Use of Lymphoid Progenitor Cell Assays for a More Detailed Analysis of the Cytogenetic Changes Occurring During Clonal Evolution in Acute Lymphoblastic Leukemia

1990 ◽  
Vol 2 (1-2) ◽  
pp. 1-16 ◽  
Author(s):  
Fatih M. Uckun ◽  
Nyla A. Heerema
2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Shumaila Sayyab ◽  
Anders Lundmark ◽  
Malin Larsson ◽  
Markus Ringnér ◽  
Sara Nystedt ◽  
...  

AbstractThe mechanisms driving clonal heterogeneity and evolution in relapsed pediatric acute lymphoblastic leukemia (ALL) are not fully understood. We performed whole genome sequencing of samples collected at diagnosis, relapse(s) and remission from 29 Nordic patients. Somatic point mutations and large-scale structural variants were called using individually matched remission samples as controls, and allelic expression of the mutations was assessed in ALL cells using RNA-sequencing. We observed an increased burden of somatic mutations at relapse, compared to diagnosis, and at second relapse compared to first relapse. In addition to 29 known ALL driver genes, of which nine genes carried recurrent protein-coding mutations in our sample set, we identified putative non-protein coding mutations in regulatory regions of seven additional genes that have not previously been described in ALL. Cluster analysis of hundreds of somatic mutations per sample revealed three distinct evolutionary trajectories during ALL progression from diagnosis to relapse. The evolutionary trajectories provide insight into the mutational mechanisms leading relapse in ALL and could offer biomarkers for improved risk prediction in individual patients.


2021 ◽  
Vol 10 (9) ◽  
pp. 1926
Author(s):  
Hiroto Inaba ◽  
Ching-Hon Pui

The outcomes of pediatric acute lymphoblastic leukemia (ALL) have improved remarkably during the last five decades. Such improvements were made possible by the incorporation of new diagnostic technologies, the effective administration of conventional chemotherapeutic agents, and the provision of better supportive care. With the 5-year survival rates now exceeding 90% in high-income countries, the goal for the next decade is to improve survival further toward 100% and to minimize treatment-related adverse effects. Based on genome-wide analyses, especially RNA-sequencing analyses, ALL can be classified into more than 20 B-lineage subtypes and more than 10 T-lineage subtypes with prognostic and therapeutic implications. Response to treatment is another critical prognostic factor, and detailed analysis of minimal residual disease can detect levels as low as one ALL cell among 1 million total cells. Such detailed analysis can facilitate the rational use of molecular targeted therapy and immunotherapy, which have emerged as new treatment strategies that can replace or reduce the use of conventional chemotherapy.


Genes ◽  
2021 ◽  
Vol 12 (2) ◽  
pp. 214
Author(s):  
Željko Antić ◽  
Stefan H. Lelieveld ◽  
Cédric G. van der Ham ◽  
Edwin Sonneveld ◽  
Peter M. Hoogerbrugge ◽  
...  

Pediatric acute lymphoblastic leukemia (ALL) is the most common pediatric malignancy and is characterized by clonal heterogeneity. Genomic mutations can increase proliferative potential of leukemic cells and cause treatment resistance. However, mechanisms driving mutagenesis and clonal diversification in ALL are not fully understood. In this proof of principle study, we performed whole genome sequencing of two cases with multiple relapses in order to investigate whether groups of mutations separated in time show distinct mutational signatures. Based on mutation allele frequencies at diagnosis and subsequent relapses, we clustered mutations into groups and performed cluster-specific mutational profile analysis and de novo signature extraction. In patient 1, who experienced two relapses, the analysis unraveled a continuous interplay of aberrant activation induced cytidine deaminase (AID)/apolipoprotein B editing complex (APOBEC) activity. The associated signatures SBS2 and SBS13 were present already at diagnosis, and although emerging mutations were lost in later relapses, the process remained active throughout disease evolution. Patient 2 had three relapses. We identified episodic mutational processes at diagnosis and first relapse leading to mutations resembling ultraviolet light-driven DNA damage, and thiopurine-associated damage at first relapse. In conclusion, our data shows that investigation of mutational processes in clusters separated in time may aid in understanding the mutational mechanisms and discovery of underlying causes.


2019 ◽  
Vol 110 (2) ◽  
pp. 784-794 ◽  
Author(s):  
Shunsuke Kimura ◽  
Masafumi Seki ◽  
Kenichi Yoshida ◽  
Yuichi Shiraishi ◽  
Masaharu Akiyama ◽  
...  

Reports ◽  
2019 ◽  
Vol 2 (3) ◽  
pp. 18 ◽  
Author(s):  
Miller ◽  
Park ◽  
Saxe ◽  
Lew ◽  
Raikar

Lineage switch in acute leukemias is a well-reported occurrence; however, most of these cases involve a switch from either lymphoid to myeloid or myeloid to lymphoid lineage. Here, we report a case of a 14-year-old male with B-cell acute lymphoblastic leukemia (B-ALL) who initially responded well to standard chemotherapy but then later developed mixed phenotype acute leukemia (MPAL) at relapse, likely reflecting a clonal evolution of the original leukemia with a partial phenotypic shift. The patient had a del(9)(p13p21) in his leukemia blasts at diagnosis, and the deletion persisted at relapse along with multiple additional cytogenetic aberrations. Interestingly, the patient presented with an isolated testicular lesion at relapse, which on further analysis revealed both a lymphoid and myeloid component. Unfortunately, the patient did not respond well to treatment at relapse and eventually succumbed to his disease. To our knowledge, an isolated extramedullary MPAL at relapse in a patient with previously diagnosed B-ALL has not been reported in the literature before.


1992 ◽  
Vol 10 (4) ◽  
pp. 606-613 ◽  
Author(s):  
R Trueworthy ◽  
J Shuster ◽  
T Look ◽  
W Crist ◽  
M Borowitz ◽  
...  

PURPOSE Using the technique of recursive partitioning and amalgamation analysis with verification, the Pediatric Oncology Group (POG) investigated the independent prognostic significance of previously published prognostic factors significantly associated with event-free survival (EFS) in B-progenitor cell acute lymphoblastic leukemia (ALL). PATIENTS AND METHODS Age, leukocyte count, sex, immunophenotype (expression of cytoplasmic immunoglobulin [Ig] and of surface antigens CD10 and CD34), and DNA index (ratio of the flow cytometry-determined DNA content of leukemia cells to that of normal diploid cells) were the variables used in the evaluation of four antimetabolite-based chemotherapy regimens in 1,535 children with the newly diagnosed B-progenitor cell ALL between February 1986 and May 1990. RESULTS There were three subgroups at widely different risks of treatment failure. A DNA index greater than 1.16 was the most prognostic feature. The final prognostic subgrouping was as follows: (1) DNA index greater than 1.16; (2) DNA index less than or equal to 1.16, age less than 11.0 years, and leukocyte count less than 50 x 10(9)/L; and (3) DNA index less than or equal to 1.16, (age greater than 11.0 years, and/or leukocyte count greater than 50 x 10(9)/L). These groups made up 20%, 53%, and 27% of the patients and had 4-year EFS rates (SE) of 90.1% (6.3%), 80.5% (5.1%), and 50.4% (7.6%), respectively. CONCLUSIONS Use of the DNA index, leukocyte count, and age--data that are relatively inexpensive and simple to obtain--may be sufficient to stratify patients with B-progenitor cell ALL for risk-directed therapy. Patients at an extremely low risk of failing therapy (approximately 20% of cases in this study) can thus be identified and spared the toxic short-term and late effects of more intensive therapies that may be needed for children with less favorable clinical and biologic features.


Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 2591-2591
Author(s):  
Josef Davidsson ◽  
Kajsa Paulsson ◽  
David Lindgren ◽  
Henrik Lilljebjörn ◽  
Tracy Chaplin ◽  
...  

Abstract Abstract 2591 Poster Board II-567 Although childhood high hyperdiploid acute lymphoblastic leukemia is associated with a favorable outcome, 20% relapse. This makes it important to identify these patients already at diagnosis to ensure proper risk-stratification. To identify changes associated with relapse and ascertain the genetic evolution patterns, SNP array and mutation analyses of FLT3, KRAS, NRAS, and PTPN11 were performed on 11 paired diagnostic/relapse samples. The “triples trisomies” +4, +10, and +17 were detected in 64%, a frequency similar to the one generally observed at diagnosis, thus questioning their favorable prognostic impact. Structural changes, mainly cryptic hemizygous deletions, were significantly more common at relapse (P<0.05). No single aberration was linked to relapse, but four deletions, involving IKZF1, PAX5, CDKN2A/B or AK3, were recurrent. Based on the genetic relationship between the paired samples, three groups were delineated: 1) identical genetic changes at diagnosis and relapse (18%), 2) clonal evolution with all changes at diagnosis being present at relapse (18%), and 3) clonal evolution with some changes conserved, lost or gained (64%), suggesting the presence of a preleukemic clone. This ancestral clone was characterized by numerical changes only, with structural changes and RTK-RAS mutations being secondary to the high hyperdiploid pattern and perhaps necessary for overt leukemia. Disclosures: No relevant conflicts of interest to declare.


Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 233-233
Author(s):  
Cai Chen ◽  
Christoph Bartenhagen ◽  
Michael Gombert ◽  
Vera Okpanyi ◽  
Vera Binder ◽  
...  

Abstract High hyperdiploid acute lymphoblastic leukemia (HeH-ALL) is characterized by 51-67 chromosomes and nonrandom gains of specific chromosomes (X, 4, 6, 10, 14, 17, 18, and 21). It presents the most frequent numerical cytogenetic alteration in childhood pre B-cell ALL occurring in 25-30% of cases. Recurrent disease will affect 15-20%. Pre-leukemic HeH clones are generated in utero, but cooperating oncogenic lesions are necessary for overt leukemia and remain to be determined. Recently, a phenomenon termed chromothripsis has been described in which massive structural variations occur in a single aberrant mitosis. Whole or partial chromosomes are shattered and some fragments are lost in the process of rejoining. Thus, characteristically, chromosomal copy numbers oscillate between two copy number states. Chromothripsis has been suggested to be a tumor-driving alteration that may be present in 2-3% of all human cancers. Its role as a potential cooperating or initiating lesion in HeH-ALL has not been determined. We applied state-of-the-art whole-genome next-generation-sequencing to analyze structural variations in six pediatric patients with recurrent HeH-ALL. Matched sample sets taken at diagnosis, remission and/or relapse were compared. Paired end sequencing was carried out on a Genome Analyzer IIx or a HiSeq 2000 (Illumina), respectively. Reads were aligned against the human reference genome (GRCh37) using BWA. Translocations were detected by GASV. Copy number variations were analyzed by FREEC. Structural variations were validated by PCR/Sanger sequencing and FISH. Of the six patients analyzed, five harbored on average one interchromosomal translocation or intrachromosomal inversion, but one patient presented with massive genomic rearrangements (Figure). These affected chromosome 3, 11, 12 and 20. Ten copy number shifts on chromosome 3 oscillating between two copy number states (2 and 3) indicated that these rearrangements were caused by chromothripsis. Breakpoint sequencing revealed that one of the identified translocations (t(12;20)(p13.1;p12.3)), was indeed a three-loci-rearrangement composed of small fragments derived from chromosomes 3, 12 and 20. Characteristically for chromothripsis, the breakpoints clustered closely. Three breakpoints separated by 224 bp and 64 kb were located in the transducin (beta)-like X-linked receptor 1 (TBL1XR1) gene. Other genes repeatedly targeted included the MACRO domain-containing protein 2 (MACROD2) gene (a deacetylase involved in deacetylation of lysine residues in histones and other proteins), the KIAA1467 gene (a transmembrane protein of the integrin alpha FG-GAP repeat containing 3 (ITFG3) family), and a novel regulatory lincRNA (ENSG00000243276). MACROD2 was previously observed as a target of chromothripsis in a colorectal carcinoma. Thus, the characterized breakpoints may identify fragile genomic sites prone to chromothriptic rearrangement. DNA repair was effectuated by non-homologous-end-joining as typical addition of non-template nucleotides with microhomologies of two to four nucleotides at the breakpoints demonstrated. Copy number profiles of this patient showed that at least two distinct leukemic clones could be identified at diagnosis. One had acquired chromothriptic alterations and presented the dominant clone at relapse indicating chemotherapy resistance and tumor-driving potential. Prior whole-exome sequencing did not reveal mutations in known oncogenes or tumor suppressor genes. Therefore, loss of function or expression of genes affected by chromosomal rearrangements, such as TBL1XR1 that is recurrently mutated in childhood ALL with ETV6-RUNX1 translocation, may account for the tumor-driving effect. All leukemic cells at diagnosis showed conformity concerning number and pattern of whole chromosome gains demonstrating that chromothripsis was not an initiating oncogenic event, but occurred secondary to high hyperdiploidy. Further aberrations (t(4;7), loss of 4q) were gained by the chromothriptic clone and could be detected by FISH in minor subclones pointing at ongoing clonal evolution. Taken together, our study reveals chromothripsis as a novel assisting and tumor-driving lesion in HeH ALL. Chromothripsis in HeH-ALL. Copy number variations and translocations at diagnosis (left) and relapse (right). (magenta: chromothriptic translocations; green: other translocations) Disclosures: No relevant conflicts of interest to declare.


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