Analysis of genomic breakpoints in p190 and p210 BCR–ABL indicate distinct mechanisms of formation

Score, Joannah; Calasanz, Marı́a José; Ottman, O.; Pane, Fabrizio; Yeh, Ru-Fang; Sobrinho-Simões, Manuel; Kreil, Sebastian; Ward, David C.; Hidalgo-Curtis, Claire; Melo, JV; Wiemels, Joseph L.; Nadel, Bertrand; Cross, Nicholas C. P.; Grand, Francis

doi:10.1038/leu.2010.174

Cited by 49 publications

(34 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The location of the BCR and ABL1 genomic breakpoints is highly variable [17], but the recombination usually involves fusion of intron 13 or 14 of BCR with a 140-kilobase (kb) region of ABL1 between exons 1b and 2 ( Fig. 1a) [17]. Regardless of the breakpoint location on the ABL1 gene, mRNA splicing gives rise to major BCR-ABL1 transcripts with e13a2 (BCR exon 13 and ABL1 exon 2) or e14a2 junctions.…”

Section: The Molecular Biology Of CMLmentioning

confidence: 99%

“…The BCR-ABL1 fusion gene consists of the 5′ end of the BCR (breakpoint cluster region) gene and the 3′end of the ABL1 gene (also known as Abelson). The location of the BCR and ABL1 genomic breakpoints is highly variable [17], but the recombination usually involves fusion of intron 13 or 14 of BCR with a 140-kilobase (kb) region of ABL1 between exons 1b and 2 ( Fig. 1a) [17].…”

Section: The Molecular Biology Of CMLmentioning

confidence: 99%

See 1 more Smart Citation

Natural course and biology of CML

2015

View full text Add to dashboard Cite

Chronic myeloid leukaemia (CML) is a myeloproliferative disorder arising in the haemopoietic stem cell (HSC) compartment. This disease is characterised by a reciprocal t(9;22) chromosomal translocation, resulting in the formation of the Philadelphia (Ph) chromosome containing the BCR-ABL1 gene. As such, diagnosis and monitoring of disease involves detection of BCR-ABL1. It is the BCR-ABL1 protein, in particular its constitutively active tyrosine kinase activity, that forges the pathogenesis of CML. This aberrant kinase signalling activates downstream targets that reprogram the cell to cause uncontrolled proliferation and results in myeloid hyperplasia and 'indolent' symptoms of chronic phase (CP) CML. Without successful intervention, the disease will progress into blast crisis (BC), resembling an acute leukaemia. This advanced disease stage takes on an aggressive phenotype and is almost always fatal. The cell biology of CML is also centred on BCR-ABL1. The presence of BCR-ABL1 can explain virtually all the cellular features of the leukaemia (enhanced cell growth, inhibition of apoptosis, altered cell adhesion, growth factor independence, impaired genomic surveillance and differentiation). This article provides an overview of the clinical and cell biology of CML, and highlights key findings and unanswered questions essential for understanding this disease.

show abstract

Section: The Molecular Biology Of CMLmentioning

confidence: 99%

Section: The Molecular Biology Of CMLmentioning

confidence: 99%

Natural course and biology of CML

2015

View full text Add to dashboard Cite

show abstract

“…18 When PCR with the primer mix produced a PCR product, a split out PCR was run with the individual primers contained within the mix to amplify a band with BCR F and ABL1 R. The breakpoints were confirmed by re-amplification and sequencing in the patient samples with BCR F and a twin-and breakpointspecific ABL1 reverse primers (Figure 1). More specifically, the breakpoints were designated as a fusion between BCR intron 1 (nucleotide 2982232 in genomic sequence NT_011520) and ABL1 intron 1 (nucleotide 417579 in genomic sequence NT_035014) in twin 1A and between BCR intron 1 (nucleotide 2970354 in genomic sequence NT_011520) and ABL1 intron 1 (nucleotide 504164 in genomic sequence NT_035014) in twin 2A.…”

Section: Bcr-abl1 Genomic Fusions Sequencingmentioning

confidence: 99%

“…To cover the BCR and ABL1 regions, within which breakpoints can occur, 21 BCR forward primers and 20 ABL1 reverse primers were used in multiplex, combining each BCR forward primer with 4 mixes of 5 ABL1 reverse primers, as described elsewhere. 18 …”

Section: Detection and Amplification Of Bcr-abl1 Genomic Breakpointsmentioning

confidence: 99%

Developmental origins and impact of BCR-ABL1 fusion and IKZF1 deletions in monozygotic twins with Ph+ acute lymphoblastic leukemia

Cazzaniga

Delft

Nigro

et al. 2011

Blood

View full text Add to dashboard Cite

The timing and developmental sequence of events for BCR-ABL1 ؉ acute lymphoblastic leukemia (ALL), usually associated with IKAROS (IKZF1) deletions, are unknown. We assessed the status of BCR-ABL1 and IKZF1 genes in 2 pairs of monozygotic twins, one pair concordant, the other discordant for Philadelphia chromosome positive (Ph ؉ ) ALL. The twin pair concordant for ALL shared identical BCR-ABL1 genomic sequence indicative of monoclonal, in utero origin. One twin had IKZF1 deletion and died after transplantation. The other twin had hyperdiploidy, no IKZF1 deletion, and is still in remission 8 years after transplantation. In the twin pair discordant for ALL, neonatal blood spots from both twins harbored the same clonotypic BCR-ABL1 sequence. Low level BCR-ABL1 ؉ cells were present in the healthy co-twin but lacked the IKZF1 deletion present in the other twin's leukemic cells. The twin with ALL relapsed and died after transplantation. The co-twin remains healthy and leukemia free. These data show that in childhood Ph ؉ ALL, BCR-ABL1 gene fusion can be a prenatal and possibly initiating genetic event. In the absence of additional, secondary changes, the leukemic clone remains clinically silent. IKZF1 is a secondary and probable postnatal mutation in these cases, and as a recurrent but alternative copy number change is associated with poor prognosis. IntroductionChildhood acute lymphoblastic leukemia (ALL) has very diverse genetics, 1 but there is substantial evidence that segregates its development into a prenatal initiation phase followed by later acquisition of other mutations, presumed to be more proximal to diagnosis. 2 This developmental sequence is most clearly defined for ALL in which ETV6-RUNX1 fusion is the prenatal and probable initiating event, but it is also probable to hold for hyperdiploid ALL 3 and other, although not necessarily all, 4 subtypes. Much of the evidence for the developmental sequence of acquired genetic events in ALL has been derived from the study of monozygotic twins that are concordant or discordant for ALL. 5 In both such instances, the initiating lesion and premalignant clone is shared by the twins as a consequence of intraplacental vascular anastomoses and blood cell chimerism. The twin data are endorsed by backtracking of prenatal-initiating genetic lesions in the archived blood spots, or Guthrie cards, of patients with ALL. 6,7 BCR-ABL1 (Philadelphia chromosome positive [Ph ϩ ]) ALL is a relatively infrequent (ϳ 5%) subtype of pediatric ALL. It traditionally had a poor prognosis with conventional chemotherapy, 8 but the introduction of the selective kinase inhibitor imatinib has significantly improved early event-free survival. 9 IKZF1 deletions are common (ϳ 85%) in Ph ϩ ALL 10,11 and in high-risk (HR) ALL without BCR-ABL1 fusion (ϳ 28%) 12 and are associated with adverse outcome. 12,13 The developmental timing or sequence of these "coupled" genetic events in Ph ϩ ALL is however unknown.We report here 2 identical twin pairs, one concordant, the other discordant, for Ph ϩ ALL. In...

show abstract

“…23 The reaction used the Expand Long Template PCR System (Roche Applied Science) polymerase and Buffer 2 from the kit. The reaction conditions and thermocycling parameters were optimized to amplify templates of up to 12 kb.…”

Section: Sequencing Of Gbcr-abl Fusionsmentioning

confidence: 99%

In search of the original leukemic clone in chronic myeloid leukemia patients in complete molecular remission after stem cell transplantation or imatinib

Sobrinho-Simões

Wilczek

Score

et al. 2010

Blood

View full text Add to dashboard Cite

It is not clear if absence of BCR-ABLtranscripts-complete molecular response (CMR)-is synonymous with, or required for, cure of chronic myeloid leukemia (CML). Some patients achieve CMR with imatinib (IM), but most relapse shortly after treatment discontinuation. Furthermore, most patients in long-term remission (LTR) post-stem cell transplantation (SCT) are considered functionally cured, although some remain occasionally positive for low-level BCR-ABL mRNA. Interpretation of the latter is complicated because it has been observed in healthy subjects. We designed a patientspecific, highly sensitive, DNA quantitative polymerase chain reaction to test follow-up samples for the original leuke-

show abstract

Analysis of genomic breakpoints in p190 and p210 BCR–ABL indicate distinct mechanisms of formation

Cited by 49 publications

References 39 publications

Natural course and biology of CML

Natural course and biology of CML

Developmental origins and impact of BCR-ABL1 fusion and IKZF1 deletions in monozygotic twins with Ph+ acute lymphoblastic leukemia

In search of the original leukemic clone in chronic myeloid leukemia patients in complete molecular remission after stem cell transplantation or imatinib

Contact Info

Product

Resources

About