P.H.N. Celie scite author profile

Nicotinic acetylcholine receptors are prototypes for the pharmaceutically important family of pentameric ligand-gated ion channels. Here we present atomic resolution structures of nicotine and carbamylcholine binding to AChBP, a water-soluble homolog of the ligand binding domain of nicotinic receptors and their family members, GABAA, GABAC, 5HT3 serotonin, and glycine receptors. Ligand binding is driven by enthalpy and is accompanied by conformational changes in the ligand binding site. Residues in the binding site contract around the ligand, with the largest movement in the C loop. As expected, the binding is characterized by substantial aromatic and hydrophobic contributions, but additionally there are close contacts between protein oxygens and positively charged groups in the ligands. The higher affinity of nicotine is due to a main chain hydrogen bond with the B loop and a closer packing of the aromatic groups. These structures will be useful tools for the development of new drugs involving nicotinic acetylcholine receptor-associated diseases.

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REV7 counteracts DNA double-strand break resection and affects PARP inhibition

Chapman

Brandsma

et al. 2015

Nature

521

505

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Summary Error-free repair of DNA double-strand breaks (DSB) is achieved by homologous recombination (HR), and BRCA1 is an important factor for this repair pathway1. In the absence of BRCA1-mediated HR, administration of PARP inhibitors induces synthetic lethality of tumor cells of patients with breast or ovarian cancers2,3. Despite the benefit of this tailored therapy, drug resistance can occur by HR restoration4. Genetic reversion of BRCA1-inactivating mutations can be the underlying mechanism of drug resistance, but this does not explain resistance in all cases5. In particular, little is known about BRCA1-independent restoration of HR. Here, we show that loss of REV7 (also known as MAD2L2) re-establishes CtIP-dependent end resection of DSBs in BRCA1-deficient cells, leading to HR restoration and PARP inhibitor resistance, reversed by ATM kinase inhibition. REV7 is recruited to DSBs in a manner dependent on the H2AX-MDC1-RNF8-RNF168-53BP1 chromatin pathway, and appears to block HR and promote end joining in addition to its regulatory role in DNA damage tolerance6. Finally, we establish that REV7 blocks DSB resection to promote non-homologous end-joining (NHEJ) during immunoglobulin class switch recombination. Our results reveal an unexpected critical function of REV7 downstream of 53BP1 in coordinating pathological DSB repair pathway choices in BRCA1-deficient cells.

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Crystal structure of nicotinic acetylcholine receptor homolog AChBP in complex with an α-conotoxin PnIA variant

Celie

Kasheverov

Mordvintsev

et al. 2005

Nat Struct Mol Biol

316

420

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Conotoxins (Ctx) form a large family of peptide toxins from cone snail venoms that act on a broad spectrum of ion channels and receptors. The subgroup alpha-Ctx specifically and selectively binds to subtypes of nicotinic acetylcholine receptors (nAChRs), which are targets for treatment of several neurological disorders. Here we present the structure at a resolution of 2.4 A of alpha-Ctx PnIA (A10L D14K), a potent blocker of the alpha(7)-nAChR, bound with high affinity to acetylcholine binding protein (AChBP), the prototype for the ligand-binding domains of the nAChR superfamily. Alpha-Ctx is buried deep within the ligand-binding site and interacts with residues on both faces of adjacent subunits. The toxin itself does not change conformation, but displaces the C loop of AChBP and induces a rigid-body subunit movement. Knowledge of these contacts could facilitate the rational design of drug leads using the Ctx framework and may lead to compounds with increased receptor subtype selectivity.

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Structural determinants of selective α-conotoxin binding to a nicotinic acetylcholine receptor homolog AChBP

Ulens

Hogg²,

Celie

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

187

233

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Vasohibins encode tubulin detyrosinating activity

Nieuwenhuis

Adamopoulos

Bleijerveld

et al. 2017

Science

221

202

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Tubulin is subjected to a number of posttranslational modifications to generate heterogeneous microtubules. The modifications include removal and ligation of the C-terminal tyrosine of ⍺-tubulin. The enzymes responsible for detyrosination, an activity first observed 40 years ago, have remained elusive. We applied a genetic screen in haploid human cells to find regulators of tubulin detyrosination. We identified SVBP, a peptide that regulates the abundance of vasohibins (VASH1 and VASH2). Vasohibins, but not SVBP alone, increased detyrosination of ⍺-tubulin, and purified vasohibins removed the C-terminal tyrosine of ⍺-tubulin. We found that vasohibins play a cell type-dependent role in detyrosination, although cells also contain an additional detyrosinating activity. Thus, vasohibins, hitherto studied as secreted angiogenesis regulators, constitute a long-sought missing link in the tubulin tyrosination cycle.

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P.H.N. Celie

Nicotine and Carbamylcholine Binding to Nicotinic Acetylcholine Receptors as Studied in AChBP Crystal Structures

REV7 counteracts DNA double-strand break resection and affects PARP inhibition

Crystal structure of nicotinic acetylcholine receptor homolog AChBP in complex with an α-conotoxin PnIA variant

Structural determinants of selective α-conotoxin binding to a nicotinic acetylcholine receptor homolog AChBP

Vasohibins encode tubulin detyrosinating activity

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