GEOapplication/xmlftp://ftp.ncbi.nlm.nih.gov/geo/series/GSE303nnn/GSE303627/primaryOK200Genomics Mus musculusHomo sapiensGenome binding/occupancy profiling by high throughput sequencinghttps://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE303627GEOGSEfalseMYST acetyltransferases are a targetable therapeutic vulnerability in SETBP1-mutant leukemia [CUT&Run]Mutations in SET binding protein 1 (SETBP1) are associated with an adverse prognosis in myeloid malignancies. These mutations stabilize SETBP1 protein, driving increased expression of a progenitor-associated gene expression program through incompletely described mechanisms. A proteomic screen revealed interactions between SETBP1 and members of the MYST acetyltransferase complexes, including the catalytic subunits—KAT6A and KAT7. Mutant SETBP1 increases the localization of MYST complexes at known SETBP1 target genes, including the Hoxa cluster, where they drive increased histone acetylation and gene expression. Treatment of SETBP1D868N-expressing myeloid progenitors with MYST inhibitors reduced target gene expression. To establish the efficacy of MYST inhibition in vivo, we treated mice harboring a syngeneic SETBP1-mutant leukemia with the clinical-grade MYST inhibitor—PF-9363. This resulted in complete hematologic control and increased survival. MYST inhibition was also highly effective against a SETBP1-mutant PDX model. These studies identify MYST acetyltransferases as promising therapeutic targets in SETBP1-mutant malignancies.2026/04/01GSE303627GSM9544494GSM9544472GSM9544473GSM9544451GSM9544495GSM9544470GSM9544492GSM9544493GSM9544471GSM9544476GSM9544454GSM9544477GSM9544455GSM9544496GSM9544474GSM9544452GSM9544453GSM9544475GSM9544458GSM9544459GSM9544456GSM9544478GSM9544479GSM9544457GSM9544490GSM9544491GSM9544483GSM9544461GSM9544462GSM9544484GSM9544481GSM9544482GSM9544460GSM9544487GSM9544465GSM9544488GSM9544466GSM9544485GSM9544463GSM9544486GSM9544464GSM9544469GSM9544467GSM9544489GSM9544468GSM95444803017318573246763017224247303627 Mus musculusHomo sapiens