Treatment of acute promyelocytic leukemia by retinoids.

We review the role of all-trans retinoic acid (ATRA) in the treatment of acute promyelocytic leukemia (APL). The combination of ATRA and conventional anthracycline-ARA-C chemotherapy (CT) has clearly demonstrated its superiority over CT alone (in terms of relapse and survival) in newly diagnosed APL. Combination treatment probably also reduces the incidence of initial failures, and complete remission (CR) rates greater than 90% are now regularly reported in large multicenter trials. Some randomized studies strongly suggest that prolonged maintenance treatment (for 1 or 2 years) with ATRA and low-dose CT, and possibly very early introduction of anthracycline CT during induction treatment, may reduce the incidence of relapse. With those treatments, the relapse risk appears to be only 10%-15%, although it remains greater in patients who initially have high white blood cell counts (often associated with variant M3 morphology, short bcr3 isoform, etc.) and patients with residual disease detectable by RT-PCR at the end of consolidation courses. In those patients, addition of arsenic derivatives to induction or consolidation treatment (or both treatments together) may prove useful and is currently being tested. ATRA syndrome (now generally called APL differentiation syndrome, as it is also seen with arsenic derivatives) remains the major side effect of ATRA treatment. It occurs in 10%-15% of patients and is currently fatal in at least 10% of them. Rapid onset of CT or high dose steroids (or both) should improve its outcome. A sizeable proportion of APL patients who relapse after ATRA and CT can be durably salvaged by the same treatment followed by allogeneic or autologous stem cell transplantation, provided the transplant (in the autologous setting) is RT-PCR-negative. However, in relapsing APL arsenic derivatives (mainly arsenic trioxide) are now considered to be the reference treatment. Some of the current issues with ATRA treatment in newly diagnosed APL include whether ATRA has a role during consolidation treatment and whether arabinoside (AraC) is required in addition to anthracyclines in the chemotherapy combined to ATRA.

Treatment of acute promyelocytic leukaemia.

We review improvements achieved in the treatment of acute promyelocytic leukaemia (APL) over the last ten years. The combination of all- trans retinoic acid (ATRA) and conventional anthracycline-ARA-C chemotherapy (CT) has clearly demonstrated its superiority over CT alone (in terms of relapse and survival) in newly diagnosed APL. Combination treatment probably also reduces the incidence of initial failures, and complete remission (CR) rates greater than 90% are now regularly reported in large multicentre trials. Some randomized studies strongly suggest than prolonged maintenance treatment (for 1 or 2 years) with ATRA and low dose CT, and possibly very early introduction of anthracycline CT during induction treatment (i.e. not after ATRA) may reduce the incidence of relapse. With those treatments, the risk of relapse appears to be only 10-15%, although it remains greater in patients who initially have white blood cell counts (often associated with variant M(3)morphology, short bcr(3)isoform etc.) and patients with residual disease detectable by RT-PCR at the end of consolidation courses.ATRA syndrome remains the major side effect of ATRA treatment. It occurs in 10-15% of patients and is currently fatal in at least 10% of them. Rapid onset of CT and/or high dose steroids should improve its outcome.A sizeable proportion of APL patients who relapse after ATRA and CT can be durably salvaged by the same treatment followed by allogeneic or autologous stem cell transplantation, provided the transplant (in the autologous setting) is RT-PCR negative. Arsenic trioxide can induce CR in most APL patients refractory to ATRA and CT. It acts mainly by inducing apoptosis of APL cells. A place for arsenic trioxide earlier in the treatment of APL must currently be more precisely defined. Another issue in the treatment of APL is reducing the toxicity of first line treatment without increasing the relapse risk. Preliminary findings suggest that this could be achieved by consolidation CT using an anthracycline alone, without cytarabine.

Incidence, clinical features, and outcome of all trans-retinoic acid syndrome in 413 cases of newly diagnosed acute promyelocytic leukemia. The European APL Group.

All trans-retinoic acid (ATRA) syndrome is a life-threatening complication of uncertain pathogenesis that can occur during the treatment of acute promyelocytic leukemia (APL) by ATRA. Since its initial description, however, no large series of ATRA syndrome has been reported in detail. We analyzed cases of ATRA syndrome observed in an ongoing European trial of treatment of newly diagnosed APL. In this trial, patients 65 years of age or less with an initial white blood cell count (WBC) less than 5,000/microL were initially randomized between ATRA followed by chemotherapy (CT) (ATRA-->CT group) or ATRA with CT started on day 3; patients with WBC greater than 5,000/microL received ATRA and CT from day 1; patients aged 66 to 75 received ATRA-->CT. In patients with initial WBC less than 5, 000/microL and allocated to ATRA-->CT, CT was rapidly added if WBC was greater than 6,000, 10,000, 15,000/microL by days 5, 10, and 15 of ATRA treatment. A total of 64 (15%) of the 413 patients included in this trial experienced ATRA syndrome during induction treatment. Clinical signs developed after a median of 7 days (range, 0 to 35 days). In two of them, they were in fact present before the onset of ATRA. In 11 patients, they occurred upon recovery from the phase of aplasia due to the addition of CT. Respiratory distress (89% of the patients), fever (81%), pulmonary infiltrates (81%), weight gain (50%), pleural effusion (47%), renal failure (39%), pericardial effusion (19%), cardiac failure (17%), and hypotension (12%) were the main clinical signs, and 63 of the 64 patients had at least three of them. Thirteen patients required mechanical ventilation and two dialysis. A total of 60 patients received CT in addition to ATRA as per protocol or based on increasing WBC; 58 also received high dose dexamethasone (DXM); ATRA was stopped when clinical signs developed in 30 patients. A total of 55 patients (86%) who experienced ATRA syndrome achieved complete remission (CR), as compared with 94% of patients who had no ATRA syndrome (P = .07) and nine (14%) died of ATRA syndrome (5 cases), sepsis (2 cases), leukemic resistance (1 patient), and central nervous system (CNS) bleeding (1 patient). None of the patients who achieved CR and received ATRA for maintenance had ATRA syndrome recurrence. No significant predictive factors of ATRA syndrome, including pretreatment WBC, could be found. Kaplan Meier estimates of relapse, event-free survival (EFS), and survival at 2 years were 32% +/- 10%, 63% +/- 8%, and 68% +/- 7% in patients who had ATRA syndrome as compared with 15% +/- 3%, 77% +/- 2%, and 80% +/- 2% in patients who had no ATRA syndrome (P = .05, P = .003, and P = .03), respectively. In a stepwise Cox model that also included pretreatment prognostic variables, ATRA syndrome remained predictive for EFS and survival. In conclusion, in this multicenter trial where CT was rapidly added to ATRA in case of high or increasing WBC counts and DXM generally also used at the earliest clinical sign, the incidence of ATRA syndrome was 15%, but ATRA syndrome was responsible for death in only 1.2% of the total number of patients treated. However, occurrence of ATRA syndrome was associated with lower EFS and survival.

Is acute promyelocytic leukemia a curable disease? Treatment strategy for a long-term survival.

The major cause of early death in acute promyelocytic leukemia (APL), the high risk of a bleeding diathesis is now successfully counteracted within a few days by differentiation therapy using ATRA. Moreover, no resistance to this drug has been recorded during induction when the usual presence of PML/RAR alpha was confirmed by molecular study (some M3 cases do lack rearrangement of PML/RAR alpha). Paradoxically, a hypercoagulable clotting tendency may occur in these patients during the first month of ATRA treatment. Leucocyte activation (retinoic acid syndrome), often secondary to hyperleukocytosis, is prevented by early addition of chemotherapy when WBCs exceed defined limits, and is successfully treated by high dose corticosteroids. Routine acquired progressive in vivo resistance to all trans retinoic acid (ATRA) requires consolidation of ATRA-induced complete remission (CR) with intensive chemotherapy. Prevention of relapses using maintenance therapy is questionable and has not been tested in randomized trials. Actually the event-free survival of APL patients treated by the combination of ATRA and chemotherapy is 80% at 1 year, and the cure of 50% of patients is within our reach.

Is acute promyelocytic leukemia a curable disease? Treatment strategy for a long-term survival.

The major cause of early death in acute promyelocytic leukemia (APL), the high risk of a bleeding diathesis is now successfully counteracted within a few days by differentiation therapy using ATRA. Moreover, no resistance to this drug has been recorded during induction when the usual presence of PML/RAR alpha was confirmed by molecular study (some M3 cases do lack rearrangement of PML/RAR alpha). Paradoxically, a hypercoagulable clotting tendency may occur in these patients during the first month of ATRA treatment. Leucocyte activation (retinoic acid syndrome), often secondary to hyperleukocytosis, is prevented by early addition of chemotherapy when WBCs exceed defined limits, and is successfully treated by high dose corticosteroids. Routine acquired progressive in vivo resistance to all trans retinoic acid (ATRA) requires consolidation of ATRA-induced complete remission (CR) with intensive chemotherapy. Prevention of relapses using maintenance therapy is questionable and has not been tested in randomized trials. Actually the event-free survival of APL patients treated by the combination of ATRA and chemotherapy is 80% at 1 year, and the cure of 50% of patients is within our reach.

Combined therapy with all-trans-retinoic acid and high-dose chemotherapy in patients with hyperleukocytic acute promyelocytic leukemia and severe visceral hemorrhage.

Acute promyelocytic leukemia (APL) is associated with a high incidence of disseminated intravascular coagulation (DIC) and early hemorrhagic death. The risk of early fatal hemorrhage is increased when high peripheral-blood blast count and severe DIC accompanied by visceral hemorrhage are present at diagnosis. Progressive cytolysis induced by daily increased doses of chemotherapy, or differentiation all-trans-retinoic acid (ATRA) therapy have been proposed for initial control of DIC, but both are dangerous in hyperleukocytic APL patients. We report our results obtained in three high-risk APL patients treated with a combination of conventional chemotherapy and ATRA. All patients had documented hyperleukocytic APL [M3 or M3-variant subtype, (15, 17) translocation] with DIC, and all had critical clinical course before treatment. Patient 1 presented with cerebral hemorrhage, patients 2 and 3 had acute respiratory failure probably due to pulmonary leukemic infiltration and pulmonary hemorrhage. In order to minimize the severity of DIC during chemotherapy-induced acute cytolysis, ATRA (45 mg/m2 per day) was started on the first or second day of chemotherapy and withdrawn when complete remission (CR) was achieved. Despite adverse clinical features, CR was obtained in these three high-risk patients. Patient 1 showed no increase of cerebral bleeding during therapy. Patients 2 and 3 required transient intensive care, with mechanical ventilation from day 4 to day 11 for one of them. Differentiating granular cells were present in peripheral blood of all patients from the day 5, 12 and 8 of cytotoxic therapy. For the three patients, the number of days with white blood cell count < 1 x 10(9)/l was only 2, 7 and 11 days respectively. These results suggest that differentiation therapy with ATRA may be useful even in hyperleukocytic APL patients, when ATRA is used in combination with chemotherapy. The mechanisms of this putative beneficial effect are discussed.

[Autografts of blood cells at various stages]. / Autogreffes à partir des cellules souches sanguines.

Thirty-nine patients with acute myeloblastic or lymphoblastic leukaemia had peripheral blood mononuclear cells collected by 3 continuous-flow leukapheresis as they entered first remission after induction chemotherapy. CFU-GM were assayed as a measure of the number of haemopoietic stem cells in each collection. Numbers of CFU-GM harvested varied among the patients (for example 0.27 to 155.10(4)/kg for ANLL patients). Nineteen patients underwent peripheral blood stem cells autografts after a conditioning regimen with high dose cyclophosphamide and TBI. The patients were transfused with a median of 2.2.10(4)/kg CFU-GM cells (0.28 to 100.10(4) CFU-GM/kg). Only 1 patient had a graft failure. The rate of haemopoietic recovery was studied for our patients and those reported in the literature. A strong correlation exists between the numbers of CFU-GM transfused and the rate of granulocytes and platelets recovery. Very rapid recovery are regularly obtained when the number of CFU-GM transfused is superior to 5.10(4)/kg.

Clinical activity of detorubicin: a new anthracycline derivative.

The anthracycline derivatives are intercalating drugs which are of major importance in the treatment of leukemias and in the management of solid tumors. Structural analogs have been prepared by semisynthetic modifications in an attempt to extend the spectrum of antitumor activity and to reduce toxicity (acute myelosuppression and cardiotoxicity). This report concerns our preliminary clinical experience in 111 patients who received detorubicin. Two dose schedules were used in acute leukemia patients. Sequential doses were active in acute leukemia relapses but the mucous membrane toxicity was excessive; more recently, intermittent doses proved active in acute leukemia relapses (one 6-mg/kg dose) and in a patient with resistant Burkitt's lymphoma. In non-Hodgkin's lymphomas, a complete response rate of 71% was achieved with an intermittent schedule (3 mg/kg/day X 3 weeks). A remarkable shrinkage of skin involvement was also observed. Detorubicin showed a high activity in mycosis fungoides (five regressions among six patients) and some activity in soft tissue sarcomas, osteosarcomas, and various solid tumors.