evidence that along the granulocytic maturation in normal marrow, the acquisition of LAP surface expression, identified by the monoclonal antibody 1B12.1, was restricted to CD11bbright/CD16bright positive cells. Moreover, in normal granulocytes, exposure to granulocyte colony-stimulating factor (G-CSF) in vitro and in vivo increased the cell surface expression of LAP. Although G-CSF was able to induce the LAP surface expression in CML granulocytes, the inhibition of p210 tyrosine kinase activity by genistein or CGP75148B failed to restore LAP mRNA expression and LAP protein synthesis. In conclusion, the acquisition of LAP protein on the cell surface of granulocytes follows CD16 antigen expression and can be considered as the last marker of terminally differentiated neutrophils. G-CSF is a potent regulator of the LAP mRNA expression and protein synthesis in normal and CML-derived neutrophils. The lack of direct activity of p210 tyrosine kinase on LAP mRNA expression in CML neutrophils supports the notion that the LAP defect in this disease could be related to a precocious and uncontrolled release of white blood cells from the bone marrow into the blood stream.

Rapid retroviral infection of human haemopoietic cells of different lineages: efficient transfer in fresh T cells

In order to develop a clinically feasible gene marking approach, we have used the recently described PINCO retroviral expression system, composed of the enhanced green fluorescence protein (EGFP) cDNA driven by Moloney MLV LTR and packaged in the Phoenix amphotropic cell line. Two T, five B, one erythromyeloid and three myeloid cell lines were successfully infected with % GFP+ cells ranging from 4% to 79%, showing a lineage-dependent difference in infection susceptibility, with the myeloid cells being the least efficiently infected. We also infected normal mononuclear peripheral cells cultured in PHA and rhIL-2 for 2 d, and obtained an average of 30% GFP+ cells, all present within the CD3+ population, with CD4+ and CD8+ cells being equally infected. Finally, the tonsillar purified B population showed lower levels of infectivity (6%) whereas high susceptibility was shown by normal human umbilical vein endothelial cells (57%). Highly purified CD34+ cells were also susceptible, varying from 6% to 10% GFP+ cells. Immature myeloid/erythroid progenitors have been infected which stably expressed the GFP protein during further differentiation in culture. The GFP+ T cells were FACS-sorted rapidly upon infection, subsequently cultured and the fluorescence intensity monitored. In all cases the difference in percentage of GFP+ cells did not correlate with the percentage of S/G2/M cycling cells as determined at the moment of infection or with the expression levels of Ram-1 amphotrophic receptor. The improved safety of this retroviral system, the rapidity of the technique, the high efficiency of infection with respect to normal T lymphocytes (in this last case higher than previously reported) and the lack of need for in vitro selection make this system favourable for clinical development.

Outcome assessment of age group-specific (+/- 50 years) post-remission consolidation with high-dose cytarabine or bone marrow autograft for adult acute myelogenous leukemia

BACKGROUND AND OBJECTIVE

To assess outcome of an age-adapted post-remission strategy for adult patients with acute myelogenous leukemia (AML, FAB-M3 excluded), including autologous bone marrow transplantation (ABMT) or high-dose cytarabine (HIDAC) consolidation.

DESIGN AND METHODS

AML patients in first complete remission (CR) after doxorubicin-cytarabine-thioguanine (DoxAT) chemotherapy were scheduled to receive two identical early consolidation courses followed by HIDAC (1 g/m2/bd for 6 days), if aged > 50 years, or HiDAC plus total body irradiation (TBI) plus ABMT if aged < 50 years, the bone marrow being harvested prior to the HiDAC/TBI regimen and unpurged. Results were examined by treatment intention and in actual treatment groups, by selected pretreatment and therapy-related variables, and compared with age and disease matched historical patients treated with DoxAT consolidation without additional HIDAC or ABMT.

RESULTS

One-hundred and eight (70%) of 153 patients achieved a response and were evaluable after a follow-up of 3.3-8.8 years. According to treatment intention, long-term relapse-free survival (RFS) was significantly improved in both age groups compared with controls (< 50 years: 41% vs 15%, p < 0.05; > 50 years: 33% vs 22%, p < 0.005). Actually, 41 patients proceeded to ABMT and 24 to the HIDAC cycle (including 5 aged < 50 years), 23 had early consolidation only (1: refusal; 1: inadequate marrow harvest; 21: complications), 10 relapsed and 2 died very early into remission, 7 were submitted to an allogeneic BMT, and one denied any post-remission therapy. The long-term RFS rates for ABMT and HIDAC groups were 53% and 54% (47% for 19 patients aged > 50), respectively, significantly better than for historical patients or those unable to go beyond early consolidation (p < 0.005, adjusted for early adverse events). Overall 5-year survival rate was 40% (p < 0.0001), 54% for CR patients, 60% after ABMT, and 65% after HIDAC. Relative to the ABMT and HIDAC intensive treatment groups, only the presence of hepatosplenomegaly at diagnosis was associated with a significantly worse outcome like that of the control study.

INTERPRETATION AND CONCLUSIONS

This age-adapted double post-remission consolidation strategy with ABMT (allo-BMT) or HIDAC was applicable to only about two thirds of responders and was effective in about half these cases, regardless of patient age or specific treatment modality. While the loss of CR patients from treatment realization was unrelated to the study design and depended mainly on recurrence of AML and toxic complication, the exact place of ABMT vs HIDAC consolidation remains unsettled, calling for a new study in comparable patient and risk groups.

A new combination of carboplatin, high-dose cytarabine and cross-over mitoxantrone or idarubicin for refractory and relapsed acute myeloid leukemia

BACKGROUND AND OBJECTIVE

High-dose cytarabine (HIDAC) and new anthracycline-type drugs (mitoxantrone, idarubicin) are the mainstay of several active regimens against relapsed and refractory acute myeloid leukemia (AML). The present study was undertaken to assess the feasibility, toxicity, and antileukemic activity of carboplatin (CBDCA) added to a combination of the two former agents.

DESIGN AND METHODS

Two regimens (R) of CBDCA plus HIDAC and either mitoxantrone or idarubicin (crossover) were sequentially evaluated. R-1 consisted of CBDCA 300 mg/m2/d (24-hour infusion) on days 1-4, HIDAC 1 g/m2/bd on days 1-5, and mitoxantrone/idarubicin 12/6 mg/m2/d on days 1-3, followed by granulocyte colony-stimulating factor (G-CSF). R-2, an attenuated-toxicity regimen, consisted of CBDCA and G-CSF as above, HIDAC on alternate days (1, 3, 5), and mitoxantrone/idarubicin 8/5 mg/m2/dose. Intended post-remission therapy included a similar, lower intensity course and a myeloablative phase supported by an allogeneic or autologous blood cell transplant.

RESULTS

Twenty-nine patients (median age 53 years, one child) formed the study group: 10 (34%) had a primary refractory disease (8 to idarubicin-cytarabine-etoposide, ICE), 6 (21%) were at second or subsequent relapse, and 5 (17%) had a first remission lasting < 12 months. In addition, 4 patients (14%) had received prior HIDAC and 10 (34%) were relapsing after a bone marrow/blood cell transplant. Twelve patients were treated with R-1 and 17 with R-2. The complete response rate was 25% with R-1 and 53% with R-2, due to a significantly lower death rate by pancytopenic complications (p = 0.023). The probability of response by risk class was: primary refractory 30% (43% with R-2), > 2nd relapse 33% (50% with R-2), 1st relapse < 12 months 40% (50% with R-2), 1st relapse > 12 months 50% (75% with R-2), prior HIDAC 75%, and prior transplant 30% (33% with R-2). Seven patients could undergo an autologous (n = 5) or allogeneic (n = 2) bone marrow/peripheral blood cell transplant after one consolidation cycle. Overall survival was 4.2 months, significantly longer in responders (complete and partial: median 11 months) than non-responders (p < 0.001). Median duration of complete remission was 10 months and 2-year probability 0.31, but no patient remained disease-free at 3 years.

INTERPRETATION AND CONCLUSIONS

R-2 was well tolerated, exerted a significant activity in high-risk AML, and is amenable to further improvements. However, the lack of long-term disease-free survivors indicates the need for innovative post-remission strategies.

Innovative two-step negative selection of granulocyte colony-stimulating factor-mobilized circulating progenitor cells: adequacy for autologous and allogeneic transplantation

A major obstacle in purifying either autologous or allogeneic hematopoietic stem cells from granulocyte colony-stimulating factor (G-CSF) mobilized circulating progenitor cells (CPC) is represented by the huge cellularity present in each apheretic product. To obtain a significant debulking of unwanted cells from the leukapheresis, we developed a modified protocol of immune rosetting whereby human ABO-Rh- compatible red blood cells (RBCs) are treated with chromium chloride and then coated with murine monoclonal antibodies (MoAbs) against leukocyte antigens. When experiments were performed with leukaphereses obtained from normal donors or from T-cell acute lymphoblastic leukemia (T-ALL) patients, RBCs were coated with murine MoAbs against human mature myeloid cells (CD11b) and T cells (CD6); whereas, in the case of patients with B-precursor ALL, B-cell non-Hodgkin's lymphoma (B-NHL), or multiple myeloma (MM), RBCs were coated with anti-CD11b only. After incubation with CPC, rosetting cells (myeloid precursor cells, granulocytes, monocytes, and T cells) were removed by Ficoll-Hypaque density gradient centrifugation with a blood cell processor apparatus, COBE (Lakewood, CO) 2991. After this step, a significant reduction of the initial cellularity was consistently obtained (range, 72% to 97%), whereas the median absolute recovery of the CD34+ cells was above 85% (range, 64 to 100), with a 10-fold relative enrichment ranging from 3% to 41%. In a second step, CPC can be further purged of contaminating T or B cells by incubation with lymphoid-specific magnetic microbeads (anti-CD2 and -CD7 to remove T cells; anti-CD19 to remove B cells) and elution through a type-D depletion column (composed of ferromagnetic fiber) inserted within a SuperMACS separator device (Miltenyi Biotech, Bergisch-Gladbach, Germany). By this approach, a highly effective (three to four logs) T-cell depletion was achieved in all experiments performed with normal donors or T-ALL patients (median loss of CD3+ cells: 99.8% [range 99.2 to 100]) and an equally efficient B-cell depletion was obtained from B-precursor ALL, B-NHL, or MM patients. At the end of the procedure the T- or B-cell depleted fraction retained a high proportion of the initial hematopoietic CD34+ stem cells, with a median recovery above 70% (range 48% to 100%) and an unmodified clonogenic potential. In five patients (two follicular NHL and three ALL) the purified fraction of stem cells was found disease free at the molecular level as assessed by polymerase chain reaction (PCR) analysis of the t(14;18) chromosome translocation or clono-specific DNA sequences of IgH or T-cell receptor gamma and delta chain genes. Purified autologous and allogeneic CPCs were transplanted in three and six patients, respectively, who showed a prompt and sustained hematologic engraftment. In conclusion, this method represents a simple and reproducible two-step procedure to obtain a highly efficient purging of T or B cells from G-CSF expanded and mobilized CPCs. This approach might lead to the eradication of the neoplastic clone in the autologous stem cell inoculum as well as for T-cell depletion during allogeneic transplantation.

The role of idarubicin in adult acute lymphoblastic leukaemia: from drug resistance studies to clinical application

Idarubicin (4-demethoxydaunorubicin) is more potent and less cardiotoxic than daunorubicin or doxorubicin. These properties suggested a role in acute myelogenous leukaemia, that was confirmed by prospective randomized trials. In acute lymphoblastic leukaemia of adults, on the contrary, there is very little information regarding idarubicin. We have used idarubicin since 1991 and found, in a retrospective comparison with a doxorubicin regimen, a decreased incidence of primarily refractory disease. The role of idarubicin in the postremission phase could not be assessed in detail but an early intensive use of anthracyclines, either idarubicin or doxorubicin, was associated with an improved outcome in early-B CD10+ and t(9;22)/BCR-leukaemias. Concurrent in vitro studies demonstrated that idarubicin, at pharmacologically relevant concentrations, was less sensitive to P-glycoprotein-mediated drug efflux than daunorubicin and was a more effective agent to use with cyclosporin-A to circumvent this drug resistance mechanism. Idarubicin is a very effective drug for the early management of adult acute lymphoblastic leukaemia and may be presently considered (along with cyclosporin-A or other modulator) as the reference anthracycline for cases overexpressing the P-glycoprotein drug resistance mechanism.

G-CSF-mobilized peripheral blood progenitor cells for allogeneic transplantation of resistant or relapsing acute leukemias

Peripheral blood progenitor cells (PBPC) were mobilized by G-CSF in normal HLA identical siblings and used for allogeneic transplantation in eight patients with refractory or relapsed acute leukemias. G-CSF administration was well tolerated and no significant side-effects were registered. The number of circulating WBC peaked at day 5 after G-CSF (range: 22.6-74.6 x 10(9)/l) with a median of 65 CD34+ cells/microl (38-155). As a consequence of leukaphereses, platelets progressively decreased, reaching the nadir after the last procedure (84-205 x 10(9)/l). A mean of two aphereses (1-3) were performed between day +4 and +7 during which 10 liters of blood were processed each time by a cell separator. Conditioning regimens were: fractionated total body irradiation (FTBI) plus either HDAra-C (2 g/m2 x 2/day for 6 days) (n=5) or melphalan (110 mg/m2) (n= 1) and busulfan (4 mg/kg/day for 4 days) and melphalan (110 mg/m2) in two patients relapsed after a previous FTBI-based allogeneic or autologous BMT. At transplantation, a median of 6.9 x 10(6) CD34+ cells/kg (4.2-16.5) and 279 x 10(6) CD3+ cells/kg (161-786) were infused. Engraftment of both neutrophils (> or v=1.5 x 10(9)/l) and platelets (> or v=20 x 10(9)/l) was observed in all patients after a median time of 18 days (range: 11-20 and 10-26, respectively). The evaluation of engraftment after transplantation was accomplished by PCR analysis of four hypervariable genomic regions (VNTR) (ApoB, ApoC2, YNZ-22, and MCT 118) which allowed to demonstrate the condition of donor chimaera in all patients after transplantation. As far as the clinical outcome, two patients died of interstitial pneumonitis at day +243 and +69 and two patients died at day +62 and +152 of pulmonary aspergillosis. Four patients remain alive in remission between day +88 and +287 with grade 0-l GVHD. Allogeneic PBPC transplantation is associated with a complete hematologic recovery and despite the infusion of a large amount of mature CD3+ lymphocytes, apparently acute GVHD is not worse than expected after transplantation of bone marrow progenitors.

Autologous PBSC transplant for late onset AML after mafosfamide-purged and TBI-containing autologous BMT

The prognosis of AML patients who fail autologous BMT and lack a donor for a salvage allogeneic BMT is very poor. We administered an alternative drug treatment including autologous PBSC transplant to a child who relapsed with AML 4 years after a mafosfamide-purged and TBI-containing BMT for second remission AML. Treatment comprised induction-consolidation with 'short' ICE courses (idarubicin-Ara C-etoposide for 2 days), high-dose CY plus G-CSF with collection of CD34+ PBSC and myeloablative treatment with high-dose mitoxantrone/BEAM supported by autologous PBSC reinfusion. The outcome was complete response, lasting 24 months. The patient died in remission of drug-related cardiotoxicity. This report emphasizes the possibility of a secondary AML after mafosfamide-purge autologous BMT, and documents the feasibility of an autologous PBSC transplant in such a high risk setting.

Intensive therapy for adult acute lymphoblastic leukemia: preliminary results of the idarubicin/vincristine/L-asparaginase/prednisolone regimen

Between June 1991 and September 1992, 80 patients with adult acute lymphoblastic leukemia (ALL) (newly diagnosed, n = 68; relapsed or refractory ALL, n = 7; lymphoid blast transformation of Philadelphia chromosome-positive chronic myelogenous leukemia [LT-CML], n = 5) were managed with a combination regimen consisting of idarubicin 36, 20, or 10 mg/m2 plus vincristine, L-asparaginase, and prednisolone (IVAP-1, -2, -3). Three patients with LT-CML and four with relapsing ALL had a complete remission. In the group of newly diagnosed patients aged 15 to 60 years treated with IVAP-1, the complete remission rate was only 44% due to the high incidence of toxic deaths. In contrast, 39 of 44 cases who subsequently received IVAP-2 achieved a complete remission (89%, P = .001), as did 62% of elderly patients who received IVAP-3. Hematologic and nonhematologic toxicity was significantly reduced with IVAP-2 compared with IVAP-1. The use of recombinant human granulocyte colony-stimulating factor in 24 patients was not associated with a reduced duration of granulocytopenia less than 0.5 x 10(9)/L, although there was a lower incidence of documented infections in patients receiving granulocyte colony-stimulating factor than in controls. Post-remission intensification with idarubicin-based courses, high-dose therapy with autologous bone marrow stem cell rescue, and rotational weekly therapy was feasible and its toxicity was manageable. These preliminary findings indicate that IVAP-2 (idarubicin 20 mg/m2) is a highly effective and well-tolerated regimen for remission induction of adult ALL.

Reinforced HEAV'D therapy for adult acute lymphoblastic leukemia: improved results and revised prognostic criteria

Thirty-six adults with acute lymphoblastic leukemia (ALL) were treated with adriamycin, vincristine, prednisolone, and asparaginase for remission induction, followed by vincristine-adriamycin-cyclophosphamide consolidation courses, cranial irradiation, a short ara-C plus VM-26 pulse, and vincristine plus cyclophosphamide rotating weekly with ara-C plus VM-26 for three months (reinforced HEAV'D). Thirty-one patients achieved a complete remission (86 per cent). Compared with historical results from a prior study, age > 30 years, absolute blast count > 15 x 10(9)/l, and CD10-negative immunophenotype were not associated with higher relapse rate and shorter survival, suggesting a positive effect from intensification therapy with ara-C and VM-26 in these poor prognostic categories. However, patients with an abnormal karyotypic pattern or a positive molecular study for BCR-ABL rearrangement detecting t(9;22) had a far greater likelihood of treatment failure (probability of remission at 3 years 0.10) than those with normal karyotype or negative molecular study (probability 0.70), and those not studied or with insufficient methaphases (probability 0.50) (p < 0.05 by log-rank test). These results underline the prognostic importance of chromosomal abnormalities and the usefulness of ara-C and VM-26 in the management of adult ALL.

Integrated use of morphology, cytochemistry, and immune marker analysis to identify acute leukaemia subtypes

One hundred and thirty-three acute leukaemia cases were evaluated by using a simplified sequence of morphological, cytochemical, and immunological investigations in order to obtain a correct leukaemia characterization that could have clinical relevance, rather than look for FAB-immunophenotype correlates. This approach offered an effective support to immediate therapeutic decisions and further investigations.