Oriol Pineda scite author profile

Cyclostreptin (1), a natural product from Streptomyces sp. 9885, irreversibly stabilizes cellular microtubules, causes cell cycle arrest, evades drug resistance mediated by P-glycoprotein in a tumor cell line and potently inhibits paclitaxel binding to microtubules, yet it only weakly induces tubulin assembly. In trying to understand this paradox, we observed irreversible binding of synthetic cyclostreptin to tubulin. This results from formation of covalent crosslinks to beta-tubulin in cellular microtubules and microtubules formed from purified tubulin in a 1:1 total stoichiometry distributed between Thr220 (at the outer surface of a pore in the microtubule wall) and Asn228 (at the lumenal paclitaxel site). Unpolymerized tubulin was only labeled at Thr220. Thus, the pore region of beta-tubulin is an undescribed binding site that (i) elucidates the mechanism by which taxoid-site compounds reach the kinetically unfavorable lumenal site and (ii) explains how taxoid-site drugs induce microtubule formation from dimeric and oligomeric tubulin.

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Control of neurotransmitter release by an internal gel matrix in synaptic vesicles

Reigada

Díez‐Pérez

Gorostiza

et al. 2003

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

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Neurotransmitters are stored in synaptic vesicles, where they have been assumed to be in free solution. Here we report that in Torpedo synaptic vesicles, only 5% of the total acetylcholine (ACh) or ATP content is free, and that the rest is adsorbed to an intravesicular proteoglycan matrix. This matrix, which controls ACh and ATP release by an ion-exchange mechanism, behaves like a smart gel. That is, it releases neurotransmitter and changes its volume when challenged with small ionic concentration change. Immunodetection analysis revealed that the synaptic vesicle proteoglycan SV2 is the core of the intravesicular matrix and is responsible for immobilization and release of ACh and ATP. We suggest that in the early steps of vesicle fusion, this internal matrix regulates the availability of free diffusible ACh and ATP, and thus serves to modulate the quantity of transmitter released.

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Computational comparison of microtubule-stabilising agents laulimalide and peloruside with taxol and colchicine

Pineda

Farràs

Maccari

et al. 2004

Bioorganic & Medicinal Chemistry Letters

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Molecular Recognition of Peloruside A by Microtubules. The C24 Primary Alcohol is Essential for Biological Activity

et al. 2010

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Peloruside is a microtubule-stabilizing agent that targets the same site as laulimalide. It binds to microtubules with a 1:1 stoichiometry and with a binding affinity in the low-muM range; thereby reducing the number of microtubular protofilaments in the same way as paclitaxel. Although the binding affinity of the compound is comparable to that of the low-affinity stabilizing agent sarcodictyin, peloruside is more active in inducing microtubule assembly and is more cytotoxic to tumor cells; this suggests that the peloruside site is a more effective site for stabilizing microtubules. Acetylation of the C24 hydroxyl group results in inactive compounds. According to molecular modeling, this substitution at the C24 hydroxyl group presumably disrupts the interaction of the side chain with Arg320 in the putative binding site on alpha-tubulin. The binding epitope of peloruside on microtubules has been studied by using NMR spectroscopic techniques, and is compatible with the same binding site.

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Oriol Pineda

Cyclostreptin binds covalently to microtubule pores and lumenal taxoid binding sites

Control of neurotransmitter release by an internal gel matrix in synaptic vesicles

Computational comparison of microtubule-stabilising agents laulimalide and peloruside with taxol and colchicine

Molecular Recognition of Peloruside A by Microtubules. The C24 Primary Alcohol is Essential for Biological Activity

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