Structure of the Epigenetic Oncogene MMSET and Inhibition by N-Alkyl Sinefungin Derivatives.

The members of the NSD subfamily of lysine methyl transferases are compelling oncology targets due to the recent characterization of gain-of-function mutations and translocations in several hematological cancers. To date, these proteins have proven intractable to small molecule inhibition. Here, we present initial efforts to identify inhibitors of MMSET (aka NSD2 or WHSC1) using solution phase and crystal structural methods.

X-ray crystallographic and EPR spectroscopic analysis of HydG, a maturase in [FeFe]-hydrogenase H-cluster assembly.

Hydrogenases use complex metal cofactors to catalyze the reversible formation of hydrogen. In [FeFe]-hydrogenases, the H-cluster cofactor includes a diiron subcluster containing azadithiolate, three CO, and two CN(-) ligands. During the assembly of the H cluster, the radical S-adenosyl methionine (SAM) enzyme HydG lyses the substrate tyrosine to yield the diatomic ligands.

Structures of lipoyl synthase reveal a compact active site for controlling sequential sulfur insertion reactions.

Lipoyl cofactors are essential for living organisms and are produced by the insertion of two sulfur atoms into the relatively unreactive C-H bonds of an octanoyl substrate. This reaction requires lipoyl synthase, a member of the radical S-adenosylmethionine (SAM) enzyme superfamily. In the present study, we solved crystal structures of lipoyl synthase with two [4Fe-4S] clusters bound at opposite ends of the TIM barrel, the usual fold of the radical SAM superfamily.

Mutations in the DNA methyltransferase gene DNMT3A cause an overgrowth syndrome with intellectual disability.

Overgrowth disorders are a heterogeneous group of conditions characterized by increased growth parameters and other variable clinical features such as intellectual disability and facial dysmorphism. To identify new causes of human overgrowth, we performed exome sequencing in ten proband-parent trios and detected two de novo DNMT3A mutations. We identified 11 additional de novo mutations by sequencing DNMT3A in a further 142 individuals with overgrowth.

Development of rationally designed DNA N6 adenine methyltransferase inhibitors.

A series of bisubstrate inhibitors for DNA N6 adenine methyltransferase (Dam) have been synthesized by linking an amine analogue of S-adenosylmethionine to an aryl moiety designed to probe the binding pocket of the DNA adenine base. An initial structure-activity relationship study has identified substituents that increase inhibitor potency to the ∼10 μM range and improve selectivity against the human cytosine methyltransferase Dnmt1.

Direct and continuous fluorescence-based measurements of Pyrococcus horikoshii DNA N-6 adenine methyltransferase activity.

N-6 methylation of adenine destabilises duplex DNA and this can increase the proportion of DNA that dissociates into single strands. We have investigated utilising this property to measure the DNA adenine methyltransferase-catalyzed conversion of hemimethylated to fully methylated DNA through a simple, direct, fluorescence-based assay. The effects of methylation on the kinetics and thermodynamics of hybridisation were measured by comparing a fully methylated oligonucleotide product and a hemimethylated oligonucleotide substrate using a 13-bp duplex labeled on adjacent strands with a fluorophore (fluorescein) and quencher (dabcyl).