CRLF2 overexpression defines an immature-like subgroup which is rescued through restoration of the PRC2 function in T-cell precursor acute lymphoblastic leukemia

CRLF2 overexpression has been described as a biomarker of poor prognosis in T-cell acute lymphoblastic leukemia (T-ALL). In the present study, we aimed to unravel the genomic profile underlying CRLF2 overexpression (CRLF2-high) by analyzing RNA-seq, WES, and SNP-array data from 264 T-ALL patients and five cell lines deposited on the TARGET initiative, Cancer Cell Line Encyclopedia and Gene Expression Omnibus. These data allowed us to delineate the genomic landscape of CRLF2-high in T-ALL, which was associated with PTEN, JAK3, PHF6, EZH2, and RUNX1 mutations. We also observed an enrichment of CRLF2-high in early T-precursor (ETP)-ALL (23.08% vs. 4.02%, P = 7.579e^-06 ) and a very similar gene upregulation profile between these two entities. The inhibition of BET (iBET) proteins is a strategy previously demonstrated to reverse the gene upregulation pattern of ETP cells through restoration of polycomb repressive complex 2 (PRC2) activity. While CRLF2 expression was rescued by using this strategy in LOUCY (untreated vs. iBET P = 0.0095, DMSO vs. iBET P = 0.0286), a classical ETP-ALL cell line, PRC2 loss was not sufficient to promote CRLF2 upregulation in JURKAT, a more mature T-ALL cell line. Considering the role of IKZF1 in CRLF2 regulation and in recruitment of PCR2, we evaluated IKZF1 status according to CRLF2-expression subgroups. We identified that IKZF1 transcripts with intron retention were upregulated in the CRLF2-high subgroup. Here, we delineated the gene expression profile of CRLF2-high T-ALL samples and unraveled the crucial role of PRC2 in CRLF2 regulation in ETP-ALL.