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1. Fluorescent Self‐Threaded Peptide Probes for Biological Imaging

   https://doi.org/10.1002/ange.202009599  

   Zhai, Canjia ; Schreiber, Cynthia L. ; Padilla‐Coley, Sasha ; Oliver, Allen G. ; Smith, Bradley D. ( October 2020 , Angewandte Chemie)

   A general synthetic method creates a new class of covalently connected, self‐threaded, fluorescent molecular probes with figure‐eight topology, an encapsulated deep‐red fluorophore, and two peripheral peptide loops. The globular molecular shape and rigidified peptide loops enhance imaging performance by promoting water solubility, eliminating probe self‐aggregation, and increasing probe stability. Moreover, the peptide loops determine the affinity and selectivity for targets within complex biological samples such as cell culture, tissue histology slices, or living subjects. For example, a probe with cell‐penetrating peptide loops targets the surface of cell plasma membranes, whereas, a probe with bone‐targeting peptide loops selectively stains the skeleton within a living mouse. The unique combination of bright deep‐red fluorescence, high stability, and predictable peptide‐based targeting is ideal for photon intense fluorescence microscopy and biological imaging.

    

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2. Time-lapse imaging of cell death in cell culture and whole living organisms using turn-on deep-red fluorescent probes

   https://doi.org/10.1039/c8tb01495g  

   Jarvis, Tia S. ; Roland, Felicia M. ; Dubiak, Kyle M. ; Huber, Paul W. ; Smith, Bradley D. ( January 2018 , Journal of Materials Chemistry B)

   Cell death is a central process in developmental biology and also an important indicator of disease status and treatment efficacy. Two related fluorescent probes are described that are molecular conjugates of one or two zinc dipicolylamine (ZnDPA) coordination complexes with an appended solvatochromic benzothiazolium squaraine dye. The probes were designed to target the anionic phospholipid, phosphatidylserine (PS), that is exposed on the surface of dead and dying cells. A series of spectrometric and microscopy studies using liposomes and red blood cell ghosts as models showed that the probe with two ZnDPA targeting units produced higher affinity, stronger fluorescence “turn-on” effect, and better image contrast than the probe with one ZnDPA. Both fluorescent probes enabled “no-wash” time-lapse microscopic imaging of mammalian cell death within a culture. The probe with two ZnDPA units was used for non-invasive time-lapse imaging of cell death during the development of Xenopus laevis (frog) embryos. In vivo fluorescence micrographs revealed probe accumulation within the embryo tail, head and spine regions that were undergoing regression and apoptosis during growth and maturation. These new fluorescent probes are likely to be useful for time-resolved, non-invasive in vivo imaging of cell death process in range of living organisms. From a broader perspective, it should be possible to utilize the negative solvatochromism exhibited by benzothiazolium squaraine dyes for development of various “turn-on” deep-red fluorescent probes and materials that target cell surface biomarkers for in vitro and in vivo imaging. 

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3. Intracellular Antibody Delivery Mediated by Lipids, Polymers, and Inorganic Nanomaterials for Therapeutic Applications

   https://doi.org/10.1002/adtp.202000178  

   Li, Yamin ; Li, Peixuan ; Li, Raissa ; Xu, Qiaobing ( September 2020 , Advanced Therapeutics)

   Therapeutic antibodies, due to their high affinity and specificity toward their biological targets, may demonstrate reduced harmful side effects compared with traditional drug moieties. While most of the as‐yet clinically approved antibody therapeutics have targeted extracellular or membrane‐bound domains, the ability to target intracellular antigens with antibodies opens up tremendous opportunities for imaging, diagnosis, and therapeutic applications. Generally, delivery concerns have limited the ability to target intracellular antigens, as many antibodies cannot easily cross the cell membrane due to their size and surface chemistry. Delivery platforms have been explored to address this issue, including physical methods, fusion protein/peptide techniques, and synthetic carrier‐based systems. This review summarizes the progress of carrier‐based intracellular antibody delivery systems employing synthetic lipids, polymers, and inorganic nanomaterials. Antibodies targeting various epitopes have been loaded through adsorption, conjugation, or physical encapsulation strategies. Successful intracellular deliveries have been demonstrated largely through fluorescence imaging using dye‐labeled antibody cargos. Specific synthetic delivery platforms have great potential for ex vivo and in vivo therapeutic applications. Challenges and opportunities are further discussed for material scientists to explore in this research area.

    

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4. Spatial structure in the “Plastisphere”: Molecular resources for imaging microscopic communities on plastic marine debris

   https://doi.org/10.1111/1755-0998.13119  

   Schlundt, Cathleen ; Mark Welch, Jessica L. ; Knochel, Anna M. ; Zettler, Erik R. ; Amaral‐Zettler, Linda A. ( November 2019 , Molecular Ecology Resources)

   Plastic marine debris (PMD) affects spatial scales of life from microbes to whales. However, understanding interactions between plastic and microbes in the “Plastisphere”—the thin layer of life on the surface of PMD—has been technology‐limited. Research into microbe–microbe and microbe–substrate interactions requires knowledge of community phylogenetic composition but also tools to visualize spatial distributions of intact microbial biofilm communities. We developed a CLASI‐FISH (combinatorial labelling and spectral imaging – fluorescencein situhybridization) method using confocal microscopy to study Plastisphere communities. We created a probe set consisting of three existing phylogenetic probes (targeting all Bacteria,Alpha‐, andGammaproteobacteria) and four newly designed probes (targetingBacteroidetes,Vibrionaceae,RhodobacteraceaeandAlteromonadaceae) labelled with a total of seven fluorophores and validated this probe set using pure cultures. Our nested probe set strategy increases confidence in taxonomic identification because targets are confirmed with two or more probes, reducing false positives. We simultaneously identified and visualized these taxa and their spatial distribution within the microbial biofilms on polyethylene samples in colonization time series experiments in coastal environments from three different biogeographical regions. Comparing the relative abundance of 16S rRNA gene amplicon sequencing data with cell‐count abundance data retrieved from the microscope images of the same samples showed a good agreement in bacterial composition. Microbial communities were heterogeneous, with direct spatial relationships between bacteria, cyanobacteria and eukaryotes such as diatoms but also micro‐metazoa. Our research provides a valuable resource to investigate biofilm development, succession and associations between specific microscopic taxa at micrometre scales.

    

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5. Late-Stage Functionalization through Click Chemistry Provides GLUT5-Targeting Glycoconjugate as a Potential PET Imaging Probe

   https://doi.org/10.3390/ijms24010173  

   Oronova, Adelina ; Tanasova, Marina ( January 2023 , International Journal of Molecular Sciences)

   The targeting of facilitative sugar transporters (GLUTs) has been utilized in the development of tools for diagnostics and therapy. The interest in this area is promoted by the phenomenon of alterations in cellular metabolic processes that are linked to multitudes of metabolic disorders and diseases. However, nonspecific targeting (e.g., glucose-transporting GLUTs) leads to a lack of disease detection efficiency. Among GLUTs, GLUT5 stands out as a prominent target for developing specific molecular tools due to its association with metabolic diseases, including cancer. This work reports a non-radiolabeled fluoride (19F) coumarin-based glycoconjugate of 2,5-anhydro-D-mannitol as a potential PET imaging probe that targets the GLUT5 transporter. Inherent fluorescent properties of the coumarin fluorophore allowed us to establish the probe’s uptake efficiency and GLUT5-specificity in a GLUT5-positive breast cell line using fluorescence detection techniques. The click chemistry approach employed in the design of the probe enables late-stage functionalization, an essential requirement for obtaining the radiolabeled analog of the probe for future in vivo cancer imaging applications. The high affinity of the probe to GLUT5 allowed for the effective uptake in nutrition-rich media. 

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