Effective Synthesis, Development and Application of a Highly Fluorescent Cyanine Dye for Antibody Conjugation and Microscopy Imaging

Szepesi Kovacs, Denes [Szepesi Kovács, Dénes (szerves kémia), author] Gyógyszerkémiai Kutatócsoport (IOC); Kontra, Bence* [Kontra, Bence (Szerves Kémia), author] School of PhD Studies (SU); Femtonics Ltd.; BrainVisionCenter Research Institute and Compet...; Chiovini, Balázs [Chiovini, Balázs (Neurobiológia), author] Információs Technológiai és Bionikai Kar (PPCU); Muller, Dalma [Müller, Dalma (biológus), author] Enzim_417 (IMLS); Bioinformatika Tanszék (SU / FM / I); School of PhD Studies (SU); Toth, Estilla Zsofia [Tóth, Estilla Zsófia (neurobiológia), author] School of PhD Studies (SU); Integrative Neuroscience Research Group (KPI); Ábrányi-Balogh, Péter [Ábrányi-Balogh, Péter (szerves kémia), author] Department of Organic Chemistry and Technology (BUTE / FCTB); Institute of Organic Chemistry (MTA TTK); Gyógyszerkémiai Kutatócsoport (IOC); Wittner, Lucia [Wittner, Lucia (Idegtudomány), author] Institute of Cognitive Neuroscience and Psychology; Varady, György [Várady, György (Membránbiológia), author] Institute of Enzymology (RCNS); Turczel, Gábor [Turczel, Gábor (kémia), author] Centre for Structural Sciences; Farkas, Ödön [Farkas, Ödön (Elméleti szerves ...), author] Department of Organic Chemistry (ELTE / ELU FoS / IC); Owen, Michael [Owen, Michael Christopher (számításos kémia), author] Kémiai Intézet (UM / AVK); Korszerű Anyagok és Intelligens Technológiák Fe... (UM / K); Katona, Gergely [Katona, Gergely (Farmakológia), author] MTA-PPKE ITK-NAP B Two-photon measurement techn... (PPCU / ITK); Gyorffy, Balazs [Győrffy, Balázs (Onkológia), author] Institute of Enzymology (RCNS); Enzim_417 (IMLS); Bioinformatika Tanszék (SU / FM / I); Keserű, György Miklós ✉ [Keserű, György Miklós (Gyógyszerkémia, g...), author] Department of Organic Chemistry and Technology (BUTE / FCTB); Institute of Organic Chemistry (MTA TTK); Gyógyszerkémiai Kutatócsoport (IOC); Mucsi, Zoltán ✉ [Mucsi, Zoltán (szerves kémia), author] Kémiai Intézet (UM / AVK); Femtonics Ltd.; BrainVisionCenter Research Institute and Compet...; Rózsa, Balázs** ✉ [Rózsa J., Balázs (Idegtudomány, fizika), author] Információs Technológiai és Bionikai Kar (PPCU); Neuronhálózat és Dendritikus Aktivitás Kutatócs...; Institute of Experimental Medicine; BrainVisionCenter Research Institute and Compet...; Kovács, Ervin ✉ [Kovács, Ervin (Szerves kémia), author] Institute of Materials and Environmental Chemistry (RCNS); Polymer Chemistry (IMEC); Femtonics Ltd.

English Article (Journal Article) Scientific
Published: ORGANIC & BIOMOLECULAR CHEMISTRY 1477-0520 1477-0539 21 (44) pp. 8829-8836 2023
  • SJR Scopus - Organic Chemistry: Q2
Fundings:
  • Nemzeti Gyógyszerkutatási és Fejlesztési Laboratórium(PharmaLab) Funder: NRDIO
  • (2018-1.3.1-VKE-2018-00032)
  • (KFI-18-2018-00097)
  • Thematic Excellence Program(TKP2021-EGA-42)
  • János Bolyai Research Scholarship of the Hungarian Academy of Sciences(TKP2021-NVA-15)
  • (2020-1.1.5-GYORSÍTÓSÁV-2021-00004,)
  • BrainVisionCenter(2020-2.1.1-ED-2021-00190)
  • (2020-2.1.1-ED-2022-00208)
  • (TKP2021-NVA-14)
  • (BO/799/21/7)
  • (ÚNKP-22-ME3)
An asymmetric cyanine-type fluorescent dye was designed and synthesized via a versatile, multi-step process, aiming to conjugate with an Her2+ receptor specific antibody by an azide-alkyne click reaction. The aromaticity and the excitation and relaxation energetics of the fluorophore were characterized by computational methods. The synthesized dye exhibited excellent fluorescence properties for confocal microscopy, offering efficient applicability in in vitro imaging due to its merits such as a high molar absorption coefficient (36 816 M-1 cm-1), excellent brightness, optimal wavelength (627 nm), larger Stokes shift (26 nm) and appropriate photostability compared to cyanines. The conjugated cyanine-trastuzumab was constructed via an effective, metal-free, strain-promoted azide-alkyne click reaction leading to a regulated number of dyes being conjugated. This novel cyanine-labelled antibody was successfully applied for in vitro confocal imaging and flow cytometry of Her2+ tumor cells. An azido cyanine dye was synthesized and characterized by computational and experimental techniques and applied in tumor cell imaging.
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2026-06-17 15:28