Kathryn Cole scite author profile

Cornelia de Lange syndrome (CdLS) is a dominantly inherited congenital malformation disorder caused by mutations in the cohesin-loading protein NIPBL1,2 for nearly 60% of individuals with classical CdLS3-5 and in the core cohesin components SMC1A (~5%) and SMC3 (<1%) for a smaller fraction of probands6,7. In humans, the multi-subunit complex cohesin is comprised of SMC1, SMC3, RAD21 and a STAG protein to form a ring structure proposed to encircle sister chromatids to mediate sister chromatid cohesion (SCC)8 as well as play key roles in gene regulation9. SMC3 is acetylated during S-phase to establish cohesiveness of chromatin-loaded cohesin10-13 and in yeast, HOS1, a class I histone deacetylase, deacetylates SMC3 during anaphase14-16. Here we report the identification of HDAC8 as the vertebrate SMC3 deacetylase as well as loss-of-function HDAC8 mutations in six CdLS probands. Loss of HDAC8 activity results in increased SMC3 acetylation (SMC3-ac) and inefficient dissolution of the “used” cohesin complex released from chromatin in both prophase and anaphase. While SMC3 with retained acetylation is loaded onto chromatin, ChIP-Seq analysis demonstrates decreased occupancy of cohesin localization sites that results in a consistent pattern of altered transcription seen in CdLS cell lines with either NIPBL or HDAC8 mutations.

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Structure, mechanism, and inhibition of histone deacetylases and related metalloenzymes

Lombardi

Cole

Dowling

et al. 2011

Current Opinion in Structural Biology

238

199

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Metal-dependent histone deacetylases (HDACs) catalyze the hydrolysis of acetyl-L-lysine side chains in histone and non-histone proteins to yield L-lysine and acetate. This chemistry plays a critical role in the regulation of numerous biological processes. Aberrant HDAC activity is implicated in various diseases, and HDACs are validated targets for drug design. Two HDAC inhibitors are currently approved for cancer chemotherapy, and other inhibitors are in clinical trials. To date, X-ray crystal structures are available for four human HDACs (2, 4, 7, 8) and three HDAC-related deacetylases from bacteria (histone deacetylase-like protein, HDLP; histone deacetylase-like amidohydrolase, HDAH; acetylpolyamine amidohydrolase, APAH). Structural comparisons among these enzymes reveal a conserved constellation of active site residues, suggesting a common mechanism for the metal-dependent hydrolysis of acetylated substrates. Structural analyses of HDACs and HDAC-related deacetylases guide the design of tight-binding inhibitors, and future prospects for developing isozyme-specific inhibitors are quite promising.

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Structural Basis of the Antiproliferative Activity of Largazole, a Depsipeptide Inhibitor of the Histone Deacetylases

et al. 2011

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Largazole is a macrocyclic depsipeptide originally isolated from the marine cyanobacterium Symploca sp., which is indigenous to the warm, blue-green waters of Key Largo, Florida (whence largazole derives its name). Largazole contains an unusual thiazoline-thiazole ring system that rigidifies its macrocyclic skeleton, and it also contains a lipophilic thioester side chain. Hydrolysis of the thioester in vivo yields largazole thiol, which exhibits remarkable antiproliferative effects and is believed to be the most potent inhibitor of the metal-dependent histone deacetylases (HDACs). Here, the 2.14 Å-resolution crystal structure of the HDAC8-largazole thiol complex is the first of an HDAC complexed with a macrocyclic inhibitor and reveals that ideal thiolate-zinc coordination geometry is the key chemical feature responsible for its exceptional affinity and biological activity. Notably, the core structure of largazole is conserved in romidepsin, a depsipeptide natural product formulated as the drug Istodax® recently approved for cancer chemotherapy. Accordingly, the structure of the HDAC8-largazole thiol complex is the first to illustrate the mode of action of a new class of therapeutically important HDAC inhibitors.

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Ultrafast Probing of Core Hole Localization in N ₂

Schöffler

Titze

Petridis

et al. 2008

Science

186

163

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Although valence electrons are clearly delocalized in molecular bonding frameworks, chemists and physicists have long debated the question of whether the core vacancy created in a homonuclear diatomic molecule by absorption of a single x-ray photon is localized on one atom or delocalized over both. We have been able to clarify this question with an experiment that uses Auger electron angular emission patterns from molecular nitrogen after inner-shell ionization as an ultrafast probe of hole localization. The experiment, along with the accompanying theory, shows that observation of symmetry breaking (localization) or preservation (delocalization) depends on how the quantum entangled Bell state created by Auger decay is detected by the measurement.

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Kathryn Cole

HDAC8 mutations in Cornelia de Lange syndrome affect the cohesin acetylation cycle

Structure, mechanism, and inhibition of histone deacetylases and related metalloenzymes

Structural Basis of the Antiproliferative Activity of Largazole, a Depsipeptide Inhibitor of the Histone Deacetylases

Ultrafast Probing of Core Hole Localization in N ₂

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Kathryn Cole

HDAC8 mutations in Cornelia de Lange syndrome affect the cohesin acetylation cycle

Structure, mechanism, and inhibition of histone deacetylases and related metalloenzymes

Structural Basis of the Antiproliferative Activity of Largazole, a Depsipeptide Inhibitor of the Histone Deacetylases

Ultrafast Probing of Core Hole Localization in N 2

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Ultrafast Probing of Core Hole Localization in N ₂