Jorge E. Zúñiga scite author profile

Botulinum neurotoxin serotype A is the most lethal of all known toxins. Here, we report the crystal structure, along with SAR data, of the zinc metalloprotease domain of BoNT/A bound to a potent peptidomimetic inhibitor (Ki = 41 nM) that resembles the local sequence of the SNAP-25 substrate. Surprisingly, the inhibitor adopts a helical conformation around the cleavage site, in contrast to the extended conformation of the native substrate. The backbone of the inhibitor’s P1 residue displaces the putative catalytic water molecule and concomitantly interacts with the ‘proton shuttle’ E224. This mechanism of inhibition is aided by residue contacts in the conserved S1′ pocket of the substrate binding cleft, and the induction of new hydrophobic pockets, which are not present in the apo form, especially for the P2′ residue of the inhibitor. Our inhibitor is specific for BoNT/A as it does not inhibit other BoNT serotypes or thermolysin.

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Three Key Residues Underlie the Differential Affinity of the TGFβ Isoforms for the TGFβ Type II Receptor

Crescenzo

Hinck

Shu

et al. 2006

Journal of Molecular Biology

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Assembly of TβRI:TβRII:TGFβ Ternary Complex in vitro with Receptor Extracellular Domains is Cooperative and Isoform-dependent

Zúñiga

Groppe

Cui

et al. 2005

Journal of Molecular Biology

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The TβR-I Pre-Helix Extension Is Structurally Ordered in the Unbound Form and Its Flanking Prolines Are Essential for Binding

Zúñiga¹,

Ilangovan²,

Mahlawat³

et al. 2011

Journal of Molecular Biology

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Transforming growth factor β isoforms (TGF-β) are among the most recently evolved members of a signaling superfamily with more than 30 members. TGF-β play vital roles in regulating cellular growth and differentiation, and they signal through a highly restricted subset of receptors known as TGF-β type I receptor (TβR-I) and TGF-β type II receptor (TβR-II). TGF-β's specificity for TβR-I has been proposed to arise from its pre-helix extension, a five-residue loop that binds in the cleft between TGF-β and TβR-II. The structure and backbone dynamics of the unbound form of the TβR-I extracellular domain were determined using NMR to investigate the extension's role in binding. This showed that the unbound form is highly similar to the bound form in terms of both the β-strand framework that defines the three-finger toxin fold and the extension and its characteristic cis-Ile54-Pro55 peptide bond. The NMR data further showed that the extension and two flanking 310 helices are rigid on the nanosecond-to-picosecond timescale. The functional significance of several residues within the extension was investigated by binding studies and reporter gene assays in cultured epithelial cells. These demonstrated that the pre-helix extension is essential for binding, with Pro55 and Pro59 each playing a major role. These findings suggest that the pre-helix extension and its flanking prolines evolved to endow the TGF-β signaling complex with its unique specificity, departing from the ancestral promiscuity of the bone morphogenetic protein subfamily, where the binding interface of the type I receptor is highly flexible.

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Jorge E. Zúñiga

A Potent Peptidomimetic Inhibitor of Botulinum Neurotoxin Serotype A Has a Very Different Conformation than SNAP-25 Substrate

Three Key Residues Underlie the Differential Affinity of the TGFβ Isoforms for the TGFβ Type II Receptor

Assembly of TβRI:TβRII:TGFβ Ternary Complex in vitro with Receptor Extracellular Domains is Cooperative and Isoform-dependent

The TβR-I Pre-Helix Extension Is Structurally Ordered in the Unbound Form and Its Flanking Prolines Are Essential for Binding

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