Progress in CLL, chemotherapy, antibodies and transplantation

Anti-B4 Blocked Ricin Post Chemotherapy in Patients with Chronic Lymphocytic Leukemia--Long-term Follow-up of a Monoclonal Antibody-based Approach to Residual Disease

Anti-B4-blocked ricin is an immunotoxin consisting of anti-B4 murine monoclonal antibody and "blocked ricin" toxin. The anti-B4 monoclonal antibody is directed against the CD19 antigen, which is expressed on B-lymphocytes. A phase II study of anti-B4 blocked ricin toxin in patients with B-cell chronic lymphocytic leukemia (CLL) with residual disease after chemotherapy was conducted. Eleven patients received anti-B4 blocked ricin at 30 microg/kg lean body mass (LBM) daily by continuous infusion for 7 days followed with repeat infusion administered at 14-day intervals. No patient achieved an objective response. The major reasons for failure to respond were the presence of adenopathy and residual marrow disease. Three patients achieved immunophenotypic response in marrow and peripheral blood. Three of 6 patients with rearranged IgH and/or Ig kappa were germline after anti-B4 blocked ricin. The median follow-up of surviving patients is 8.6 years. The median survival is 5.8 years (range, 0.0-8.8). All patients have progressed. The median time to progression was 0.8 years (range, 0.3-3.0). Infusion-related toxicities were all grade 1-2. The most common toxicity was transaminitis. Human antimouse antibody (HAMA) and/or human antiricin antibody (HARA) development was documented in 2 patients. Anti-B4 blocked ricin was well tolerated but had limited activity in patients with residual CLL after chemotherapy.

A recombinant IL-4-Pseudomonas exotoxin inhibits protein synthesis and overcomes apoptosis resistance in human CLL B cells

We have determined that CLL B cells consistently express type 3 membrane receptors for the Th2-derived cytokine IL-4 (IL-4R). Furthermore, when added to CLL B cells, IL-4 induces increased apoptosis resistance, increased protein synthesis in CLL B cells and rapid onset activation of STAT1, STAT5 and STAT6. Since the IL-4-IL-4R pathway is intact in CLL B cells and is related to apoptosis resistance, we considered whether we could target this pathway. A recombinant IL-4 Pseudomonas exotoxin fusion protein (IL-4 PE), known to bind to IL-4R, was incubated with CLL B cells. IL-4 PE (10 ng/ml) cultured with CLL B cells resulted in an increase of apoptosis/death from mean levels of 46.6+/-7.0 of non-exposed cells to 69+/-8.6 (n=6). By measuring in vitro protein synthesis, two predominant patterns of sensitivity were observed. In one, CLL B cell clones (n=4) were found to be extremely sensitive to IL-4 PE (IC50's range=6-25 ng/ml). In the second, low concentrations of IL-4 PE induced agonist activity while increasing concentrations induced cytotoxicity in 6 of 21 patient-derived cells. These studies suggest that the IL-4R, on B-CLL cells, can serve as a unique molecular target for directing cytotoxic agents in the therapy of B-CLL.

Treosulfan and fludarabine: a new toxicity-reduced conditioning regimen for allogeneic hematopoietic stem cell transplantation

New conditioning regimens are being explored to reduce toxicity and enable allogeneic bone marrow transplantation in patients not eligible for conventional transplantation. We have investigated treosulfan, an alkylating agent, with the aim of developing an efficient and reliable but less-toxic conditioning regimen. A series of 30 patients who were not eligible for standard conditioning therapy received transplants from HLA-matched related (n = 14) or unrelated (n = 16) donors after administration of treosulfan 10 g/m2 intravenously daily for 3 days and fludarabine 30 mg/m2 intravenously daily for 5 days. Patients receiving grafts from unrelated donors also were given rabbit antithymocyte globulin 10 mg/kg intravenously daily for 3 days. All patients achieved prompt neutrophil and platelet recovery. Extramedullary toxicity was generally mild with Common Toxicity Criteria (CTC) grade 3 or 4 attributable to the conditioning seen only with transaminases. Complete donor chimerism was achieved by 90% of the patients. Acute graft-versus-host disease (GVHD) grade III or IV developed in 14% of the patients and chronic GVHD in 39%. An estimated overall survival rate of 73% and an event-free survival rate of 49% have been reached after a median of 22 months (range, 7.4-33.4 months). In summary, the combination of treosulfan and fludarabine is a safe and efficient conditioning regimen.

B-cell chronic lymphocytic leukaemia: a polymorphic family unified by genomic features

Human cancer is characterised by complex molecular aberrations which result in a wide variety of clinical manifestations. B-cell chronic lymphocytic leukaemia (B-CLL) is particularly diverse, both in terms of molecular changes and clinical course, and consequently our understanding of the pathology of this disease is generally poor. Furthermore, the heterogeneity of this tumour type coupled with the absence of an obvious genetic "hallmark", such as gain of oncogene function or loss of suppressor-gene function, has led many investigators to question whether B-CLL is a single disease entity. In most cases, B-CLL does not show specific reciprocal chromosomal translocations as found in other haemopoietic malignant diseases. The genomic instability of B-CLL results in numerous different types of chromosomal losses and gains, giving rise to unsettled karyotypes among individuals with this disease. Nevertheless, genetic data imply that B-CLL is a single disease characterised by a common gene-expression profile and by the existence of specific subtypes that may have clinical correlates in patients.

CAMPATH (alemtuzumab) for the treatment of chronic lymphocytic leukemia and beyond

CAMPATH (CAMPATH-1H, alemtuzumab, MabCAMPATH), is a lymphocyte-depleting humanized monoclonal antibody that was recently approved in the USA and Europe for the treatment of chronic lymphocytic leukemia (CLL). It targets CD52--a small glycosylphosphatidylinositol-anchored glycoprotein that is highly expressed on normal T- and B-lymphocytes and on a large proportion of lymphoid cell malignancies--but not on hematopoietic progenitor cells. CAMPATH was shown to be effective against CLL refractory to chemotherapy with an acceptable toxicity profile. CAMPATH is also active against T-cell prolymphocytic leukemia and has been extensively used to prevent graft-versus-host disease associated with bone marrow transplantation. CAMPATH is owned by ILEX Pharmaceuticals LP and distributed by Schering AG and its US affiliate Berlex Laboratories.