Paolo Cifani scite author profile

MLL/SET methyltransferases catalyze methylation of histone 3 lysine 4 and play critical roles in development and cancer. We assessed MLL/SET proteins and found that SETD1A is required for survival of acute myeloid leukemia (AML) cells. Mutagenesis studies and CRISPR-Cas9 domain screening show the enzymatic SET domain is not necessary for AML cell survival but that a newly identified region termed the "FLOS" (functional location on SETD1A) domain is indispensable. FLOS disruption suppresses DNA damage response genes and induces p53-dependent apoptosis. The FLOS domain acts as a cyclin-K-binding site that is required for chromosomal recruitment of cyclin K and for DNA-repair-associated gene expression in S phase. These data identify a connection between the chromatin regulator SETD1A and the DNA damage response that is independent of histone methylation and suggests that targeting SETD1A and cyclin K complexes may represent a therapeutic opportunity for AML and, potentially, for other cancers.

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Rational targeting of a NuRD subcomplex guided by comprehensive in situ mutagenesis

Sher

Hossain

Seruggia

et al. 2019

Nat Genet

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Developmental silencing of fetal globins serves as both a paradigm of spatiotemporal gene regulation and an opportunity for β-hemoglobinopathy therapeutic intervention. The NuRD chromatin complex participates in γ-globin repression. Here we use pooled CRISPR screening to comprehensively disrupt NuRD protein coding sequences in human adult erythroid precursors. We find essential for fetal hemoglobin (HbF) control a nonredundant subcomplex of NuRD protein family paralogs, whose composition we corroborate by affinity chromatography and proximity labeling mass spectrometry proteomics. Mapping top functional guide RNAs identifies key protein interfaces where in-frame alleles result in loss-of-function due to destabilization or altered function of subunits. We ascertain mutations of CHD4 that dissociate its requirement for cell fitness from HbF repression in both primary human erythroid precursors and transgenic mice. Finally we demonstrate that sequestering CHD4 from NuRD phenocopies these mutations. This work indicates a generalizable approach to discover protein complex features amenable to rational biochemical targeting.

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A Chemical Strategy for Protease Substrate Profiling

Griswold

Cifani

Rao

et al. 2019

Cell Chemical Biology

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Optimized Cross-Linking Mass Spectrometry for in Situ Interaction Proteomics

2019

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Recent development of mass spectrometer cleavable protein crosslinkers and algorithms for their spectral identification now permits large-scale cross-linking mass spectrometry (XL-MS). Here, we optimized the use of cleavable disuccinimidyl sulfoxide (DSSO) cross-linker for labeling native protein complexes in live human cells. We applied a generalized linear mixture model to calibrate cross-link peptide-spectra matching (CSM) scores to control the sensitivity and specificity of large-scale XL-MS. Using specific CSM score thresholds to control the false discovery rate, we found that higher-energy collisional dissociation (HCD) and electron transfer dissociation (ETD) can both be effective for large-scale XL-MS protein interaction mapping. We found that the coverage of protein−protein interaction maps is significantly improved through the use of multiple proteases. In addition, the use of focused sample-specific search databases can be used to improve the specificity of cross-linked peptide spectral matching. Application of this approach to human chromatin labeled in live cells recapitulated known and revealed new protein interactions of nucleosomes and other chromatinassociated complexes in situ. This optimized approach for mapping native protein interactions should be useful for a wide range of biological problems.

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Targeting the CALR interactome in myeloproliferative neoplasms

Pronier¹,

Cifani²,

Merlinsky³

et al. 2018

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Paolo Cifani

A Non-catalytic Function of SETD1A Regulates Cyclin K and the DNA Damage Response

Rational targeting of a NuRD subcomplex guided by comprehensive in situ mutagenesis

A Chemical Strategy for Protease Substrate Profiling

Optimized Cross-Linking Mass Spectrometry for in Situ Interaction Proteomics

Targeting the CALR interactome in myeloproliferative neoplasms

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