Allison P. Siegenfeld scite author profile

An operationally simple, mild, redox-neutral method for the photoredox alkylation of imines is reported. Utilizing an inexpensive organic photoredox catalyst, alkyl radicals are readily generated from the single-electron oxidation of ammonium alkyl bis(catecholato)silicates and are subsequently engaged in a C–C bond-forming reaction with imines. The process is highly selective, metal-free, and does not require a large excess of the alkylating reagent or the use of acidic additives.

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Polycomb-lamina antagonism partitions heterochromatin at the nuclear periphery

Siegenfeld

Roseman

Roh

et al. 2022

Nat Commun

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The genome can be divided into two spatially segregated compartments, A and B, which partition active and inactive chromatin states. While constitutive heterochromatin is predominantly located within the B compartment near the nuclear lamina, facultative heterochromatin marked by H3K27me3 spans both compartments. How epigenetic modifications, compartmentalization, and lamina association collectively maintain heterochromatin architecture remains unclear. Here we develop Lamina-Inducible Methylation and Hi-C (LIMe-Hi-C) to jointly measure chromosome conformation, DNA methylation, and lamina positioning. Through LIMe-Hi-C, we identify topologically distinct sub-compartments with high levels of H3K27me3 and differing degrees of lamina association. Inhibition of Polycomb repressive complex 2 (PRC2) reveals that H3K27me3 is essential for sub-compartment segregation. Unexpectedly, PRC2 inhibition promotes lamina association and constitutive heterochromatin spreading into H3K27me3-marked B sub-compartment regions. Consistent with this repositioning, genes originally marked with H3K27me3 in the B compartment, but not the A compartment, remain largely repressed, suggesting that constitutive heterochromatin spreading can compensate for H3K27me3 loss at a transcriptional level. These findings demonstrate that Polycomb sub-compartments and their antagonism with lamina association are fundamental features of genome structure. More broadly, by jointly measuring nuclear position and Hi-C contacts, our study demonstrates how compartmentalization and lamina association represent distinct but interdependent modes of heterochromatin regulation.

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Drug addiction mutations unveil a methylation ceiling in EZH2-mutant lymphoma

Kwok

Freedy

Siegenfeld

et al. 2022

Preprint

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Cancer mutations in Polycomb Repressive Complex 2 (PRC2) drive aberrant epigenetic states. Although therapies inhibiting the PRC2 enzymatic component EZH2 are FDA-approved, oncogene-specific dependencies remain to be discovered. Here, we identify mutations that confer both resistance and drug addiction to PRC2 inhibitors in EZH2-mutant lymphoma, resulting in cancer cells that paradoxically depend on drug for survival. Drug addiction is mediated by hypermorphic mutations in the CXC domain of EZH2, which maintain H3K27me3 levels even in the presence of PRC2 inhibitors. Drug removal leads to overspreading of H3K27me3, surpassing a repressive methylation ceiling compatible with lymphoma cell survival. Activating EZH2 cancer mutations establish an epigenetic state precariously close to this ceiling, which we show can be breached by inhibition of SETD2, a PRC2 antagonist, to block lymphoma growth. More broadly, we highlight how approaches to identify drug addiction mutations can be leveraged to discover cancer vulnerabilities.

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