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dc.contributor.authorVayá, Ignacio-
dc.contributor.authorAndreu, Inmaculada-
dc.contributor.authorLence, Emilio-
dc.contributor.authorGonzález-Bello, Concepción-
dc.contributor.authorCuquerella, M.Consuelo-
dc.contributor.authorNavarrete-Miguel, M.-
dc.contributor.authorRoca-Sanjuán, D.-
dc.contributor.authorMiranda, M. A.-
dc.identifierdoi: 10.1002/chem.202001336-
dc.identifierissn: 1521-3765-
dc.identifier.citationChemistry - A European Journal 26(68): 15922-15930 (2020)-
dc.description.abstractLapatinib (LAP) is an anticancer drug, which is metabolized to the N- and O-dealkylated products (N-LAP and O-LAP, respectively). In view of the photosensitizing potential of related drugs, a complete experimental and theoretical study has been performed on LAP, N-LAP and O-LAP, both in solution and upon complexation with human serum albumin (HSA). In organic solvents, coplanar locally excited (LE) emissive states are generated; they rapidly evolve towards twisted intramolecular charge-transfer (ICT) states. By contrast, within HSA only LE states are detected. Accordingly, femtosecond transient absorption reveals a very fast switching (ca. 2 ps) from LE (λ=550 nm) to ICT states (λ=480 nm) in solution, whereas within HSA the LE species become stabilized and live much longer (up to the ns scale). Interestingly, molecular dynamics simulation studies confirm that the coplanar orientation is preferred for LAP (or to a lesser extent N-LAP) within HSA, explaining the experimental results.-
dc.description.sponsorshipFinancial support from the Spanish Government (RYC‐2015‐17737, CTQ2017‐89416‐R, ISCIII grants RD16/0006/0004, PI16/01877 and CPII16/00052, SAF2016‐75638‐R, RYC‐2015–19234, CTQ2017‐87054‐C2‐2‐P, and MDM‐2015‐0538), Consellería d'Educació Cultura i Esport (PROMETEO/2017/075), the Xunta de Galicia [ED431B 2018/04 and Centro singular de investigación de Galicia accreditation 2019–2022 (ED431G 2019/03)] and the European Regional Development Fund is gratefully acknowledged. We thank the Centro de Supercomputación de Galicia (CESGA) for use of the Finis Terrae computer.-
dc.publisherJohn Wiley & Sons-
dc.titleCharacterization of Locally Excited and Charge-Transfer States of the Anticancer Drug Lapatinib by Ultrafast Spectroscopy and Computational Studies-
dc.contributor.funderMinisterio de Ciencia, Innovación y Universidades (España)-
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