Proteasome inhibition targets the KMT2A transcriptional complex in acute lymphoblastic leukemia.
Jennifer L KamensStephanie NanceCary KossBei-Si XuAnitria CottonJeannie W LamElizabeth A R GarfinklePratima NallagatlaAmelia M R SmithSharnise MitchellJing MaDuane CurrierWilliam C WrightKanisha KavdiaVishwajeeth R PagalaWonil KimLaShanale M WallaceJi-Hoon ChoYiping FanAman SethNathaniel TwarogJohn Kim ChoiEsther A ObengMark E HatleyMonika L MetzgerHiroto InabaSima JehaJeffrey E RubnitzJunmin PengTaosheng ChenAnang A ShelatR Kiplin GuyTanja A GrüberPublished in: Nature communications (2023)
Rearrangments in Histone-lysine-N-methyltransferase 2A (KMT2Ar) are associated with pediatric, adult and therapy-induced acute leukemias. Infants with KMT2Ar acute lymphoblastic leukemia (ALL) have a poor prognosis with an event-free-survival of 38%. Herein we evaluate 1116 FDA approved compounds in primary KMT2Ar infant ALL specimens and identify a sensitivity to proteasome inhibition. Upon exposure to this class of agents, cells demonstrate a depletion of histone H2B monoubiquitination (H2Bub1) and histone H3 lysine 79 dimethylation (H3K79me2) at KMT2A target genes in addition to a downregulation of the KMT2A gene expression signature, providing evidence that it targets the KMT2A transcriptional complex and alters the epigenome. A cohort of relapsed/refractory KMT2Ar patients treated with this approach on a compassionate basis had an overall response rate of 90%. In conclusion, we report on a high throughput drug screen in primary pediatric leukemia specimens whose results translate into clinically meaningful responses. This innovative treatment approach is now being evaluated in a multi-institutional upfront trial for infants with newly diagnosed ALL.
Keyphrases
- acute lymphoblastic leukemia
- gene expression
- poor prognosis
- high throughput
- dna methylation
- free survival
- newly diagnosed
- long non coding rna
- acute myeloid leukemia
- allogeneic hematopoietic stem cell transplantation
- clinical trial
- induced apoptosis
- transcription factor
- emergency department
- stem cells
- oxidative stress
- young adults
- mesenchymal stem cells
- multiple myeloma
- diffuse large b cell lymphoma
- cell cycle arrest
- childhood cancer
- adverse drug
- genome wide analysis