Abrogating Early Treatment Resistance in Early T-cell Precursor Acute Lymphoblastic Leukemia

Early T-cell precursor (ETP) acute lymphoblastic leukemia (ALL) is a clinically and biologically unique subtype of T-lineage ALL (T-ALL) arising from early thymic progenitor cells and comprising 12 to 16 percent of T-ALL in children.^1-4  While historically ETP ALL was associated with a poor prognosis, several pediatric studies have demonstrated that outcomes are not inferior with response-based contemporary T-ALL therapy.^1,3,4  Comparative data in adults have been lacking, prompting a comprehensive analysis of adult patients with ETP ALL treated with pediatric-inspired therapy on the Group for Research on Adult Acute Lymphoblastic Leukemia (GRAALL) –2003 and –2005 studies.

Dr. Jonathan Bond and colleagues analyzed 213 patients with newly diagnosed T-ALL who were treated on the GRAALL-2003 phase II (n=49) and GRAALL-2005 (n=164) trials and met the inclusion criteria of having available diagnostic material for categorization as ETP-ALL. ETP-ALL was defined immunophenotypically using criteria of Coustan-Smith as reduced or absent expression of CD1a, CD5, and CD8, with expression of stem cell or myeloid markers.²  Forty-seven patients (22.1%) met criteria for ETP-ALL. Forty-one patients with T-ALL were profiled by RNA-sequencing (6 ETP-ALL, 35 non–ETP-ALL), and they were found to have distinctive patterns of gene expression that mirrored those observed in pediatric patients with ETP-ALL. The adult ETP-ALL cohort also had distinct clinical differences that included a lower proportion of male patients, older age, and lower presenting white blood cell counts when compared with the non–ETP-ALL cohort. Patients with ETP-ALL were also more likely to have incomplete rearrangement of T-cell receptor genes and markedly elevated rates of absence of biallelic deletion of the TRG locus, which was not unexpected given the immature phenotype.

The authors also performed targeted next-generation sequencing in 172 patient samples (37 ETP, 135 non-ETP) using a panel comprising genes known to be mutated in pediatric ETP-ALL.⁵  Mutations were observed in 89.2 percent of the ETP patients versus 63.7 percent in the non-ETP cohort. Adult ETP-ALL was distinct from non–ETP-ALL and was characterized by a genotype very similar to that of pediatric ETP-ALL, with alterations in cytokine receptor and RAS signaling; hematopoiesis; and histone modifications. The only exception was that significant rates of mutations in genes involved in DNA methylation were uniquely observed in adult ETP-ALL and not pediatric cases. Similar to pediatric ETP-ALL, alterations in the JAK-STAT pathway were common, occurring in approximately one-third of ETP cases.

Outcomes of ETP-ALL patients were also assessed. Despite similar remission rates of 87.2 percent (ETP) and 92.2 percent (non-ETP), the ETP patients showed significantly higher rates of end-induction minimal residual disease (MRD) positivity (≥ 10^-4), a response pattern also observed in children. Despite early chemotherapy resistance, however, five-year event-free survival (EFS) and overall survival (OS) rates for ETP patients were not inferior to those in the non-ETP cohort (5-year EFS, 51.1% vs. 58.1%, and 5-year OS, 59.6% vs. 66.5%, for the ETP and non-ETP cohorts, respectively). However, a significantly greater proportion of patients with ETP-ALL met protocol-specified criteria for transplantation in first complete remission (CR1) due largely to poor induction treatment responses (48.9% vs. 28.3%). The authors separately analyzed the impact of allogeneic stem cell transplantation (allo-SCT) on outcomes in ETP-ALL. Among the 124 patients who met criteria for allo-SCT in CR1, there was a trend for better OS in the ETP group who underwent transplantation (hazard ratio, 0.36; p=0.07) but not in the non-ETP group, suggesting that intensification with allo-SCT abrogated the negative prognostic impact of early chemotherapy resistance in the ETP subgroup.