T-cell acute lymphoblastic leukemia (T-ALL) is a rare disease usually treated with intensive, high-dose consolidation chemotherapy followed by an allotransplant in a substantial number of patients. The data of the RALL-2009 study on 125 adult T-ALL patients suggest that similar total chemotherapy doses given less intensively over a longer interval without interruptions and with an auto- rather than an allotransplant produce outcomes like current more intensive protocols and an allotransplant: 9-year cumulative incidence of relapse (CIR), leukemia-free survival (LFS), and survival were 24% (95% CI 16–33%), 70% (95% CI 59–79%) and 62% (95% CI 51–72%). In a landmark analysis, subjects achieving a complete remission and receiving an autotransplant had a lower 9-year CIR (9% [95% CI 2–22%] vs. 29% [95% CI 16–43%]; p = 0.0076) and better LFS (91% [95% CI 79–98%] vs. 58% [95% CI 41–74%]; p = 0.0009) and survival (92% [95% CI 77–99%] vs. 60% [95% CI 44–77%]; p = 0.001) compared with subjects not receiving an autotransplant. In a multivariate analysis, white blood cells ≥100 × 109/L at study entry were significantly associated with worse LFS (HR = 2.842 [95% CI 1.131–7.143]; p = 0.0263) and survival (HR = 6.085 [95% CI 1.918–19.3]; p = 0.0022) because of more early deaths (HR = 2.42 [95% CI 1.04–5.67]; p = 0.041). Receiving an autotransplant correlated with a lower CIR (HR = 0.23 [95% CI 0.07–0.73]; p = 0.0136) and better LFS (HR = 0.27 [95% CI 0.08–0.85]; p = 0.0256) and survival (HR = 0.158 [95% CI 0.045–0.550]; p = 0.0037).
Objective. To evaluate occurrence, variety, structural peculiarities and prognostic meaning of cytogenetic abnormalities in adult patients with Ph-negative acute lymphoblastic leukemia (ALL) receiving therapy according to ALL-2009 protocol. Materials and methods. The study included 115 adult patients with firstly diagnosed Ph-negative ALL: 58 male and 57 female aged from 15 to 61 years (mean age 26.5 years), who underwent treatment from September 2009 to September 2015 in National Medical Research Center for Hematology MH RF (n=101) and in hematology departments of regional hospitals (n=14). All patients received therapy of ALL-2009 protocol (ClinicalTrials.gov, NCT01193933). The median follow-up was 24.5 months (0.2-94.4 months). As a part of the study results of a standard cytogenetic assay (SCA) were analyzed and fluorescence hybridization in situ (FISH) with the use of DNA-probes was performed on archived biological material for structural changes in gene locuses MLL/t(11q23), с-MYC/t(8q24), TP53/ deletion 17p13, CDKN2A/ deletion 9p21, translocation t(1;19)/E2A-PBX1 и t(12;21)/ETV6-RUNX1; iAMP21 identification. Results. Karyotype was defined using SCA in 86% of patients. Normal karyotype was found in 48.5% of them, chromosome aberrations in 51.5% (structural changes were found in 19.2%, hyperploidy in 27.2%, and hypoploidy in 5.1%). In 17.2% of patients complex karyotype abnormalities were found. With the use of FISH technique aberrations were found in 67% of patients: 9p21/CDKN2A deletion in 24.3%, MLL/t(11q23) gene abnormalities in 7.8%, 17p13/TP53 deletion in 5.2%, abnormalities of c-MYC/t(8q24) in 1.7%, t(1;19)/E2A-PBX1 in 0.8%, and iAMP21 in 0.8%, other abnormalities (additional signals/absence of signals from gene locuses) in 26.4%, t(12;21)/ETV6-RUNX1 was not found. FISH technique use in addition to SCA allows to increase aberrant karyotype location from 51.5 to 67%. A statistically significant correlation of 9p21/CDKN2A deletion with high serum lactate dehydrogenase activity (p=0.02); MLL/t(11q23) gene abnormalities - with leucocytosis and high blast cells level in blood (p=0.0016), hyperploidy - with normal leukocyte count (p=0.02) was shown. In groups with different cytogenetic abnormalities no statistically significant differences of treatment with ALL-2009 protocol were found (in terms of complete remission, early mortality and treatment resistance). When connection of cytogenetic abnormalities and their combinations with long-term results were analyzed according to ALL-2009 protocol, only two characteristics - MLL/t(11q23) and c MYC/t(8q24) gene abnormalities had a statistically significant influence on disease-free survival (HR - 176.9; p
4840 The causes of drug resistance in acute leukemias (AL) have been studied very intensively and the key research was done on Bcl-2 family proteins. Last studies have showed that high level Bcl-2 expression in acute leukemia is really associated with drug resistance andpoor prognosis [Haematologica 2007, U. Testa]. It was demonstrated that lower Bax/Bcl-2 ratio (<0,3) was associated with FAB M0-M1 classes (p=.00001), poor-risk cytogenetics and poor prognosis [Blood 2003, G. Poeta]. But there were no studies on the dynamic evaluation of Bcl2 and Bax expression on CD34+ cells during chemotherapy. Renin-angiotensin system and angiotensin concertin enzyme (ACE) influence on leukogenesis is extensively investigated. It was reported that ACE expression on blast cells is high [Leuk Lymphoma 2006, S. Aksu]. Recent publications indicate that primitive hematopoietic precursors have different characteristics regarding ACE: CD34+ACE+cells transplanted into NOD/SCID mice contribute 10-fold higher numbers of multilineage blood cells than their CD34+ACE- counterparts and contain a significantly higher incidence of SCID-repopulating cells than the unfractionated CD34+ population [Blood 2008, V. Jokubaitis]. But it's still unknown how CD34+ACE+ cells in AL behave on and after chemotherapy. We have studied the dynamics of Bcl-2 and Bax expression by flow cytometry in CD34+ cells of peripheral blood (PB) and bone marrow (BM) in pts with AL. PB and BM samples were collected before treatment, on days +8, +36, only PB - on day + 21. Bcl-2 and Bax were detected on CD34+ cells by flow cytometry using specific monoclonal antibodies: CD34 (8G12, BD), Bcl-2 (100, BD), Bax (2D2, Santa Cruz). ACE (9B9, BD) expression was also evaluated. We calculated 10 000 cells in each sample. 10 pts were included in the study: 4 AML, 6 ALL. The control group comprised 4 healthy donors. At time of diagnosis CD34+ cells number in BM was 38,7%± 9,75, in PB - 38,3%± 8,14 in AL pts, not differing much in AML and ALL, and indicating blast cells population. CD34+ cells numbers in BM and PB of healthy donors were 1,35% and 0,23%, respectively. After induction therapy and WBC recovery (days +36-38) CD34+ cells number in AL pts decreased dramatically in BM to 3,83%±1,51 (p=0,001) and in PB to 0,98%± 0,29 (p=0,0001), indicating the efficacy of chemotherapy. The dynamics of Bcl-2, Bax and ACE expression on CD34+ cells of BM and PB in AL pts are presented in fig.1-6 As seen in the fig.1,2 CD34/Bcl-2 expression in BM is significantly higher (p=0,04) and in PB is similar in AL pts at the diagnosis comparing with donors. It's also worth to note that BM and PB CD34+ cells in donors had different expression characteristics of Bcl-2 demonstrating much higher level of antiapoptotic marker in PB cells. On the contrast CD34+ AL cells in BM and PB had similar characteristics regarding CD34/Bcl-2 expression. This expression level decreased substantially in BM at day +36 comparing with day 0 (p=0,04), but it never reached the donors level remaining extremely high and supposing the persistence of antiapoptotic activity in CD34+ cells in AL pts. It did not change at all during chemotherapy in PB cells, being identical to donors characteristics. The fig.2,3 demonstrate that, CD34/Bax expression in BM is almost 3-times higher (p=0,14) and in PB is twice lower (p=0,02) in AL pts in comparison with donors. It's interesting that CD34/Bax expression in leukemic BM and PB cells looks very similar, when in donors we had very low expression in BM and high - in PB. This fact demonstrates the heterogeneity of donor CD34+cells in BM and PB and points that leukemia CD34+cells in BM and PB are rather similar in Bax expression. Chemotherapy caused the significant augmentation of CD34/Bax expression in PB on day +8 (p=0,01) and near significant on day +21 (p= 0,09) showing the increased level of “dieing” cells in PB after cytostatic influence. The fig. 5,6 show that CD34/ACE coexpression in BM cells of AL pts and donors did not differ much at any time of evaluation. But CD34/ACE expression in PB cells of AL pts was much lower (p=0,02) than in donors and substantially increased at day +36 almost reaching the donor level. We may conclude that Bcl-2, Bax, ACE expression on CD34+ cells in AL pts and donors significantly differs, the dynamics of expression in AL while chemotherapy shows critical changes in CD34/Bcl-2 expression in BM, CD34/Bax and CD34/ACE in PB. Disclosures: No relevant conflicts of interest to declare.
Chronic myeloproliferative disease that is characterized by the JAK2 V617F mutation, borderline hemoglobin counts, and morphological features of a bone marrow trephine biopsy specimen, which are specific for PV, is an independent PV variant, namely: latent PV.
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