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1. Tripodal BODIPY‐Tagged and Functional Molecular Probes: Synthesis, Computational Investigations and Explorations by Multiphoton Fluorescence Lifetime Imaging Microscopy.

Author

Lledos, Marina, Calatayud, David G., Cortezon‐Tamarit, Fernando, Ge, Haobo, Pourzand, Charareh, Botchway, Stanley W., Sodupe, Mariona, Lledós, Agustí, Eggleston, Ian M., and Pascu, Sofia I.

Subjects
CONFOCAL microscopy, STAINS & staining (Microscopy), CELL imaging, FLUOROPHORES, MICROSCOPY
Abstract

A range of novel BODIPY derivatives with a tripodal aromatic core was synthesized and characterized spectroscopically. These new fluorophores showed promising features as probes for in vitro assays in live cells and offer strategic routes for further functionalization towards hybrid nanomaterials. Incorporation of biotin tags facilitated proof‐of‐concept access to targeted bioconjugates as molecular probes. Computational explorations using DFT and TD‐DFT calculations identified the most stable tripodal linker conformations and predicted their absorption and emission behavior. The uptake and speciation of these molecules in living prostate cancer cells was imaged by single‐ and two‐photon excitation techniques coupled with two‐photon fluorescence lifetime imaging (2P FLIM). [ABSTRACT FROM AUTHOR]

Published
2024
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3. Structural and Functional Diversity in Rigid Thiosemicarbazones with Extended Aromatic Frameworks: Microwave-Assisted Synthesis and Structural Investigations.

Author

Cortezon-Tamarit, Fernando, Song, Kexin, Kuganathan, Navaratnarajah, Arrowsmith, Rory L., Mota Merelo de Aguiar, Sara Raquel, Waghorn, Philip A., Brookfield, Adam, Shanmugam, Muralidharan, Collison, David, Ge, Haobo, Kociok-Köhn, Gabriele, Pourzand, Charareh, Dilworth, Jonathan Robin, and Pascu, Sofia Ioana

Published
2023
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6. Directed Molecular Stacking for Engineered Fluorescent Three‐Dimensional Reduced Graphene Oxide and Coronene Frameworks.

Author

Mao, Boyang, Cortezon‐Tamarit, Fernando, Ge, Haobo, Kuganathan, Navaratnarajah, Mirabello, Vincenzo, Palomares, Francisco J., Kociok‐Köhn, Gabriele, Botchway, Stanley W., Calatayud, David G., and Pascu, Sofia I.

Subjects
FLUORESCENCE resonance energy transfer, ZINC porphyrins, METALLOPORPHYRINS, HOST-guest chemistry, ARYL group, WATER purification, MEMBRANE separation, GRAPHENE oxide
Abstract

Three‐dimensional fluorescent graphene frameworks with controlled porous morphologies are of significant importance for practical applications reliant on controlled structural and electronic properties, such as organic electronics and photochemistry. Here we report a synthetically accessible approach concerning directed aromatic stacking interactions to give rise to new fluorogenic 3D frameworks with tuneable porosities achieved through molecular variations. The binding interactions between the graphene‐like domains present in the in situ‐formed reduced graphene oxide (rGO) with functional porphyrin molecules lead to new hybrids via an unprecedented solvothermal reaction. Functional free‐base porphyrins featuring perfluorinated aryl groups or hexyl chains at their meso‐ and β‐positions were employed in turn to act as directing entities for the assembly of new graphene‐based and foam‐like frameworks and of their corresponding coronene‐based hybrids. Investigations in the dispersed phase and in thin‐film by XPS, SEM and FLIM shed light onto the nature of the aromatic stacking within functional rGO frameworks (denoted rGOFs) which was then modelled semi‐empirically and by DFT calculations. The pore sizes of the new emerging reduced graphene oxide hybrids are tuneable at the molecular level and mediated by the bonding forces with the functional porphyrins acting as the "molecular glue". Single crystal X‐ray crystallography described the stacking of a perfluorinated porphyrin with coronene, which can be employed as a molecular model for understanding the local aromatic stacking order and charge transfer interactions within these rGOFs for the first time. This opens up a new route to controllable 3D framework morphologies and pore size from the Ångstrom to the micrometre scale. Theoretical modelling showed that the porosity of these materials is mainly due to the controlled inter‐planar distance between the rGO, coronene or graphene sheets. The host‐guest chemistry involves the porphyrins acting as guests held through π‐π stacking, as demonstrated by XPS. The objective of this study is also to shed light into the fundamental localised electronic and energy transfer properties in these new molecularly engineered porous and fluorogenic architectures, aiming in turn to understand how functional porphyrins may exert stacking control over the notoriously disordered local structure present in porous reduced graphene oxide fragments. By tuning the porosity and the distance between the graphene sheets using aromatic stacking with porphyrins, it is also possible to tune the electronic structure of the final nanohybrid material, as indicated by FLIM experiments on thin films. Such nanohybrids with highly controlled pores dimensions and morphologies open the way to new design and assembly of storage devices and applications incorporating π‐conjugated molecules and materials and their π‐stacks may be relevant towards selective separation membranes, water purification and biosensing applications. [ABSTRACT FROM AUTHOR]

Published
2019
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8. Synthesis, Radiolabelling and In Vitro Imaging of Multifunctional Nanoceramics.

Author

Lledos, Marina, Mirabello, Vincenzo, Sarpaki, Sophia, Ge, Haobo, Smugowski, Hubert J., Carroll, Laurence, Aboagye, Eric O., Aigbirhio, Franklin I., Botchway, Stanley W., Dilworth, Jonathan R., Calatayud, David G., Plucinski, Pawel K., Price, Gareth J., and Pascu, Sofia I.

Subjects
NANOPARTICLES, QUANTUM dots, NANOSTRUCTURED materials, QUANTUM electronics, IRON oxides
Abstract

Abstract: Molecular imaging has become a powerful technique in preclinical and clinical research aiming towards the diagnosis of many diseases. In this work, we address the synthetic challenges in achieving lab‐scale, batch‐to‐batch reproducible copper‐64‐ and gallium‐68‐radiolabelled metal nanoparticles (MNPs) for cellular imaging purposes. Composite NPs incorporating magnetic iron oxide cores with luminescent quantum dots were simultaneously encapsulated within a thin silica shell, yielding water‐dispersible, biocompatible and luminescent NPs. Scalable surface modification protocols to attach the radioisotopes 64Cu (t1/2=12.7 h) and 68Ga (t1/2=68 min) in high yields are reported, and are compatible with the time frame of radiolabelling. Confocal and fluorescence lifetime imaging studies confirm the uptake of the encapsulated imaging agents and their cytoplasmic localisation in prostate cancer (PC‐3) cells. Cellular viability assays show that the biocompatibility of the system is improved when the fluorophores are encapsulated within a silica shell. The functional and biocompatible SiO2 matrix represents an ideal platform for the incorporation of 64Cu and 68Ga radioisotopes with high radiolabelling incorporation. [ABSTRACT FROM AUTHOR]

Published
2018
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9. Encapsulation of Cadmium Selenide Nanocrystals in Biocompatible Nanotubes: DFT Calculations, X‐ray Diffraction Investigations, and Confocal Fluorescence Imaging.

Author

Calatayud, David G., Ge, Haobo, Kuganathan, Navaratnarajah, Mirabello, Vincenzo, Jacobs, Robert M. J., Rees, Nicholas H., Stoppiello, Craig T., Khlobystov, Andrei N., Tyrrell, Rex M., Como, Enrico Da, and Pascu, Sofia I.

Subjects
*CADMIUM selenide, *NANOCRYSTALS, *NANOTUBES, *DENSITY functional theory, *BIOMEDICAL materials, *X-ray diffraction, *FLUORESCENCE
Abstract

Abstract: The encapsulation of CdSe nanocrystals within single‐walled carbon nanotube (SWNT) cavities of varying dimensions at elevated temperatures under strictly air‐tight conditions is described for the first time. The structures of CdSe nanocrystals under confinement inside SWNTs was established in a comprehensive study, combining both experimental and DFT theoretical investigations. The calculated binding energies show that all considered polymorphs [(3:3), (4:4), and (4:2)] may be obtained experimentally. The most thermodynamically stable structure (3:3) is directly compared to the experimentally observed CdSe structures inside carbon nanotubes. The gas‐phase DFT‐calculated energy difference between “free” 3:3 and 4:2 structures (whereby 3:3 models a novel tubular structure in which both Cd and Se form three coordination, as observed experimentally for HgTe inside SWNT, and 4:2 is a motif derived from the hexagonal CuI bulk structure in which both Cd and Se form 4 or 2 coordination) is surprisingly small, only 0.06 eV per formula unit. X‐ray powder diffraction, Raman spectroscopy, high‐resolution transmission electron microscopy, and energy‐dispersive X‐ray analyses led to the full characterization of the SWNTs filled with the CdSe nanocrystals, shedding light on the composition, structure, and electronic interactions of the new nanohybrid materials on an atomic level. A new emerging hybrid nanomaterial, simultaneously filled and beta‐ d‐glucan coated, was obtained by using pristine nanotubes and bulk CdSe powder as starting materials. This displayed fluorescence in water dispersions and unexpected biocompatibility was found to be mediated by beta‐ d‐glucan (a biopolymer extracted from barley) with respect to that of the individual inorganic material components. For the first time, such supramolecular nanostructures are investigated by life‐science techniques applied to functional nanomaterial characterization, opening the door for future nano‐biotechnological applications. [ABSTRACT FROM AUTHOR]

Published
2018
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10. Lysosomal tracking with a cationic naphthalimide using multiphoton fluorescence lifetime imaging microscopy.

Author

Ge, Haobo, Mirabello, Vincenzo, Arrowsmith, Rory L., Kociok-Köhn, Gabriele, Pascu, Sofia I., James, Tony D., Li, Meng, Botchway, Stanley W., and Zhu, Weihong

Subjects
*NAPHTHALIMIDES, *MULTIPHOTON processes, *FLUORESCENCE microscopy
Abstract

A naphthalimide-based chemosensing motif turns ON the fluorescence emission in solution in the presence of aqueous iron(iii) chloride, and maintains this property in living cancer cells. The emission response to Fe(iii) ions occurs simultaneously with a change in pH. The protonation of methyl piperazine-conjugated naphthalimide promotes its lysosomal localisation as assessed by co-localisation tests and fluorescence lifetime imaging microscopy (FLIM) in vitro. [ABSTRACT FROM AUTHOR]

Published
2017
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11. Fluorescence-Lifetime Imaging and Super-Resolution Microscopies Shed Light on the Directed- and Self-Assembly of Functional Porphyrins onto Carbon Nanotubes and Flat Surfaces.

Author

Mao, Boyang, Calatayud, David G., Mirabello, Vincenzo, Kuganathan, Navaratnarajah, Ge, Haobo, Jacobs, Robert M. J., Shepherd, Ashley M., Ribeiro Martins, José A., Bernardino De La Serna, Jorge, Hodges, Benjamin J., Botchway, Stanley W., and Pascu, Sofia I.

Subjects
FLUORESCENCE, HIGH resolution imaging, PORPHYRINS, CARBON nanotubes, HOST-guest chemistry
Abstract

Functional porphyrins have attracted intense attention due to their remarkably high extinction coefficients in the visible region and potential for optical and energy-related applications. Two new routes to functionalised SWNTs have been established using a bulky ZnII-porphyrin featuring thiolate groups at the periphery. We probed the optical properties of this zinc(II)-substituted, bulky aryl porphyrin and those of the corresponding new nano-composites with single walled carbon nanotube (SWNTs) and coronene, as a model for graphene. We report hereby on: i) the supramolecular interactions between the pristine SWNTs and ZnII-porphyrin by virtue of π-π stacking, and ii) a novel covalent binding strategy based on the Bingel reaction. The functional porphyrins used acted as dispersing agent for the SWNTs and the resulting nanohybrids showed improved dispersibility in common organic solvents. The synthesized hybrid materials were probed by various characterisation techniques, leading to the prediction that supramolecular polymerisation and host-guest functionalities control the fluorescence emission intensity and fluorescence lifetime properties. For the first time, XPS studies highlighted the differences in covalent versus non-covalent attachments of functional metalloporphyrins to SWNTs. Gas-phase DFT calculations indicated that the ZnII-porphyrin interacts non-covalently with SWNTs to form a donor-acceptor complex. The covalent attachment of the porphyrin chromophore to the surface of SWNTs affects the absorption and emission properties of the hybrid system to a greater extent than in the case of the supramolecular functionalisation of the SWNTs. This represents a synthetic challenge as well as an opportunity in the design of functional nanohybrids for future sensing and optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published
2017
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12. Thermally Reduced Graphene Oxide Nanohybrids of Chiral Functional Naphthalenediimides for Prostate Cancer Cells Bioimaging.

Author

Tyson, James A., Mirabello, Vincenzo, Calatayud, David G., Ge, Haobo, Kociok‐Köhn, Gabriele, Botchway, Stanley W., Dan Pantoş, G., and Pascu, Sofia I.

Subjects
GRAPHENE oxide, PROSTATE cancer, CANCER cells, BIO-imaging sensors, SMALL molecules, HALOGENS
Abstract

This study reports on the supramolecular assemblies formed between planar carbon systems (PCSs) such as thermally reduced graphene oxide (TRGO) and its small-molecule model system coronene and a series of d- and l-α amino acid derivatized naphthalenediimides (NDIs) where the halogen substituents (X = F, Cl, Br, I) are varied systematically. Confocal fluorescence microscopy of NDIs, NDI•coronene, and NDI•TRGO complexes is performed proving the uptake and stability of such complexes in the cellular environment and suggesting their potential as prostate cancer imaging agents. 1H NMR and UV-vis spectroscopy studies support the formation of charge transfer complexes whereby the increasing polarizability and general electronegativity of the aryl halide substituted at the NDI periphery influence the magnitude of the association constants in the ground state between NDI and coronene. Complexation between NDIs and PCSs also results in stable photoexcited assemblies within the solution (coronene) as well as the dispersed phased (TRGO). Fluorescence emission titrations and 2-photon time correlated single photon counting measurements suggest the existence of dynamic quenching mechanisms upon the excitation of the fluorophore in the presence of the carbon substrates, as these methods are sensitive proves for the subtle changes in the NDI environment. The series of halogenated species used exerts supramolecular control over the degree of surface assembly on the TRGO and over the interactions with the coronene molecule, and this is of relevance to the assembly of future biosensing platforms as these materials can both be viewed as congeners of graphene. Finally, MTT assays carried out in PC-3 cells demonstrate that the stable noncovalent functionalization of TRGO and coronene with either l or d NDIs remarkably improves the cellular viability in the presence of such graphene-like materials. These phenomena are of particular relevance for the understanding of the direct donor-acceptor interactions in solutions which govern the design of nanomaterials with future biosensing and bioimaging applications. [ABSTRACT FROM AUTHOR]

Published
2016
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13. Metallic nanoparticles as synthetic building blocks for cancer diagnostics: from materials design to molecular imaging applications.

Author

Mirabello, Vincenzo, Calatayud, David G., Arrowsmith, Rory L., Ge, Haobo, and Pascu, Sofia I.

Abstract

Metallic nanoparticles have been a matter of intense exploration within the last decade due to their potential to change the face of the medical world through their role as ‘nanotheranostics’. Their envisaged capacity to act as synthetic platforms for a multimodal imaging approach to diagnosis and treatment of degenerative diseases, including cancer, remains a matter of lively debate. Certain synthetic metal-based nanomaterials, e.g. gold and iron oxide nanoparticles, are already in clinical use or under advanced preclinical investigations following in vitro and in vivo preclinical imaging success. We surveyed the recent publications landscape including those reported metallic nanoparticles having established applications in vivo, as well as some of the new metallic nanoparticles which, despite their potential as cancer nanodiagnostics, are currently awaiting in vivo evaluation. The objective of this review is to highlight the current metallic nanoparticles and/or alloys as well as their derivatives with multimodal imaging potential, focusing on their chemistry as a springboard to discussing their role in the future of nanomedicines design. We also highlight here some of the fundamentals of molecular and nano-imaging techniques of relevance to the metal-based colloids, alloys and metallic nanoparticles discerning their future prospects as cancer nanodiagnostics. The current approaches for metallic and alloy surface derivatisation, aiming to achieve functional and biocompatible materials for multimodal bioimaging applications, are discussed in order to bring about some new perspectives on the efficiency of metallic nanoparticles as synthetic scaffolds for imaging probe design and forecast their future use in medical imaging techniques (optical, CT, PET, SPECT and MRI). [ABSTRACT FROM AUTHOR]

Published
2015
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14. A fluorescent Arg–Gly–Asp (RGD) peptide–naphthalenediimide (NDI) conjugate for imaging integrin αvβ3in vitro.

Author

Hu, Zhiyuan, Arrowsmith, Rory L., Tyson, James A., Mirabello, Vincenzo, Ge, Haobo, Eggleston, Ian M., Botchway, Stanley W., Dan Pantos, G., and Pascu, Sofia I.

Subjects
TRYPTOPHAN, AMINO acids, CONFOCAL fluorescence microscopy, FLUORESCENCE microscopy, CANCER cell analysis
Abstract

We have developed a fluorescent peptide conjugate (TrpNDIRGDfK) based on the coupling of cyclo(RGDfK) to a new tryptophan-tagged amino acid naphthalenediimide (TrpNDI). Confocal fluorescence microscopy coupled with fluorescence lifetime imaging (FLIM) mapping, single and two-photon fluorescence excitation, lifetime components and corresponding decay profiles were used as parameters able to investigate qualitatively the cellular behavior regarding the molecular environment and biolocalisation of TrpNDI and TrpNDI–RGDfK in cancer cells. [ABSTRACT FROM AUTHOR]

Published
2015
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17. Re and 99mTc complexes of BodP3 - multi-modality imaging probes.

Author

Davies, Laura H., Clegg, William, Harringtona, Ross W., Higham, Lee J., Kasten, Benjamin B., Benny, Paul D., Arrowsmith, Rory L., Ge Haobo, Pascu, Sofia I., and Botchway, Stan W.

Subjects
RHENIUM, PHOSPHINE, CANCER cells, FLUORESCENT probes, SINGLE-photon emission computed tomography
Abstract

A fluorescent tridentate phosphine, BodP3 (2), forms rhenium complexes which effectively image cancer cells. Related technetium analogues are also readily prepared and have potential as dual SPECT/fluorescent biological probes. [ABSTRACT FROM AUTHOR]

Published
2014
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18. Extracellular Electrophysiology in the Prostate Cancer Cell Model PC-3.

Author

Cabello, Miguel, Ge, Haobo, Aracil, Carmen, Moschou, Despina, Estrela, Pedro, Manuel Quero, Jose, I. Pascu, Sofia, and R. F. Rocha, Paulo

Subjects
*PROSTATE cancer, *NANOPARTICLES, *CELL proliferation, *ELECTRODES, *T cells
Abstract

Although prostate cancer is one of the most common cancers in the male population, its basic biological function at a cellular level remains to be fully understood. This lack of in depth understanding of its physiology significantly hinders the development of new, targeted and more effective treatment strategies. Whilst electrophysiological studies can provide in depth analysis, the possibility of recording electrical activity in large populations of non-neuronal cells remains a significant challenge, even harder to address in the picoAmpere-range, which is typical of cellular level electrical activities. In this paper, we present the measurement and characterization of electrical activity of populations of prostate cancer cells PC-3, demonstrating for the first time a meaningful electrical pattern. The low noise system used comprises a multi-electrode array (MEA) with circular gold electrodes on silicon oxide substrates. The extracellular capacitive currents present two standard patterns: an asynchronous sporadic pattern and a synchronous quasi-periodic biphasic spike pattern. An amplitude of ±150 pA, a width between 50–300 ms and an inter-spike interval around 0.5 Hz characterize the quasi-periodic spikes. Our experiments using treatment of cells with Gd3⁺, known as an inhibitor for the Ca2⁺ exchanges, suggest that the quasi-periodic signals originate from Ca2⁺ channels. After adding the Gd3⁺ to a population of living PC-3 cells, their electrical activity considerably decreased; once the culture was washed, thus eliminating the Gd3⁺ containing medium and addition of fresh cellular growth medium, the PC-3 cells recovered their normal electrical activity. Cellular viability plots have been carried out, demonstrating that the PC-3 cells remain viable after the use of Gd3⁺, on the timescale of this experiment. Hence, this experimental work suggests that Ca2⁺ is significantly affecting the electrophysiological communication pattern among PC-3 cell populations. Our measuring platform opens up new avenues for real time and highly sensitive investigations of prostate cancer signalling pathways. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Frontispiece: Fluorescence-Lifetime Imaging and Super-Resolution Microscopies Shed Light on the Directed- and Self-Assembly of Functional Porphyrins onto Carbon Nanotubes and Flat Surfaces.

Author

Mao, Boyang, Calatayud, David G., Mirabello, Vincenzo, Kuganathan, Navaratnarajah, Ge, Haobo, Jacobs, Robert M. J., Shepherd, Ashley M., Ribeiro Martins, José A., Bernardino De La Serna, Jorge, Hodges, Benjamin J., Botchway, Stanley W., and Pascu, Sofia I.

Subjects
HIGH resolution imaging, CARBON nanotubes, PORPHYRINS
Abstract

Stimulated emission depletion (STED) super‐resolution imaging and multiphoton fluorescence lifetime imaging techniques are used to image the aggregation of ZnII porphyrin arrays onto flat and conductive, as well as insulating, surfaces. New synthetic routes using directed‐ as well as self‐assembling methods of new, luminescent hybrids incorporating these functional porphyrins and pristine single‐walled carbon nanotubes (SWNTs) are reported. Multi‐domain imaging and spectroscopy techniques shed light on the potential implications of the covalent and supramolecular functionalization approaches in solution, dispersion, on surfaces and in the solid state. For more information, see the Full Paper by S. I. Pascu et al. on page 9772 ff. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Tripodal BODIPY-Tagged and Functional Molecular Probes: Synthesis, Computational Investigations and Explorations by Multiphoton Fluorescence Lifetime Imaging Microscopy.

Author

Lledos M, Calatayud DG, Cortezon-Tamarit F, Ge H, Pourzand C, Botchway SW, Sodupe M, Lledós A, Eggleston IM, and Pascu SI

Subjects
Humans, Microscopy, Fluorescence, Multiphoton methods, Density Functional Theory, Molecular Probes chemistry, Molecular Probes chemical synthesis, Cell Line, Tumor, Biotin chemistry, Boron Compounds chemistry, Fluorescent Dyes chemistry
Abstract

A range of novel BODIPY derivatives with a tripodal aromatic core was synthesized and characterized spectroscopically. These new fluorophores showed promising features as probes for in vitro assays in live cells and offer strategic routes for further functionalization towards hybrid nanomaterials. Incorporation of biotin tags facilitated proof-of-concept access to targeted bioconjugates as molecular probes. Computational explorations using DFT and TD-DFT calculations identified the most stable tripodal linker conformations and predicted their absorption and emission behavior. The uptake and speciation of these molecules in living prostate cancer cells was imaged by single- and two-photon excitation techniques coupled with two-photon fluorescence lifetime imaging (2P FLIM)., (© 2024 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published
2024
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21. Reduction of the two-photon temporal distinguishability for measurement-device-independent quantum key distribution.

Author

Ge H, Tomita A, Okamoto A, and Ogawa K

Abstract

Measurement-device-independent quantum key distribution (MDI-QKD) has been proven to protect legitimate users from attacks against measurement devices. The MDI-QKD requires that the two photons arriving at the instrument be indistinguishable. Precise time control is required to eliminate the distinguishability due to differences in photon arrival times. In the conventional methods, the time difference between photons is measured at a measuring instrument (Charlie), and a control signal is transmitted to the users (Alice and Bob). However, this method requires a long feedback loop, and the control may become unstable for long-distance transmission. This article proposes a method in which the photon arrival time difference is detected and controlled at Charlie. The reference signal for the time control is generated by an optical frequency comb in synchronization with the quantum signal. Therefore, the quantum signal photons can also be synchronized by synchronizing the reference signal pulses. A proof-of-principle experiment confirmed that the time synchronization accuracy required for protocol execution could be obtained. This proposal simplifies the implementation of the MDI-QKD.

Published
2024
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22. Fluorescent naphthalimide boronates as theranostics: structural investigations, confocal fluorescence and multiphoton fluorescence lifetime imaging microscopy in living cells.

Author

Green MJ, Ge H, Flower SE, Pourzand C, Botchway SW, Wang HC, Kuganathan N, Kociok-Köhn G, Li M, Xu S, James TD, and Pascu SI

Abstract

New design and synthetic strategies were developed to generate functional phenyl boronic acid (BA)-based fluorescent probes incorporating the 1,8-naphthalimide (NI) tag. This fluorescent core was anchored onto the BA unit through small organic linkers consisting of nitrogen groups which can arrest, and internally stabilise the phenyl-boronate units. The newly synthesised fluorophores were characterised spectroscopically by NMR spectroscopy and mass spectrometry and evaluated for their ability to bind to a naturally occurring polysaccharide, β-d-glucan in DMSO and simultaneously as act as in vitro cell imaging reagents. The uptake of these new NI-boronic acid derivatives was studied living cancer cells (HeLa, PC-3) in the presence, and absence, of β-d-glucan. Time-correlated single-photon counting (TCSPC) of DMSO solutions and two-photon fluorescence-lifetime imaging microscopy (FLIM) techniques allowed an insight into the probes' interaction with their environment. Their cellular uptake and distributions were imaged using laser scanning confocal fluorescence microscopy under single- and two-photon excitation regimes ( λ max 910 nm). FLIM facilitated the estimation of the impact of the probe's cellular surroundings using the fluorophore lifetime. The extent to which this was mediated by the β-d-glucan was visualised by 2-photon FLIM in living cells. The fluorescence lifetime observed under a range of temperatures varied appreciably, indicating that changes in the environment can be sensed by these probes. In all cases, the cellular membrane penetration of these new probes was remarkable even under variable temperature conditions and localisation was widely concentrated in the cellular cytoplasm, without specific organelle trapping: we conclude that these new probes show promise for cellular imaging in living cancer cells., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2023
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23. Unraveling the Chemistry of meso -Cl Tricarbocyanine Dyes in Conjugation Reactions for the Creation of Peptide Bonds.

Author

Exner RM, Cortezon-Tamarit F, Ge H, Pourzand C, and Pascu SI

Abstract

Tricarbocyanine dyes have become popular tools in life sciences and medicine. Their near-infrared (NIR) fluorescence makes them ideal agents for imaging of thick specimens or in vivo imaging, e.g. , in fluorescence-guided surgery. Among other types of cyanine dyes, meso -Cl tricarbocyanine dyes have received a surge of interest, as it emerged that their high reactivity makes them inherently tumor-targeting. As such, significant research efforts have focused on conjugating these to functional moieties. However, the syntheses generally suffer from low yields. Hereby, we report on the reaction of meso -Cl dyes with a small selection of coupling reagents to give the corresponding keto-polymethines, potentially explaining low yields and the prevalence of monofunctionalized cyanine conjugates in the current state of the art of functional near-infrared dyes. We present the synthesis and isolation of the first keto-polymethine-based conjugate and present preliminary investigation in the prostate cancer cell lines PC3 and DU145 by confocal microscopy and discuss changes to optical properties in biological media., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published
2022
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25. Nano-Theranostics for the Sensing, Imaging and Therapy of Prostate Cancers.

Author

Calatayud DG, Neophytou S, Nicodemou E, Giuffrida SG, Ge H, and Pascu SI

Abstract

We highlight hereby recent developments in the emerging field of theranostics, which encompasses the combination of therapeutics and diagnostics in a single entity aimed for an early-stage diagnosis, image-guided therapy as well as evaluation of therapeutic outcomes of relevance to prostate cancer (PCa). Prostate cancer is one of the most common malignancies in men and a frequent cause of male cancer death. As such, this overview is concerned with recent developments in imaging and sensing of relevance to prostate cancer diagnosis and therapeutic monitoring. A major advantage for the effective treatment of PCa is an early diagnosis that would provide information for an appropriate treatment. Several imaging techniques are being developed to diagnose and monitor different stages of cancer in general, and patient stratification is particularly relevant for PCa. Hybrid imaging techniques applicable for diagnosis combine complementary structural and morphological information to enhance resolution and sensitivity of imaging. The focus of this review is to sum up some of the most recent advances in the nanotechnological approaches to the sensing and treatment of prostate cancer (PCa). Targeted imaging using nanoparticles, radiotracers and biomarkers could result to a more specialised and personalised diagnosis and treatment of PCa. A myriad of reports has been published literature proposing methods to detect and treat PCa using nanoparticles but the number of techniques approved for clinical use is relatively small. Another facet of this report is on reviewing aspects of the role of functional nanoparticles in multimodality imaging therapy considering recent developments in simultaneous PET-MRI (Positron Emission Tomography-Magnetic Resonance Imaging) coupled with optical imaging in vitro and in vivo , whilst highlighting feasible case studies that hold promise for the next generation of dual modality medical imaging of PCa. It is envisaged that progress in the field of imaging and sensing domains, taken together, could benefit from the biomedical implementation of new synthetic platforms such as metal complexes and functional materials supported on organic molecular species, which can be conjugated to targeting biomolecules and encompass adaptable and versatile molecular architectures. Furthermore, we include hereby an overview of aspects of biosensing methods aimed to tackle PCa: prostate biomarkers such as Prostate Specific Antigen (PSA) have been incorporated into synthetic platforms and explored in the context of sensing and imaging applications in preclinical investigations for the early detection of PCa. Finally, some of the societal concerns around nanotechnology being used for the detection of PCa are considered and addressed together with the concerns about the toxicity of nanoparticles-these were aspects of recent lively debates that currently hamper the clinical advancements of nano-theranostics. The publications survey conducted for this review includes, to the best of our knowledge, some of the most recent relevant literature examples from the state-of-the-art. Highlighting these advances would be of interest to the biomedical research community aiming to advance the application of theranostics particularly in PCa diagnosis and treatment, but also to those interested in the development of new probes and methodologies for the simultaneous imaging and therapy monitoring employed for PCa targeting., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Calatayud, Neophytou, Nicodemou, Giuffrida, Ge and Pascu.)

Published
2022
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26. Structural Investigations, Cellular Imaging, and Radiolabeling of Neutral, Polycationic, and Polyanionic Functional Metalloporphyrin Conjugates.

Author

Ciaffaglione V, Waghorn PA, Exner RM, Cortezon-Tamarit F, Godfrey SP, Sarpaki S, Quilter H, Dondi R, Ge H, Kociok-Kohn G, Botchway SW, Eggleston IM, Dilworth JR, and Pascu SI

Subjects
Anions, Cations, Cell Line, Tumor, Density Functional Theory, Humans, Molecular Structure, Proof of Concept Study, Spectrum Analysis methods, Metalloporphyrins chemistry, Radioisotopes chemistry
Abstract

Over the past decade, porphyrin derivatives have emerged as invaluable synthetic building blocks and theranostic kits for the delivery of cellular fluorescence imaging and photodynamic therapy. Tetraphenylporphyrin (TPP), its metal complexes, and related derivatives have been investigated for their use as dyes in histology and as components of multimodal imaging probes. The photophysical properties of porphyrin-metal complexes featuring radiometals have been a focus of our attention for the realization of fluorescence imaging probes coupled with radioimaging capabilities and therapeutic potential having "true" theranostic promise. We report hereby on the synthesis, radiochemistry, structural investigations, and preliminary in vitro and in vivo uptake studies on a range of functionalized porphyrin-based derivatives. In pursuit of developing new porphyrin-based probes for multimodality imaging applications, we report new functionalized neutral, polycationic, and polyanionic porphyrins incorporating nitroimidazole and sulfonamide moieties, which were used as targeting groups to improve the notoriously poor pharmacokinetics of porphyrin tags. The resulting functional metalloporphyrin species were stable under serum challenges and the nitroimidazole and sulfonamide derivatives remained fluorescent, allowing in vitro confocal studies and visualization of the lysosomal uptake in a gallium(III) sulfonamide derivative. The molecular structures of selected porphyrin derivatives were determined by single crystal X-ray diffraction using synchrotron radiation. We also investigated the nature of the emission/excitation behavior of model functional porphyrins using in silico approaches such as TD DFT in simple solvation models. The conjugation of porphyrins with the [7-13] and [7-14] fragments of bombesin was also achieved, to provide targeting of the gastrin releasing peptide receptor (GRPR). Depending on the metal, probe conjugates of relevance for single photon emission computed tomography (SPECT) or positron emission tomography (PET) probes have been designed and tested hereby, using TPP and related functional free base porphyrins as the bifunctional chelator synthetic scaffold and 111 In[In] or 68 Ga[Ga], respectively, as the central metal ions. Interestingly, for simple porphyrin conjugates good radiochemical incorporation was obtained for both radiometals, but the presence of peptides significantly diminished the radio-incorporation yields. Although the gallium-68 radiochemistry of the bombesin conjugates did not show radiochemical incorporation suitable for in vivo studies, likely because the presence of the peptide changed the behavior of the TPP-NH 2 synthon taken alone, the optical imaging assays indicated that the conjugated peptide tags do mediate uptake of the porphyrin units into cells.

Published
2021
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27. Abstracts of the 28 th International Isotope Society (UK group) Symposium: The Synthesis & Applications of Labelled Compounds 2019.

Author

Nelson A, Phipps RJ, Crane GJ, Venanzi NAE, Lockley WJS, Tredwell M, Buurma NJ, Ballard A, Ahmad HO, Narduolo S, Rosa L, Chand N, Cosgrove DA, Varkonyi P, Asaad N, Tomasi S, Leach AG, Summerhill N, Bloom J, Newby M, Madden S, Roman D, Exner RM, Cortezon-Tamarit F, Ge H, Paisey S, Pascu SI, de Rosales RTM, Hailes HC, Wang Y, Zhao J, Méndez-Sánchez D, Rodan R, Subrizi F, Lichman BR, Keep NH, Ward JM, Harris M, Lamb M, Wilson V, Iafrate P, Bulat F, Néves AA, Hesse F, Hu DE, Aigbirhio F, Leeper FJ, Brindle KM, Rowbotham JS, Urata K, Reeve HA, Vincent KA, and Hueting R

Published
2020
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28. Lysosomal tracking with a cationic naphthalimide using multiphoton fluorescence lifetime imaging microscopy.

Author

Li M, Ge H, Mirabello V, Arrowsmith RL, Kociok-Köhn G, Botchway SW, Zhu W, Pascu SI, and James TD

Abstract

A naphthalimide-based chemosensing motif turns ON the fluorescence emission in solution in the presence of aqueous iron(iii) chloride, and maintains this property in living cancer cells. The emission response to Fe(iii) ions occurs simultaneously with a change in pH. The protonation of methyl piperazine-conjugated naphthalimide promotes its lysosomal localisation as assessed by co-localisation tests and fluorescence lifetime imaging microscopy (FLIM) in vitro.

Published
2017
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29. Fluorescence-Lifetime Imaging and Super-Resolution Microscopies Shed Light on the Directed- and Self-Assembly of Functional Porphyrins onto Carbon Nanotubes and Flat Surfaces.

Author

Mao B, Calatayud DG, Mirabello V, Kuganathan N, Ge H, Jacobs RMJ, Shepherd AM, Ribeiro Martins JA, Bernardino De La Serna J, Hodges BJ, Botchway SW, and Pascu SI

Abstract

Functional porphyrins have attracted intense attention due to their remarkably high extinction coefficients in the visible region and potential for optical and energy-related applications. Two new routes to functionalised SWNTs have been established using a bulky Zn II -porphyrin featuring thiolate groups at the periphery. We probed the optical properties of this zinc(II)-substituted, bulky aryl porphyrin and those of the corresponding new nano-composites with single walled carbon nanotube (SWNTs) and coronene, as a model for graphene. We report hereby on: i) the supramolecular interactions between the pristine SWNTs and Zn II -porphyrin by virtue of π-π stacking, and ii) a novel covalent binding strategy based on the Bingel reaction. The functional porphyrins used acted as dispersing agent for the SWNTs and the resulting nanohybrids showed improved dispersibility in common organic solvents. The synthesized hybrid materials were probed by various characterisation techniques, leading to the prediction that supramolecular polymerisation and host-guest functionalities control the fluorescence emission intensity and fluorescence lifetime properties. For the first time, XPS studies highlighted the differences in covalent versus non-covalent attachments of functional metalloporphyrins to SWNTs. Gas-phase DFT calculations indicated that the Zn II -porphyrin interacts non-covalently with SWNTs to form a donor-acceptor complex. The covalent attachment of the porphyrin chromophore to the surface of SWNTs affects the absorption and emission properties of the hybrid system to a greater extent than in the case of the supramolecular functionalisation of the SWNTs. This represents a synthetic challenge as well as an opportunity in the design of functional nanohybrids for future sensing and optoelectronic applications., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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30. A fluorescent Arg-Gly-Asp (RGD) peptide-naphthalenediimide (NDI) conjugate for imaging integrin α(v)β(3) in vitro.

Author

Hu Z, Arrowsmith RL, Tyson JA, Mirabello V, Ge H, Eggleston IM, Botchway SW, Pantos GD, and Pascu SI

Subjects
Animals, Cell Line, Tumor, Humans, Integrin alphaVbeta3 chemistry, Models, Molecular, Molecular Conformation, Fluorescent Dyes chemistry, Imides chemistry, Integrin alphaVbeta3 metabolism, Molecular Imaging methods, Naphthalenes chemistry, Oligopeptides chemistry
Abstract

We have developed a fluorescent peptide conjugate (TrpNDIRGDfK) based on the coupling of cyclo(RGDfK) to a new tryptophan-tagged amino acid naphthalenediimide (TrpNDI). Confocal fluorescence microscopy coupled with fluorescence lifetime imaging (FLIM) mapping, single and two-photon fluorescence excitation, lifetime components and corresponding decay profiles were used as parameters able to investigate qualitatively the cellular behavior regarding the molecular environment and biolocalisation of TrpNDI and TrpNDI-RGDfK in cancer cells.

Published
2015
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31. Re and (99m)Tc complexes of BodP3--multi-modality imaging probes.

Author

Davies LH, Kasten BB, Benny PD, Arrowsmith RL, Ge H, Pascu SI, Botchway SW, Clegg W, Harrington RW, and Higham LJ

Subjects
Cell Line, Tumor, Crystallography, X-Ray, Humans, Male, Models, Molecular, Phosphines analysis, Prostatic Neoplasms diagnosis, Coordination Complexes analysis, Fluorescent Dyes analysis, Multimodal Imaging, Optical Imaging, Rhenium analysis, Technetium analysis, Tomography, Emission-Computed, Single-Photon
Abstract

A fluorescent tridentate phosphine, BodP3 (2), forms rhenium complexes which effectively image cancer cells. Related technetium analogues are also readily prepared and have potential as dual SPECT/fluorescent biological probes.

Published
2014
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32. Ditopic boronic acid and imine-based naphthalimide fluorescence sensor for copper(II).

Author

Li M, Ge H, Arrowsmith RL, Mirabello V, Botchway SW, Zhu W, Pascu SI, and James TD

Subjects
HeLa Cells, Humans, Imines chemistry, Microscopy, Fluorescence methods, Optical Imaging methods, Spectrometry, Fluorescence methods, Boronic Acids chemistry, Copper analysis, Fluorescent Dyes chemistry, Naphthalimides chemistry
Abstract

Copper ions are essential for many biological processes. However, high concentrations of copper can be detrimental to the cell or organism. A novel naphthalimide derivative bearing a monoboronic acid group (BNP) was investigated as a Cu(2+) selective fluorescent sensor in living cells. This derivative is one of the rare examples of reversible fluorescent chemosensors for Cu(2+) which uses a boronic acid group for a binding site. Moreover, the adduct BNP-Cu(2+) displays a fluorescence enhancement with fructose. The uptake of this novel compound in HeLa cancer cells was imaged using confocal fluorescence microscopy techniques including two-photon fluorescence lifetime imaging microscopy.

Published
2014
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33. Hydrothermal conversion of one-photon-fluorescent poly(4-vinylpyridine) into two-photon-fluorescent carbon nanodots.

Author

Lawrence K, Xia F, Arrowsmith RL, Ge H, Nelson GW, Foord JS, Felipe-Sotelo M, Evans ND, Mitchels JM, Flower SE, Botchway SW, Wolverson D, Aliev GN, James TD, Pascu SI, and Marken F

Subjects
Biological Transport, Fluorescent Dyes metabolism, HeLa Cells, Humans, Polyvinyls metabolism, Carbon chemistry, Fluorescent Dyes chemistry, Microscopy, Fluorescence, Multiphoton, Nanoparticles chemistry, Photons, Polyvinyls chemistry, Temperature
Abstract

A novel two-photon-fluorescent N,O-heteroatom-rich carbon nanomaterial has been synthesized and characterized. The new carbon nanoparticles were produced by hydrothermal conversion from a one-photon-fluorescent poly(4-vinylpyridine) precursor (P4VP). The carbonized particles (cP4VP dots) with nonuniform particle diameter (ranging from sub-6 to 20 nm with some aggregates up to 200 nm) exhibit strong fluorescence properties in different solvents and have also been investigated for applications in cell culture media. The cP4VP dots retain their intrinsic fluorescence in a cellular environment and exhibit an average excited-state lifetime of 2.0 ± 0.9 ns in the cell. The cP4VP dots enter HeLa cells and do not cause significant damage to outer cell membranes. They provide one-photon or two-photon fluorescent synthetic scaffolds for imaging applications and/or drug delivery.

Published
2014
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