Fredrik Celsing

Frequent good partial remissions from thalidomide including best response ever in patients with advanced refractory and relapsed myeloma

Twenty‐three patients with advanced and heavily pretreated myeloma were treated with thalidomide. Starting dose was 200 mg/d, and 20 patients had dose escalations up to 400 (n = 5), 600 (n = 12) or 800 mg/d (n = 3), usually in divided doses. Nineteen patients were refractory to recent chemotherapy, and four had untreated relapse after prior intensive therapy. Ten out of 23 patients (43%) achieved partial response (PR; nine with refractory and one with relapsed disease), six patients had minor response or stabilization of the disease and four had disease progression. Another three patients died early from advanced myeloma at less than 3 weeks of thalidomide therapy. Of the 10 patients with PR, seven had a better response than after any prior therapy, despite vincristine–doxorubicin–dexamethasone (VAD)‐based treatment in all but one and high‐dose melphalan with autologous stem cell support in four. Time to achieve PR was rapid in patients receiving thalidomide in divided doses (median 31 d). Responses also included reduced bone marrow plasma cell infiltration and improved general status. Normalized polyclonal gammaglobulin levels were seen in four cases. Six out of 10 patients with PR remained in remission with a median time on treatment of 23 weeks (range 15–50 weeks). Sedation was common but usually tolerable, and some patients continued full‐ or part‐time work. Four patients had skin problems, three patients had pneumonia, one hypothyrosis, one sinus bradycardia and one minor sensory neuropathy. Thalidomide may induce good partial remissions in advanced refractory myeloma with tolerable toxicity, and should be evaluated in other settings for myeloma patients. Divided thalidomide doses seem to reduce time to achieve remission and may improve response rate.

Effects of iron deficiency on endurance and muscle enzyme activity in man

The purpose of the present study was to evaluate the effects of iron deficiency on enzyme activities and endurance. Iron deficiency was induced in 9 healthy male subjects by repeated venesections. After a period of 9 wk (range, 8-11 wk) when the subjects had become iron deficient as defined by laboratory parameters, blood was retransfused to reestablish the control hemoglobin concentration. In this state it was possible to evaluate the effect of iron deficiency isolated from anemia. In samples secured by muscle biopsies, glycolytic, oxidative, and iron depending enzymes were analyzed in the control (C) and anemic (A) states and after retransfusion (R). There were no significant changes in the maximal activities of any of the enzymes studied. The capillary/fiber ratio remained unchanged between C (1.92) and R (1.94). Times to exhaustion on treadmill tests were 49 min, 11 s in C, 26 min, 33 s in A, and 52 min, 3 s in R. Vo2max was 4.55 1 X min-1 in C, 3.74 1 X min-1 in A, and 4.45 1 X min-1 in R. An artificially induced iron deficiency defined by conventional laboratory parameters did not affect endurance when transfusion of red blood cells was performed in order to exclude the influence of a low hemoglobin concentration. A 4-wk period of severely depleted or absent tissue iron stores did not affect the maximal activities of various enzymes in human skeletal muscle.

Sensitization to TRAIL-induced apoptosis and modulation of FLICE-inhibitory protein in B chronic lymphocytic leukemia by actinomycin D

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a potent activator of the cell death pathway and exerts tumoricidal activity in vivo with minimal toxicity. In order to investigate the therapeutic potential of TRAIL in B chronic lymphocytic leukemia (B-CLL) we have analyzed the expression of TRAIL receptors (TRAIL-Rs) in leukemic cells from B-CLL patients and their in vitro sensitivity to apoptosis induced by recombinant human TRAIL. We have found TRAIL-R1 and -R2 death receptor, and TRAIL-R3 and -R4 decoy receptor mRNA expression in most of the 57 B-CLL patients studied (R1 82%, R2 100%, R3 96% and R4 82%). TRAIL-R1 and R2 proteins were expressed on the surface and within the cells, whereas R3 and R4 decoy receptors were almost exclusively expressed in the cytoplasm. Despite TRAIL death receptor expression, B-CLL cells were relatively resistant to induction of apoptosis by recombinant human TRAIL (300 ng/ml). However, the susceptibility to TRAIL-induced apoptosis was increased by treatment of B-CLL cells with actinomycin D (Act D). Western blot analysis showed higher constitutive expression of the long form of FLICE-inhibitory protein (FLIPL) in B-CLL as compared to normal tonsillar B cells. Act D treatment down-regulated both long and short FLIP expression, which was correlated with the increase in B-CLL sensitivity to TRAIL. Although the surface TRAIL death receptor expression was up-regulated both by cell culture and by Act D treatment, the changes were not correlated with a gain in susceptibility to TRAIL. In addition, neither decoy receptors nor Bcl-2 expression were affected by Act D. Our findings suggest the possible involvement of FLIP in regulating TRAIL-mediated apoptosis in B-CLL.

High expression of Bfl‐1 contributes to the apoptosis resistant phenotype in B‐cell chronic lymphocytic leukemia

In order to identify regulatory genes involved in the development of an apoptosis‐resistant phenotype in patients with chemotherapy refractory B‐cell chronic lymphocytic leukemia (B‐CLL) expression of apoptosis‐regulating genes in B‐CLL cells was quantified using cDNA arrays and RT‐PCR. Data were obtained from and compared between 2 groups of B‐CLL patients with either nonprogressive, indolent, previously untreated disease and with leukemic cells sensitive to in vitro fludarabine‐induced apoptosis, referred to as sensitive B‐CLL (sB‐CLL) or with progressive, chemotherapy refractory disease and with leukemic cells resistant to in vitro fludarabine‐induced apoptosis, referred to as resistant B‐CLL (rB‐CLL). By performing a supervised clustering of genes that most strongly discriminated between rB‐CLL vs. sB‐CLL a small group of genes was identified, where bfl‐1 was the strongest discriminating gene (p < 0.05), with higher expression in rB‐CLL. A group of apoptosis‐regulating genes were modulated during induction of apoptosis by serum deprivation in vitro in a similar manner in all cases studied. However, bfl‐1 was preferentially downregulated in sB‐CLL as compared to rB‐CLL (p < 0.05). We conclude that bfl‐1 may be an important regulator of B‐CLL apoptosis, which could contribute to disease progression and resistance to chemotherapy, and as such represent a future potential therapeutic target.

Sorafenib Has Potent Antitumor Activity against Multiple Myeloma In Vitro, Ex Vivo, and In Vivo in the 5T33MM Mouse Model

Multiple myeloma (MM) is a B-cell malignancy characterized by the expansion of clonal plasma blasts/plasma cells within the bone marrow that relies on multiple signaling cascades, including tyrosine kinase activated pathways, to proliferate and evade cell death. Despite emerging new treatment strategies, multiple myeloma remains at present incurable. Thus, novel approaches targeting several signaling cascades by using the multi-tyrosine kinase inhibitor (TKI), sorafenib, seem a promising treatment approach for multiple myeloma. Here, we show that sorafenib induces cell death in multiple myeloma cell lines and in CD138(+)-enriched primary multiple myeloma patient samples in a caspase-dependent and -independent manner. Furthermore, sorafenib has a strong antitumoral and -angiogenic activity in the 5T33MM mouse model leading to increased overall survival. Multiple myeloma cells undergo autophagy in response to sorafenib, and inhibition of this cytoprotective pathway potentiated the efficacy of this TKI. Mcl-1, a survival factor in multiple myeloma, is downregulated at the protein level by sorafenib allowing for the execution of cell death, as ectopic overexpression of this protein protects multiple myeloma cells. Concomitant targeting of Mcl-1 by sorafenib and of Bcl-2/Bcl-xL by the antagonist ABT737 improves the efficacy of sorafenib in multiple myeloma cell lines and CD138(+)-enriched primary cells in the presence of bone marrow stromal cells. Altogether, our data support the use of sorafenib as a novel therapeutic modality against human multiple myeloma, and its efficacy may be potentiated in combination with ABT737.

Expression and transcriptional regulation of functionally distinct Bmf isoforms in B-chronic lymphocytic leukemia cells

Bmf is a BH3-only Bcl-2 family member that is normally sequestered to myosin V motors by binding to the dynein light chain 2 (DLC2). Certain damage signals release Bmf, which then binds prosurvival Bcl-2 proteins and triggers apoptosis. Here, two novel isoforms of human Bmf, Bmf-II and Bmf-III, were identified and cloned from cDNA derived from B-chronic lymphocytic leukemia (B-CLL) cells. Bmf-II and Bmf-III were characterized as two splice variants, lacking the BH3 domain but retaining the DLC2 binding domain. Bmf (here called Bmf-I) expression in HeLa cells induced apoptosis and reduced colony formation in contrast to Bmf-II and Bmf-III, which had no effect on apoptosis and instead increased colony formation. While bmf-I mRNA was expressed in many cell types, expression was higher in B lymphoid cells and bmf-II and bmf-III were mainly detected in B-CLL and normal B cells. bmf-I mRNA was upregulated in normal and leukemic B cells, while bmf-III mRNA was downregulated only in B-CLL cells by serum deprivation. We show that Bmf is regulated by transcriptional activation and alternative splicing and conclude that the relative levels of Bmf isoforms may have a role in regulating growth and survival in B cells and leukemic B-CLL cells.

Histamine and Interleukin-2 in Acute Myelogenous Leukemia

Interleukin-2 (IL-2) activates natural killer (NK)-cells to destroy leukemic blasts from patients with acute myelogenous leukemia (AML), but even aggressive regimens of IL-2 fail to prevent relapse or prolong remission time in AML. Results obtained in studies of NK-cell-mediated killing of AML blasts show that monocytes inhibit IL-2-induced lysis of AML blasts in vitro. Histamine, a biogenic amine, prevents the monocyte-derived, inhibitory signal; thereby, histamine and IL-2 synergize to induce killing of AML blasts. Here we present updated results of a post-consolidation trial in which histamine (0.5-0.7 mg s.c. bid) has been administered together with IL-2 (1 micro/kg s.c. bid) to 22 AML patients (aged 29-79, mean 59) in repeated courses of three weeks, continued until relapse or until a disease-free remission of 24 months. Low-dose therapy with cytarabine and thioguanine was given between the initial courses of histamine/IL-2. In 13 patients, treatment according to this protocol was started in first complete remission (CR1). The mean remission time in CR1 patients is 19 (median 14) months, and 9/13 remain in CR. Nine patients have entered the protocol in CR2 (n=6), CR3 (n=2), or CR4 (n=1). The mean remission time in CR2-4 is 19 (median 21) months, and 6/9 patients remain in CR. Seven out of seven evaluable patients have achieved a duration of CR which exceeds that of the foregoing remission. Histamine has been well tolerated, and 21/22 CR patients have treated themselves at home throughout the trial. We conclude that the putative benefit of histamine treatment in AML should be the focus of a randomized trial.

Oral cladribine for B‐cell chronic lymphocytic leukaemia: report of a phase II trial with a 3‐d, 3‐weekly schedule in untreated and pretreated patients, and a long‐term follow‐up of 126 previously untreated patients

Summary.  A phase II study was undertaken to evaluate the efficacy and toxicity of a new schedule of cladribine administration (10 mg/m2 orally daily for 3 d every 3 weeks) in 107 patients with B‐cell chronic lymphocytic leukaemia (CLL). To minimize toxicity, treatment withdrawal criteria were defined. The results of the 63 previously untreated patients were retrospectively compared with 63 from an earlier study using a 5‐d monthly schedule. The compiled data were analysed for prognostic factors for survival. No significant difference regarding response were seen in the two cohorts of the 126 previously untreated patients. The complete response (CR), nodular partial response (nPR) and partial response (PR) rates were 15%, 21% and 41%. Quality of response had no impact on survival. The 3‐ and 5‐year overall survival for previously untreated patients was 73% and 58%, respectively, with a median follow‐up of 54 months. Pretreatment haemoglobin < 11·0 g/dl and elevated beta‐2‐microglobulin had a negative influence on survival. Major infections occurred in 21% of patients in the 3‐d study compared with 35% in the 5‐d study. The overall response (OR) and CR rates in the 40 previously treated patients were 34% and 5% respectively. Median overall survival was 24 months and median progression‐free survival for responding patients was 14 months. Cladribine used as a single agent is an effective treatment with an acceptable safety profile for pretreated and untreated B‐CLL. The achievement of complete remission was not a prerequisite for long‐term survival.

Liposomal Amphotericin B and Surgery in the Successful Treatment of Invasive Pulmonary Mucormycosis in a Patient with Acute T-Lymphoblastic Leukemia

Pulmonary mucormycosis is a usually fatal opportunistic infection in immunocompromised patients. We describe the first case of an adult patient with hematological malignancy and profound neutropenia to survive a disseminated pulmonary Rhizomucor pusillus infection. Early diagnostic procedures combined with high doses of liposomal amphotericin B and surgical resection may have contributed to the successful outcome.Pulmonary mucormycosis is a usually fatal opportunistic infection in immunocompromised patients. We describe the first case of an adult patient with hematological malignancy and profound neutropenia to survive a disseminated pulmonary Rhizomucor pusillus infection. Early diagnostic procedures combined with high doses of liposomal amphotericin B and surgical resection may have contributed to the successful outcome.

Anemia causes a relative decrease in blood lactate concentration during exercise

SummaryThe purpose of the present study was to examine to what degree a reduction in systemic oxygen transport capacity influences the absolute and relative levels (% of maximal oxygen uptake) of submaximal blood lactate accumulation. Anemia was induced by repeated venesections in eight healthy males. After 9–10 weeks of anemia, hemoglobin concentration [Hb] was restored by retransfusion of packed erythrocytes. The [Hb] values obtained were, before venesections, in control (C)=145±10, in the anemic state (A)=110±8, and after retransfusion (R)=143+-8 g · l−1 respectively. In all states, muscle biopsies were taken and measurements made of