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      저자 : Karty, Jonathan A. (검색결과 2 건)
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      • Chelation-induced diradical formation as an approach to modulation of the amyloid-b aggregation pathway

        Porter, M.,Kochi, A.,Karty, J.,Lim, M.,Zaleski, J. THE ROYAL SOCIETY OF CHEMISTRY 2015 Chemical Science Vol.6 No.2

      • Chelation-induced diradical formation as an approach to modulation of the amyloid-β aggregation pathway

        Porter, Meghan R.,Kochi, Akiko,Karty, Jonathan A.,Lim, Mi Hee,Zaleski, Jeffrey M. Royal Society of Chemistry 2015 Chemical Science Vol.6 No.2

        <▼1><P>We demonstrate that ligand–metal–Aβ interaction with subsequent radical generation is a relatively rapid mechanism for influencing Aβ structural integrity and thus, the aggregation pathway.</P></▼1><▼2><P>Current approaches toward modulation of metal-induced Aβ aggregation pathways involve the development of small molecules that bind metal ions, such as Cu(<SMALL>II</SMALL>) and Zn(<SMALL>II</SMALL>), and interact with Aβ. For this effort, we present the enediyne-containing ligand (<I>Z</I>)-<I>N</I>,<I>N</I>′-bis[1-pyridin-2-yl-meth(<I>E</I>)-ylidene]oct-4-ene-2,6-diyne-1,8-diamine (<B>PyED</B>), which upon chelation of Cu(<SMALL>II</SMALL>) and Zn(<SMALL>II</SMALL>) undergoes Bergman-cyclization to yield diradical formation. The ability of this chelation-triggered diradical to modulate Aβ aggregation is evaluated relative to the non-radical generating control pyridine-2-ylmethyl-(2-{[(pyridine-2-ylmethylene)-amino]-methyl}-benzyl)-amine (<B>PyBD</B>). Variable-pH, ligand UV-vis titrations reveal p<I>K</I><SUB>a</SUB> = 3.81(2) for <B>PyBD</B>, indicating it exists mainly in the neutral form at experimental pH. Lipinski's rule parameters and evaluation of blood–brain barrier (BBB) penetration potential by the PAMPA–BBB assay suggest that <B>PyED</B> may be CNS+ and penetrate the BBB. Both <B>PyED</B> and <B>PyBD</B> bind Zn(<SMALL>II</SMALL>) and Cu(<SMALL>II</SMALL>) as illustrated by bathochromic shifts of their UV-vis features. Speciation diagrams indicate that Cu(<SMALL>II</SMALL>)–<B>PyBD</B> is the major species at pH 6.6 with a nanomolar <I>K</I><SUB>d</SUB>, suggesting the ligand may be capable of interacting with Cu(<SMALL>II</SMALL>)–Aβ species. In the presence of Aβ<SUB>40/42</SUB> under hyperthermic conditions (43 °C), the radical-generating <B>PyED</B> demonstrates markedly enhanced activity (2–24 h) toward the modulation of Aβ species as determined by gel electrophoresis. Correspondingly, transmission electron microscopy images of these samples show distinct morphological changes to the fibril structure that are most prominent for Cu(<SMALL>II</SMALL>)–Aβ cases. The loss of CO<SUB>2</SUB> from the metal binding region of Aβ in MALDI-TOF mass spectra further suggests that metal–ligand–Aβ interaction with subsequent radical formation may play a role in the aggregation pathway modulation.</P></▼2>

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