G. J. L. Kaspers

Relation between age, immunophenotype and in vitro drug resistance in 395 children with acute lymphoblastic leukemia : Implications for treatment of infants

The prognosis of infant ALL, characterized by a high incidence of the immature CD10 negative B-lineage ALL (proB ALL) is poor. This study aimed to determine the resistance profile of infant ALL cells. In vitro drug resistance was determined by the MTT assay of 395 children with ALL at initial diagnosis: there were 21 infants <1.5 years of which nine <1 year, 284 children aged 1.5–10 years (intermediate age group) and 90 children >10 years. Immunophenotyping resulted in 310 cALL/preB ALL, 69 T-ALL, 15 proB ALL and one unknown cases. The following drugs were tested: daunorubicin, doxorubicin, mitoxantrone, idarubicin (Ida), prednisolone (Pred), dexamethasone (DXM), vincristine (VCR), Asparaginase (Asp), 6-MP, 6-TG, AraC, VM26 and 4-HOO-ifosfamide (Ifos). Infants <1.5 years were significantly more resistant to pred (>500-fold), Asp (11-fold) and VM26 (2.7-fold) but significantly more sensitive to Ara-C (2.3-fold) compared to the intermediate age group. When analyzing infants <1 year of age similar results were found. prob all cells (seven infants <1.5 years; eight children >1.5 years) were significantly more resistant to glucocorticoids, Asp, thiopurines, anthracyclines and Ifos compared to cALL/preB ALL but more sensitive to Ara-C. Cells from children >10 years were significantly more resistant to Pred, DXM, Asp, Ida and 6-MP. T-ALL cells showed a strong resistance to Pred, Asp and VCR and a mild but significant resistance to all other drugs except thiopurines and VM26. We conclude that the poor prognosis of infant ALL is associated with a resistance to glucocorticoids and Asp. However, ALL cells from infants show a relatively high sensitivity to Ara-C which suggests that infants with ALL might benefit from treatment schedules that incorporate more Ara-C than the current treatment protocols.

Patient Stratification Based on Prednisolone-Vincristine-Asparaginase Resistance Profiles in Children With Acute Lymphoblastic Leukemia

PURPOSE To confirm the prognostic value of a drug resistance profile combining prednisolone, vincristine, and l-asparaginase (PVA) cytotoxicity in an independent group of children with acute lymphoblastic leukemia (ALL) treated with a different protocol and analyzed at longer follow-up compared with our previous study of patients treated according to the Dutch Childhood Leukemia Study Group (DCLSG) ALL VII/VIII protocol. PATIENTS AND METHODS Drug resistance profiles were determined in 202 children (aged 1 to 18 years) with newly diagnosed ALL who were treated according to the German Cooperative Study Group for Childhood Acute Lymphoblastic Leukemia (COALL)-92 protocol. RESULTS At a median follow-up of 6.2 years (range, 4.1 to 9.3 years), the 5-year disease-free survival probability (pDFS) rate +/- SE was 69% +/- 7.0%, 83% +/- 4.4%, and 84% +/- 6.8% for patients with resistant (PVA score 7 to 9), intermediate-sensitive (PVA score 5 to 6), and sensitive (SPVA score 3 to 4) profiles, respectively (sensitive and intermediate-sensitive v resistant, P </=.05). Resistant patients were at increased risk of an early event (nonresponse or relapse within 2.5 years of diagnosis) compared with sensitive and intermediate-sensitive patients (P =.03). The profile did not identify patients at higher risk of late relapse, which was also observed for DCLSG ALL-VII/VIII patients now analyzed at a median of 7.5 years of follow-up (range, 4.4 to 10.8 years). Despite being nondiscriminative for late relapses, the resistant profile was still the strongest prognostic factor for COALL-92 patients in a multivariate analysis including known risk factors (P =.07). CONCLUSION Drug resistance profiles identify patients at higher risk of early treatment failures and may, therefore, be used to improve risk-group stratification of children with ALL.

Pediatric acute myeloid leukemia: international progress and future directions

The prognosis of pediatric acute myeloid leukemia (AML) has improved significantly over the past decades. However, few papers have actually illustrated this improvement, and many articles report on outcome data with relatively short follow-up. Another problem in the literature on pediatric AML is that outcome data of different study groups are difficult to compare, because the patient groups are not defined in a similar way. Differences concern age, inclusion of secondary AML, myeloid leukemia of Down’s syndrome and others. Therefore, analogous to the Leukemia issue on pediatric acute lymphoblastic leukemia (ALL), we invited groups from all over the world to describe their experiences on pediatric AML according to specific guidelines. The platform of the International BFM Study Group and the so-called International Pediatric AML Group enabled coordinating this effort. Manuscripts had to deal with at least two consecutive studies, long-term follow-up on all patients, and with data analysed in a more or less standardised way with the AML-BFM paper as standard. Manuscripts also had to include sub-group analyses and an analysis on a well-defined core group of patients (Table 1). We are pleased that this project succeeded, and that this issue contains 13 original manuscripts from as many groups on pediatric AML. Table 2 summarises the most recently completed and matured studies concerning this core group of patients. Intentionally, also some groups active in less-privileged countries were invited to participate in this project. The treatment of AML usually requires more facilities than for ALL, and in these countries as well the care for pediatric AML patients should be an important issue. Indeed, the far majority of children with AML are being diagnosed and treated in such countries. A potential advantage from this special issue of Leukemia, is the possibility to identify apparently different treatment outcomes of AML subgroups among the study groups, although such differences must be interpreted with caution. This may elicit hypotheses about optimisation of subgroup-directed therapy. The strategies of the study groups have many similarities, such as risk-group directed treatment, the use of the same drugs (cytarabine, anthracycline and etoposide), and blockwise therapy. However, there also are many differences even today, such as the number, design and intensity of blocks given, cumulative doses of the most important drugs (anthracyclines and related drugs, cytarabine and etoposide), indications for allogeneic stem cell transplantation (SCT) and its scheduling, the use of cranial irradiation and intrathecal chemotherapy for prophylaxis of CNS relapse, and the use of maintenance treatment. Despite the different strategies, most larger and established groups report more or less similar outcome, as is being summarised in more detail in the next section and in Table 2. Then, quality of life and late effects become more important when comparing strategies. Unfortunately, such information is largely lacking. Overall, a huge improvement in the prognosis of children and adolescents with AML has been accomplished. This is illustrated in this special issue of Leukemia, which also should serve to suggest and identify possibilities for further improvements. Concerning the international results presented in this issue of Leukemia, all groups report an improved outcome over time. Although not always statistically significant, rates of early death and death in CR declined, complete remission rates increased, relapse rates decreased and therefore, event-free survival (EFS) rates increased. Overall survival rates may also have increased because of more and more successful attempts to cure children with relapsed AML. Improvements can at least in part be explained by increased experience with intensive treatment, better facilities for supportive care and better risk-group stratification with subsequent risk-group adapted treatment. Indeed, the actually applied drugs have not changed much. The concept of applying relatively few but very intensive courses of combination chemotherapy in the first months is likely to explain the improved prognosis as well. Most frequent events still concern relapses, the far majority occurring in the bone marrow. The cumulative risk of relapse among the different study groups usually is around 30–40%. Central nervous system (CNS) relapses, either isolated or combined, occur in 2–9% of patients overall. However, CNS relapses contributed to 6–18% of the total number of relapses.

The human equilibrative nucleoside transporter 1 mediates in vitro cytarabine sensitivity in childhood acute myeloid leukaemia

Cytarabine (ara-C) is the most effective agent for the treatment of acute myeloid leukaemia (AML). Aberrant expression of enzymes involved in the transport/metabolism of ara-C could explain drug resistance. We determined mRNA expression of these factors using quantitative-real-time-PCR in leukemic blasts from children diagnosed with de novo AML. Expression of the inactivating enzyme pyrimidine nucleotidase-I (PN-I) was 1.8-fold lower in FAB-M5 as compared to FAB-M1/2 (P=0.007). In vitro sensitivity to deoxynucleoside analogues was determined using the MTT-assay. Human equilibrative nucleoside transporter-1 (hENT1) mRNA expression and ara-C sensitivity were significantly correlated (rp=−0.46; P=0.001), with three-fold lower hENT1 mRNA levels in resistant patients (P=0.003). hENT1 mRNA expression also seemed to correlate inversely with the LC50 values of cladribine (rp=−0.30; P=0.04), decitabine (rp=−0.29; P=0.04) and gemcitabine (rp=−0.33; P=0.02). Deoxycytidine kinase (dCK) and cytidine deaminase (CDA) mRNA expression seemed to correlate with in vitro sensitivity to gemcitabine (rp=−0.31; P=0.03) and decitabine (rp=0.33; P=0.03), respectively. The dCK/PN-I ratio correlated inversely with LC50 values for gemcitabine (rp=−0.45, P=0.001) and the dCK/CDA ratio seemed to correlate with LC50 values for decitabine (rp=−0.29; 0.04). In conclusion, decreased expression of hENT1, which transports ara-C across the cell membrane, appears to be a major factor in ara-C resistance in childhood AML.

Favorable prognostic impact of NPM1 gene mutations in childhood acute myeloid leukemia, with emphasis on cytogenetically normal AML

Nucleophosmin (NPM1) mutations occur frequently in adult cytogenetically normal acute myeloid leukemia (CN-AML) and confer favorable outcome. We investigated the frequency and prognostic significance of NPM1 mutations in childhood AML (n=298), specifically focusing on the CN-AML subgroup (n=100). Mutations were found in 8.4%, and clustered significantly in the CN-AML subgroup (22%). No mutations were found in patients below the age of 3 years; in CN-AML, there was an increasing incidence above this age. In the overall group, NPM1 mutations conferred an independent favorable prognostic impact on event-free survival (5-year pEFS 66 vs 39%; P=0.02), which did not translate into a significantly better overall survival (5-year pOS 68 vs 56%; P=0.30). However, when the favorable cytogenetic subgroups [inv(16) and t(8;21)] were excluded from the NPM1 wild-type group, the difference in pOS was borderline statistically significant (68 vs 45%; P=0.07). In the CN-AML cohort, NPM1 mutations were an independent prognostic factor on pEFS (80 vs 39%; P=0.01), and pOS (85 vs 60%; P=0.06), which was not influenced by FLT3/ITD. However, in NPM1 wild-type CN-AML, FLT3/ITD-positive patients had a significantly worse outcome (pEFS 48 vs 18%; P<0.001). We conclude that NPM1 mutations confer a favorable prognosis in childhood AML and in CN-AML in particular.

Mononuclear cells contaminating acute lymphoblastic leukaemic samples tested for cellular drug resistance using the methyl-thiazol-tetrazolium assay

The methyl-thiazol-tetrazolium (MTT) assay is a drug resistance assay which cannot discriminate between malignant and non-malignant cells. We previously reported that samples with > or = 80% leukaemic cells at the start of culture give similar results in the MTT assay and the differential staining cytotoxicity assay, in which a discrimination between malignant and non-malignant cells can be made. However, the percentage of leukaemic cells may change during culture, which might affect the results of the MTT assay. We studied 106 untreated childhood acute lymphoblastic leukemia (ALL) samples with > or = 80% leukaemic cells at the start of culture. This percentage decreased below 80% in 28%, and below 70% in 13%, of the samples after 4 days of culture. A decrease below 70% occurred more often in case of 80-89% leukaemic cells (9/29) than in case of > or = 90% leukaemic cells at the start of culture (5/77, P = 0.0009). Samples with < 70% leukaemic cells after culture were significantly more resistant to 6 out of 13 drugs, and showed a trend towards being more resistant to two more drugs, than samples with > or = 80% leukaemic cells. No such differences were seen between samples with 70-79% and samples with > or = 80% leukaemic cells after culture. We next studied in another 30 ALL samples whether contaminating mononuclear cells could be removed by using immunoamagnetic beads. Using a beads to target cell ratio of 10:1, the percentage of leukaemic cells increased from mean 72% (s.d. 9.3%) to mean 87% (s.d. 6.7%), with an absolute increase of 2-35%. The recovery of leukaemic cells was mean 82.1% (range 56-100%, s.d. 14.0%). The procedure itself did not influence the results of the MTT assay in three samples containing only leukaemic cells. We conclude that it is important to determine the percentage of leukaemic cells at the start and at the end of the MTT assay and similar drug resistance assays. Contaminating mononuclear cells can be successfully removed from ALL samples using immunomagnetic beads. This approach may increase the number of leukaemic samples which can be evaluated for cellular drug resistance with the MTT assay or a similar cell culture drug resistance assay.

In vitro drug sensitivity of normal peripheral blood lymphocytes and childhood leukaemic cells from bone marrow and peripheral blood.

In vitro drug sensitivity of leukaemic cells might be influenced by the contamination of such a sample with non-malignant cells and the sample source. To study this, sensitivity of normal peripheral blood (PB) lymphocytes to a number of cytostatic drugs was assessed with the MTT assay. We compared this sensitivity with the drug sensitivity of leukaemic cells of 38 children with acute lymphoblastic leukaemia. We also studied a possible differential sensitivity of leukaemic cells from bone marrow (BM) and PB. The following drugs were used: Prednisolone, dexamethasone, 6-mercaptopurine, 6-thioguanine, cytosine arabinoside, vincristine, vindesine, daunorubicin, doxorubicin, mafosfamide (Maf), 4-hydroperoxy-ifosfamide, teniposide, mitoxantrone, L-asparaginase, methotrexate and mustine. Normal PB lymphocytes were significantly more resistant to all drugs tested, except to Maf. Leukaemic BM and PB cells from 38 patients (unpaired samples) showed no significant differences in sensitivity to any of the drugs. Moreover, in 11 of 12 children with acute leukaemia of whom we investigated simultaneously obtained BM and PB (paired samples), their leukaemic BM and PB cells showed comparable drug sensitivity profiles. In one patient the BM cells were more sensitive to most drugs than those from the PB, but the actual differences in sensitivity were small. We conclude that the contamination of a leukaemic sample with normal PB lymphocytes will influence the results of the MTT assay. The source of the leukaemic sample, BM or PB, does not significantly influence the assay results.

Comparison of the Antileukemic Activity In Vitro of Dexamethasone and Prednisolone in Childhood Acute Lymphoblastic Leukemia

It is generally assumed that prednisolone (PRD) and dexamethasone (DXM) have equal glucocorticoid activity of PRD is given at sevenfold higher doses. Results of clinical studies of childhood acute lymphoblastic leukemia (ALL) suggested that DXM is more potent relative to PRD than assumed. The purpose of this study was to determine the relative antileukemic activity of PRD phosphate and DXM phosphate in 133 untreated childhood ALL samples in vitro, using the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium-bromide (MTT) assay. There was a marked variation in antileukemic activity of both agents among the patient samples. The median LC50 (drug concentration lethal to 50% of the ALL cells) for PRD phosphate was 3.50 microM, for DXM phosphate 0.20 microM. The individually calculated ratios of the LC50 values for PRD and DXM phosphate showed a large range from 0.7 to >500, with a median of 16.2. This 16-fold difference could not be explained by differences between these glucocorticoids in stability, hydrolysis into unesterified drug, adhesion to the wall of the microculture plates, or protein binding. ALL cells were cross-resistant to PRD and DXM phosphate (correlation coefficient = 0.85, P<0.000001). We conclude that the in vitro antileukemic activity of DXM phosphate is median 16-fold higher than that of PRD phosphate, which contrasts to the generally assumed factor of 7. Based on the higher potency of DXM, and its more favorable pharmacokinetics as reported in the literature, DXM may be preferred to PRD as the glucocorticoid in the treatment of ALL.

Comparison of ovarian function markers in users of hormonal contraceptives during the hormone-free interval and subsequent natural early follicular phases

OBJECTIVE The aim of this study was to evaluate whether values of FSH, LH, estradiol, anti-Müllerian hormone (AMH), inhibin B, antral follicle count (AFC) and ovarian volume (OV) determined on day 7 of the hormone-free interval are similar to values measured on days 2-5 of two subsequent natural menstrual cycles. In addition, values measured on day 7 of the hormone-free interval were examined for the purpose of predicting values measured on days 2-5 during the second natural cycle. METHODS In this study, 25 women using hormonal contraception provided a blood sample and underwent transvaginal ultrasound measurements on day 7 of the hormone-free interval and on cycle days 2-5 of two subsequent natural cycles. Changes were compared by repeated measures ANOVA and multivariate linear regression was used for prediction purposes. RESULTS Mean (SD) age of the participants was 26.3 (6.2) years. Overall significant decreases in FSH and inhibin B and significant increases in AMH, AFC and ovarian volume values were measured after discontinuation of hormonal contraception (P < 0.001, P = 0.04, P = 0.01, P < 0.001 and P = 0.004, respectively). Significant changes occurred both from day 7 of the hormone-free interval to natural cycle 1 as well as from natural cycle 1 to natural cycle 2. FSH, AMH and AFC values measured during days 2-5 of natural cycle 2 could be predicted by the corresponding values measured on day 7 of the hormone-free interval. CONCLUSION Hormonal and ultrasound markers of ovarian function in hormonal contraception users measured at the end of the hormone-free interval do not seem to represent subsequent natural early follicular phase values. However, these values can, in some cases (FSH, AMH and AFC), be used to predict early follicular phase values using calculated prediction equations, which need to be validated in future research.

Bcl-2 family members in childhood acute lymphoblastic leukemia: relationships with features at presentation, in vitro and in vivo drug response and long-term clinical outcome

We have found that, in addition to Bcl-2 and Bax, the expression levels of apoptosis inducers (Bad, Bak) and inhibitors (Bcl-xL, Mcl-1) were highly variable in blasts from 78 children with newly diagnosed acute lymphoblastic leukemia (ALL). The patients were enrolled in the national study ALL-7 of the Dutch Childhood Leukemia Study Group. In contrast to Bcl-2 that inversely correlated with %S-phase cells and WBC, and was lower in T than in B-lineage ALL, the Bcl-2 family members were not found to be associated with features at presentation. These expression levels were also compared with drug resistance in in vitro MTT (methyl-thiazol-tetrazolium) assays for prednisolone, vincristine and asparaginase in 46 children. Protein expression levels of the Bcl-2 family were not found to correlate with in vitroresistance to the individual drugs or the combined drug resistance profile. In addition, neither peripheral blast reduction after 1 week of prednisone monotherapy nor long-term disease-free interval or survival showed a correlation with protein expression. Our results indicate that the anti-proliferative function of Bcl-2 dominates its anti-apoptotic function in ALL, but neither Bcl-2 nor the Bcl-2 family members gained prognostic information in the risk-adapted protocol ALL-7.