Clonal stability in late-relapsing childhood lymphoblastic leukaemia

We report stability of a clonal immunoglobulin heavy chain (IgH) gene rearrangement in a case of childhood acute lymphoblastic leukaemia (ALL) relapsing 17 years after completion of first-line therapy. Clonal stability was shown by polymerase chain reaction amplification of the hypervariable CDRIII region of IgH gene. Identically sized products from the original diagnostic and the second presentation samples were obtained and direct sequencing confirmed complete sequence homology. Absence of clonal evolution together with recent reports of persistent minimal residual disease in patients in long-term complete remission, suggests that ‘cure’ of childhood ALL may be critically dependent on effective immune surveillance to keep such disease below clinically significant levels.     

Assessment of clonal evolution at Ig/TCR loci in acute lymphoblastic leukaemia by single-strand conformation polymorphism studies and highly resolutive PCR derived methods: implication for a general strategy of minimal residual disease detection

Junctional sequences of immunoglobulin (Ig)/T-cell receptor (TCR) gene rearrangements are used as patient-specific PCR targets for the detection of minimal residual disease (MRD) in acute lymphoblastic leukaemias (ALLs). Clonal evolution of gene rearrangements is a major pitfall of this strategy. Using high-resolution PCR-based analyses (including denaturing gel electrophoresis and single-stranded conformation polymorphism (SSCP)) we have compared Ig/TCR gene rearrangements at presentation and relapse in a series of ALLs. These methods allow an unambigous comparison of rearrangements taking into account junctional size and nucleotide sequence information and allow a precise assessment of the clonal evolution. V7-J7 and V6j-J6i rearrangements were analysed in 12 T-ALLs. V_H-J_H, V7-J7, V62-D63 and, in selected cases, DH-JH rearrangements were studied in 14 B-lineage ALLs. Clonal evolution, regarding major rearrangements, occurs for at least one of these loci in 2/12 T-ALLs and in 5/14 B-lineage ALLs. Clonal evolution is more marked for minor rearrangements than for major ones. As shown using SSCP analysis, rearrangements observed at relapse are sometimes found in minor clones at presentation which are therefore selected in vivo by a proliferative advantage. These data, as well as those from the available literature, suggest the use of at least two patient-specific probes to detect MRD in ALLs. A general strategy including selected Ig/TCR rearrangements and chromosomal abnormalities as PCR targets is proposed.     

Relapse of acute lymphoblastic leukaemia 14 years after presentation: use of molecular techniques to confirm true re-emergence

SUMMARY. Late relapse after successful treatment of acute lymphoblastic leukaemia (ALL) in children is well recognized but rare. It is often uncertain whether this represents a true relapse of the original disease or a second malignancy. We present the case of a patient who relapsed 14 years after the original diagnosis of childhood ALL in whom both the orignal leukaemic cells and those taken at relapse had an identical T cell receptor gamma (TCRG) gene rearrangement. This analysis confirms that this relapse is a true re-emergence of the patient's original disease. The term 'cure' should be used with caution in childhood ALL, even after long periods in continuous remission.     

New treatment strategies in childhood acute lymphoblastic leukaemia

Today, 80% of paediatric patients with acute lymphoblastic leukaemia (ALL) can be cured. To reduce the rate of relapses, but also to limit treatment morbidity, risk-adapted treatment has been attempted after identifying the most specific prognostic factors. In addition to clinical factors (e.g. age, WBC), the immunophenotype and cytogenetic results, the early in vivo treatment response as determined by cytology had evolved as the most important predictor for relapse. The lack of specificity of most prognostic factors stimulated the search for more relevant parameters. Detection of minimal residual disease (MRD) at defined time points by identifying clone-specific T-cell receptor- (TCR) or immunoglobulin (Ig) gene rearrangements can provide new, highly specific prognostic information which allows definition of new risk groups. The high sensitivity of the method is a prerequisite for applying treatment reduction in patients with fast clearance of leukaemia. Persistent disease is an indication for treatment modification and intensification. Logistics and quality control are demanding but are essential for the introduction of this new technology into clinical practice.     

A prospective study of minimal residual disease in childhood B-lineage acute lymphoblastic leukaemia: MRD level at the end of induction is a strong predictive factor of relapse

We prospectively investigated minimal residual disease (MRD) in 51 children with B-lineage acute lymphoblastic leukaemia (ALL) treated according to the Fralle 93 protocol. PCR follow-up was performed in children in morphological and cytogenetic complete remission, provided an immunoglobulin (IgH) gene rearrangement could be detected using FR3/J_H amplimers. MRD was studied according to our previously described methodology, with a few modifications including the use of a consensus J_H probe to control for PCR efficiency variations. Out of the initial 51 patients, 34 were assessable for MRD at the end of induction at the time of analysis. MRD levels were as follows: >1/10³ in 26%, 1/10³ to 1/10⁴ in 50% and <1/10⁴ or not detectable in 24%. With a median follow-up of 20 months there were five relapses, all of which occurred in the group of patients with MRD >1/10³. To date, none of the patients with MRD 1/10³ (good molecular responder) has relapsed. Classification according to molecular response at the end of induction did not correlate with the conventional risks groups: there were no statistically significant differences between good and bad molecular responders. Of particular interest is the absence of correlation between WBC at diagnosis and MRD level at the end of induction. We conclude that classification of patients into good and bad molecular responders using PCR seems to be a better prognostic indicator than conventional risk factors in childhood B-lineage ALL. Patients with MRD level >1/10³ have a particularly poor outcome and should always be considered for alternative therapeutic strategies in the future, whereas in good molecular responders belonging to poor or intermediate risk categories, treatment de-escalation might be contemplated.     

A second course of treatment for childhood acute lymphoblastic leukaemia: long-term follow-up is needed to assess results

We report the results of long-term follow-up of 94 children who completed treatment for acute lymphoblastic leukaemia (ALL) between 1974 and 1986 and subsequently experienced a bone marrow relapse before 1992. 91 children received further induction, intensification and CNS directed therapy; 19 proceeded to BMT or ABMT and the remainder were treated on one of three protocols which increased in intensity. The duration of second remission improved significantly with increasing intensity of treatment and bone marrow transplantion was followed by fewer relapses than chemotherapy. Analysis of factors influencing the duration of second remission showed that only length of first remission was of additional significance; the median duration of second remission being only 19 months in children with a first remission of less than 4 years and 62 months in those with longer first remissions. 29 children electively stopped chemotherapy a second time but only 11 of these remain still in second remission with recurrences occurring for up to 7 years from the the time first relapse. Only three of the 24 longterm survivors had no significant late effects of treatment; these were most marked in children who had received a second course of radiotherapy. We conclude that very long follow-up is necessary to determine whether patients may be successfully re-treated following late bone marrow relapse and that all such treatment is associated with a high incidence of late effects.     

Minimal residual disease assessment in childhood acute lymphoblastic leukaemia: a Swedish multi-centre study comparing real-time polymerase chain reaction and multicolour flow cytometry

Minimal residual disease (MRD) assessment is a powerful prognostic factor for determining the risk of relapse in childhood acute lymphoblastic leukaemia (ALL). In this Swedish multi-centre study of childhood ALL diagnosed between 2002 and 2006, the MRD levels were analysed in 726 follow-up samples in 228 children using real-time quantitative polymerase chain reaction (RQ-PCR) of rearranged immunoglobulin/T-cell receptor genes and multicolour flow cytometry (FCM). Using an MRD threshold of 0·1%, which was the sensitivity level reached in all analyses, the concordance between RQ-PCR and FCM MRD values at day 29 was 84%. In B-cell precursor ALL, an MRD level of ≥0·1% at day 29 predicted a higher risk of bone marrow relapse (BMR) with both methods, although FCM was a better discriminator. However, considering the higher median MRD values achieved with RQ-PCR, a higher MRD cut-off (≥0·2%) improved the predictive capacity of RQ-PCR. In T-ALL, RQ-PCR was notably superior to FCM in predicting risk of BMR. That notwithstanding, MRD levels of ≥0·1%, detected by either method at day 29, could not predict isolated extramedullary relapse. In conclusion, the concordance between RQ-PCR and FCM was high and hence both methods are valuable clinical tools for identifying childhood ALL cases with increased risk of BMR.     

T-cell acute lymphoblastic leukaemia: recent molecular biology findings

For many years, T-cell acute lymphoblastic leukaemia (T-ALL) has been considered and treated as a single malignancy, but divergent outcomes in T-ALL patients receiving uniform treatment protocols encouraged intensive research on the molecular biology of this disease. Recent findings in the field demonstrate that T-ALL is much more heterogeneous than originally believed and extremely diverse outcomes of patients require refinement of T-ALL classification, leading to subtype-specific adjustment of treatment. Many different biological features of T-ALL blast cells have recently been found to contribute to disease development and patient outcome and their analysis could potentially be introduced into improved diagnostics and classification of the disease. This review focuses on five key issues of T-ALL biology: chromosome aberrations, gene expression profiles, gene mutations, DNA methylation patterns, and immunoglobulin/T cell receptor (Ig/TCR) gene rearrangements. Additionally, molecular monitoring of minimal residual disease, by far the most reliable independent prognostic factor in T-ALL, has been highlighted in the context of Ig/TCR gene rearrangements. Translation of this biological information into better prognostic classification and more effective treatment should lead to improvement of outcome in T-ALL patients.     

ALL R-87 protocol in the treatment of children with acute lymphoblastic leukaemia in early bone marrow relapse

Seventy-three children with acute lymphoblastic leukaemia (ALL) in first bone marrow (BM) relapse, occurring within 30 months from complete remission (CR), were enrolled in an Italian cooperative study (ALL R-87 protocol). This treatment programme consisted of an induction phase with intermediate-dose cytarabine (IDARA-C) plus idarubicin (IDA) and prednisone (PDN), followed by a multidrug consolidation therapy and bone marrow transplant (BMT). 55/73 children achieved CR (75.3%); 15 (20.5%) failed to respond and three (4.2%) died during induction. The response rate was significantly higher for children with a first CR duration 12 months (P = 0.0005) and for those with a white blood cell (WBC) count at relapse <20 × 10⁹/l (P=0.004). The estimated disease-free survival (DFS ± SE) at 82 months was 0.18 ± 0.05 for all responders, and 0.70 ± 0.14 for allotransplanted patients versus 0.05 ± 0.05 for those autografted (P = 0.001). The estimated probabilities of survival ± SE and event-free survival (EFS ± SE) at 83 months were 0.16 ± 0.07 and 0.13 ± 0.04, respectively, for all enrolled children. Univariate analysis showed that age <10 years at initial diagnosis and B-lineage immunophenotype favourably influenced both DFS (P = 0.001) and EFS probabilities (P = 0.0014 and P = 0.012, respectively), whereas a first CR duration 12 months and a WBC count at relapse <20 × 10⁹/l were associated only with a better EFS rate (P = 0.026 and P = 0.004, respectively). Our results show the efficacy of the IDA plus IDARA-C schedule used in the ALL R-87 protocol in high-risk relapsed ALL children. Allogeneic BMT proved effective for patients with an HLA sibling donor. In a multivariate analysis, age 10 years at initial diagnosis (P = 0.016) and WBC count at relapse 20 × 10⁹/l (P = 0.048) were independently associated with a worse disease outcome.     

Low frequency of clonotypic Ig and T-cell receptor gene rearrangements in t(4;11) infant acute lymphoblastic leukaemia and its implication for the detection of minimal residual disease

Infant t(4;11) acute lymphoblastic leukaemia (ALL) is a rare but cytogenetically well defined subgroup of immature B-cell precursor (BCP) ALL. To date, the configuration of their antigen receptor genes has not been studied in a large group of patients so far. In this study on 27 t(4;11) infant ALL, we have used standardized primer sets for the detection of all incomplete and complete immunoglobulin (Ig) heavy chain (IGH) rearrangements, as well as for the Ig light chain kappa (IGK), T-cell receptor delta (TCRD) and gamma (TCRG) rearrangements that are most common in childhood BCP ALL. Only 52% of cases displayed clonotypic antigen receptor gene rearrangements (IGH in 48%, IGK, TCRD and TCRG in 12%, 41% and 6% respectively). This low frequency suggests, together with the findings of predominantly incomplete DJh joins and monoallelic IGH rearrangements, that they are derived from an immature progenitor cell. As 48% of the t(4;11) infant ALL cases had no detectable antigen receptor gene rearrangements that could be used for minimal residual disease (MRD) analysis, we established an expression-independent, leukaemia-specific polymerase chain reaction (PCR) using the genomic sequence of the MLL-AF4 fusion genes. This method had high sensitivity and specificity and resulted in identical estimations of tumour loads when compared with IGH targets. Thus, genomic MLL-AF4 fusion genes are a good alternative target for the analysis of MRD in patients with t(4;11) leukaemias.     

Minimal residual disease detection after allogeneic stem cell transplantation is correlated to relapse in patients with acute lymphoblastic leukaemia

Minimal residual disease (MRD) assessments were performed retrospectively after allogeneic stem cell transplantation (SCT) in 32 patients (23 children and nine adults) with acute lymphoblastic leukaemia (ALL). Using immunoglobulin and T-cell receptor rearrangements as clonal markers, MRD was detected after SCT in nine patients, eight of whom have relapsed. The median time between first MRD detection and relapse was 5.5 (range 0.5-30) months. In 23 patients without MRD, six have relapsed to date: lower sensitivity, central nervous system relapse and clonal exchange of the leukaemic clone were factors that may explain the failure to detect MRD before relapse in these patients. In univariate analysis, factors associated with decreased risk of relapse were transplantation in first remission (P=0.02), the combination of acute and chronic graft-versus-host disease (P=0.03) and absence of MRD after SCT (P=0.005). In multivariate analysis, only MRD detection after SCT was significantly associated with increased risk of relapse (P=0.05). In conclusion, MRD detection after SCT is correlated with relapse and provides the opportunity for initiating immunotherapeutic intervention at an early stage when the tumour cell burden is still low.     

Soluble l-selectin (sCD62L) in relapsed childhood acute lymphoblastic leukaemia

Soluble l-selectin (sCD62L) plasma concentrations at diagnosis and outcome were investigated in 193 children at first relapse of acute lymphoblastic leukaemia (ALL) after treatment according to the Berlin-Frankfurt-Münster relapsed ALL multicentre trials, ALL-REZ BFM 95 and 96. sCD62L was low (< fifth paediatric reference percentile) in 63 (33%) and high (> 95th percentile) in 36 (19%) children, and was independent of remission duration, sex, BCR-ABL fusion or extramedullary disease. High sCD62L was associated with circulating blasts and T-cell phenotype. More initial adverse events occurred in children with high and low levels of sCD62L (23 out of 99) than in those with normal levels (9 out of 94, P = 0.018). Among 75 worst-prognosis patients (risk groups S3/S4, isolated bone marrow relapse occurring less than 6 months after elective cessation of front-line therapy, or T-cell phenotype with bone marrow involvement), 27 had low sCD62L and decreased event-free survival (EFS) probability (PEFS5 = 0.09 at 5 years) and duration (219 d) compared with normal sCD62L (29 out of 75, PEFS5 = 0.24, 640 d, P = 0.01). Low (44 out of 118), normal (72 out of 118), and high (19 out of 118) sCD62L non-S3/S4 patients fared similarly (average PEFS5 = 0.45, 1369 d; P = 0.5). Low sCD62L may be a marker of malignant blasts replacing normal sCD62L-producing haematopoietic cells. In children with first relapse of ALL and worst prognosis, plasma sCD62L may be useful for risk-adapted stratification.     

Intraocular relapse of childhood acute lymphoblastic leukaemia

Relapse of childhood acute lymphoblastic leukaemia (ALL) involving the eye is a rare but challenging problem. Twenty cases occurred in patients treated on the Medical Research Council United Kingdom Acute Lymphoblastic Leukaemia XI and ALL97 trials between 1991 and 2001, representing 2.2% of ALL relapses. Seventeen occurred as a first relapse, either in isolation or combined with relapse at another site, and three occurred as a second relapse. All patients with intraocular disease at first relapse were treated with both chemotherapy and radiotherapy, but the doses and protocols used varied. Eleven of these 17 patients are alive and in complete remission with a median follow up of 4 years 2 months from relapse. All 11 children that were treated with a full chemotherapy relapse protocol, together with local radiotherapy have survived. Patients treated with chemotherapy of shorter duration and intensity, despite radiotherapy and/or bone marrow transplantation, did poorly with only one survivor, currently in chronic relapse. Consequently, we suggest that children with eye relapse of ALL be treated with an intensive relapse chemotherapy protocol with local ocular radiotherapy, whether the relapse occurs in isolation or in combination with relapse at another site.     

PCR assessment of bone marrow status in 'isolated'extramedullary relapse of childhood B-precursor acute lymphoblastic leukaemia

SUMMARY. Approximately one-third of first relapses of childhood ALL occur at an extramedullary site without morphological evidence of bone marrow disease. However, the high incidence of subsequent medullary relapse in these cases strongly suggests that leukaemia is present at submicroscopic levels at the time of 'isolated'relapse. PCR analysis of immunoglobulin heavy chain (IgH) and T-cell receptor (TCR) gene rearrangements now allows detection of leukaemia at levels as low as 0.001%. We have therefore used this technique to reassess bone marrow status at morphologically isolated relapse in 13 children with B-lineage ALL (11 with off-treatment relapses, two on treatment). In 12 of these 13 patients marrow disease was detectable by PCR at the time of this relapse—in all cases at levels below the threshold of light microscopy. Where relapse occurred off-therapy this indicated re-emergence of disease, since MRD has never been detected by PCR at this stage in patients remaining in long-term remission. In both patients who relapsed on-therapy the level of MRD at the time of relapse represented an increase on that seen in their previous marrow sample. We conclude that re-emerging bone marrow disease can be detected in most cases of 'isolated'relapse when investigated by this highly sensitive technique. Our findings at a molecular level confirm a long-held clinical suspicion and indicate that full systemic re-induction as well as local therapy is obligatory for these children.     

Unrelated donor bone marrow transplantation for children with relapsed acute lymphoblastic leukaemia in second complete remission

Allogeneic sibling bone marrow transplantation (BMT) is the recommended treatment for relapsed childhood acute lymphoblastic leukaemia (ALL), but appropriate donors are only available in 30% of cases. Unfortunately, BMT from unrelated donors (UD) has been associated with high rates of severe graft-versus-host disease (GvHD) and transplant-related mortality (TRM). In an attempt to improve outcome in UD-BMT we have assessed the impact of T-cell depletion using CAMPATH-1 (anti-CD52) monoclonal antibodies in 50 consecutively referred patients with relapsed ALL in second remission. All were previously treated according to MRC protocols UKALL X and XI, and then given chemotherapy on MRC R1 from relapse until UD-BMT. 19 patients had relapsed on and 31 off therapy.
Patients and donors were fully matched at HLA-A, -B, -DR and -DQ loci in 29 cases and mismatched in 21 (four mismatched for more than one antigen). Pre-transplant conditioning comprised CAMPATH-1G, cyclophosphamide and total body irradiation. Bone marrow was T-cell depleted in vitro using CAMPATH-1 antibodies. Additional GvHD prophylaxis consisted of cyclosporin A (42 cases), cyclosporin plus methotrexate (four) or none (four). 47 patients engrafted. The incidence of acute GvHD was very low: two patients with grade II disease in the matched group, four with grade II–IV in the mismatched group. Only four patients have chronic GvHD. The actuarial event-free survival (EFS) at 2 years is 53%, with no significant difference between the matched and mismatched group. Further leukaemic relapse was the most important cause of failure.
These results are similar to the most favourable published reports for HLA-matched sibling BMT in relapsed ALL.