The enhanced permeability and retention (EPR) effect controls passive nanodrug uptake in tumors, and may provide a high tumor payload with prolonged retention for cancer treatment. However, EPR-mediated tumor uptake and distribution vary by cancer phenotype. Thus, we hypothesized that a companion PET-imaging surrogate may benefit EPR-mediated therapeutic drug delivery.
View Article and Find Full Text PDFRadiopharmaceutical therapy using -emitting Ac is an emerging treatment for patients with advanced metastatic cancers. Measurement of the spatial dose distribution in organs and tumors is needed to inform treatment dose prescription and reduce off-target toxicity, at not only organ but also sub-organ scales. Digital autoradiography with -sensitive detection devices can measure radioactivity distributions at 20-40 resolution, but anatomical characterization is typically limited to 2D.
View Article and Find Full Text PDFThe tumor uptake of large non-targeted nanocarriers primarily occurs through passive extravasation, known as the enhanced permeability and retention (EPR) effect. Prior studies demonstrated improved tumor uptake and retention of 4-arm 40 kDa star polyethylene glycol (StarPEG) polymers for cancer imaging by adding prostate-specific membrane antigen (PSMA) targeting small molecule ligands. To test PSMA-targeted delivery and therapeutic efficacy, StarPEG nanodrugs with/without three copies of PSMA-targeting ligands, ACUPA, are designed and synthesized.
View Article and Find Full Text PDFImaging is increasingly used to detect and monitor bacterial infection. Both anatomic (X-rays, computed tomography, ultrasound, and MRI) and nuclear medicine ([In]-WBC SPECT, [F]FDG PET) techniques are used in clinical practice but lack specificity for the causative microorganisms themselves. To meet this challenge, many groups have developed imaging methods that target pathogen-specific metabolism, including PET tracers integrated into the bacterial cell wall.
View Article and Find Full Text PDFWe present a new method to measure sub-microcurie activities of photon-emitting radionuclides in organs and lesions of small animals in vivo. Our technique, named the collimator-less likelihood fit, combines a very high sensitivity collimatorless detector with a Monte Carlo-based likelihood fit in order to estimate the activities in previously segmented regions of interest along with their uncertainties. This is done directly from the photon projections in our collimatorless detector and from the region of interest segmentation provided by an x-ray computed tomography scan.
View Article and Find Full Text PDFAc, a long-lived α-emitter with a half-life of 9.92 days, has garnered significant attention as a therapeutic radionuclide when coupled with monoclonal antibodies and other targeting vectors. Nevertheless, its clinical utility has been hampered by potential off-target toxicity, a lack of optimized chelators for Ac, and limitations in radiolabeling methods.
View Article and Find Full Text PDFPurpose: Multiple myeloma is a plasma cell malignancy with an unmet clinical need for improved imaging methods and therapeutics. Recently, we identified CD46 as an overexpressed therapeutic target in multiple myeloma and developed the antibody YS5, which targets a cancer-specific epitope on this protein. We further developed the CD46-targeting PET probe [89Zr]Zr-DFO-YS5 for imaging and [225Ac]Ac-DOTA-YS5 for radiopharmaceutical therapy of prostate cancer.
View Article and Find Full Text PDFImaging infections in patients is challenging using conventional methods, motivating the development of positron emission tomography (PET) radiotracers targeting bacteria-specific metabolic pathways. Numerous techniques have focused on the bacterial cell wall, although peptidoglycan-targeted PET tracers have been generally limited to the short-lived carbon-11 radioisotope ( = 20.4 min).
View Article and Find Full Text PDFChemoenzymatic techniques have been applied extensively to pharmaceutical development, most effectively when routine synthetic methods fail. The regioselective and stereoselective construction of structurally complex glycans is an elegant application of this approach that is seldom applied to positron emission tomography (PET) tracers. We sought a method to dimerize 2-deoxy-[F]-fluoro-d-glucose ([F]FDG), the most common tracer used in clinical imaging, to form [F]-labeled disaccharides for detecting microorganisms based on their bacteria-specific glycan incorporation.
View Article and Find Full Text PDFMolecularly targeted radionuclide therapies (TRTs) struggle with balancing efficacy and safety, as current strategies to increase tumor absorption often alter drug pharmacokinetics to prolong circulation and normal tissue irradiation. Here we report the first covalent protein TRT, which, through reacting with the target irreversibly, increases radioactive dose to the tumor without altering the drug's pharmacokinetic profile or normal tissue biodistribution. Through genetic code expansion, we engineered a latent bioreactive amino acid into a nanobody, which binds to its target protein and forms a covalent linkage via the proximity-enabled reactivity, cross-linking the target irreversibly , on cancer cells, and on tumors .
View Article and Find Full Text PDFChemoenzymatic techniques have been applied extensively to pharmaceutical development, most effectively when routine synthetic methods fail. The regioselective and stereoselective construction of structurally complex glycans is an elegant application of this approach, that is seldom applied to positron emission tomography (PET) tracers. We sought a method to dimerize 2-deoxy-[ F]-fluoro-D-glucose ([ F]FDG), the most common tracer used in clinical imaging, to form [ F]-labeled disaccharides for detecting microorganisms based on their bacteria-specific glycan incorporation.
View Article and Find Full Text PDFAc-targeted α-radiotherapy is a promising approach to treating malignancies, including prostate cancer. However, α-emitting isotopes are difficult to image because of low administered activities and a low fraction of suitable γ-emissions. The in vivo generator Ce/La has been proposed as a potential PET imaging surrogate for the therapeutic nuclides Ac and Th.
View Article and Find Full Text PDFPurpose: Radiopharmaceutical therapy is changing the standard of care in prostate cancer and other malignancies. We previously reported high CD46 expression in prostate cancer and developed an antibody-drug conjugate and immunoPET agent based on the YS5 antibody, which targets a tumor-selective CD46 epitope. Here, we present the preparation, preclinical efficacy, and toxicity evaluation of [225Ac]DOTA-YS5, a radioimmunotherapy agent based on the YS5 antibody.
View Article and Find Full Text PDFPharmaceuticals (Basel)
October 2022
Chalcones are a class of privileged scaffolds with high medicinal significance due to the presence of an α,β-unsaturated ketone functionality. Numerous functional modifications of chalcones have been reported, along with their pharmacological behavior. The present review aims to summarize the structures from natural sources, synthesis methods, biological characteristics against infectious and non-infectious diseases, and uses of chalcones over the past decade, and their structure-activity relationship studies are detailed in depth.
View Article and Find Full Text PDFImmuno-positron emission tomography (immuno-PET) is a rapidly growing imaging technique in which antibodies are radiolabeled to monitor their in vivo behavior in real time. However, effecting the controlled conjugation of a chelate-bearing radioactive atom to a bulky antibody without affecting its immunoreactivity at a specific site is always challenging. The in vivo stability of the radiolabeled chelate is also a key issue for successful tumor imaging.
View Article and Find Full Text PDFCorrection for 'A short PEG linker alters the in vivo pharmacokinetics of trastuzumab to yield high-contrast immuno-PET images' by Woonghee Lee et al., J. Mater.
View Article and Find Full Text PDFThe prolonged blood circulation of the radiolabeled antibody conjugates is problematic when using immuno-PET imaging due to the increased radiation exposure and longer hospitalization required until sufficient contrast develops. In contrast to the prevailing belief that PEGylation prolongs blood retention time, we observed that a PEGylated antibody with a short PEG linker cleared much faster from the blood while maintaining tumor uptake compared to its non-PEGylated counterpart. Breast tumors were clearly visualized with a very high tumor-to-background ratio as early as 24 h after injection in immuno-positron emission tomography (PET) imaging.
View Article and Find Full Text PDFACS Appl Bio Mater
October 2019
A theranostic, small-molecule-based prodrug, designed to be activated programmatically against hypoxic tumors, was successfully developed. The prodrug was stimulated to release the active chemotherapeutic drug in concurrent with a rhodol fluorophore in artificial hypoxia mimic conditions or an hypoxic environment. The extent of prodrug activation was monitored under the hypoxia condition by monitoring a fluorescence signal at 543 nm.
View Article and Find Full Text PDFHydrogen sulfide (H2S) has been reported as a gaseous signaling molecule in cells. H2S modulation is dependent on the partial pressure of oxygen in cells, which means hypoxia can induce H2S production under various pathophysiological conditions. Hypoxia is a common condition in solid tumors and can lead to malignant tumors that may become aggressive and result in worse prognosis.
View Article and Find Full Text PDFConcurrently, manipulation of mitochondrial activity and its monitoring have enormous significance in cancer therapy and diagnosis. In this context, a fluorescent probe MitoDP has been developed for validating H2S mediated protonophore (2,4-dinitrophenol, DNP) induced mitochondrial membrane potential change, ROS formation and ATP depletion in cancer cells. The extent of protonophore activation for mitochondrial dysfunction is monitored through fluorescence signalling at 450 nm.
View Article and Find Full Text PDFRealizing the importance of activation of the anticancer drug, its distribution, and for cancer management, a new theranostic probe has been developed. Endogenous HS stimulated the theranostic molecular prodrug () which is activated in cancer cells; it monitors the actual time of formation of therapeutic agent SN-38 in cellular milieu through fluorescence imaging. Upon exposure to HS in a similar physiological condition, the azide functionality converted to amine (-NH) in which allows self-immolative scission of the labile benzyl-carbonate moiety for release of rhodol and SN-38 in a concerted manner.
View Article and Find Full Text PDFWe have developed a FRET-based fluorescent probe (PHS1) as a combination of two different fluorophores (coumarin and naphthalimide); which can detect both exogenous and endogenous HS and HO in live cells through multicolor images. The precise overlap between UV-absorption of naphthalimide and the emission band of coumarin in probe PHS1 allows the acquisition of the self-calibrated information of dual analytes through FRET-based imaging. The UV-Vis absorption (λ 390 nm) and fluorescence emission (λ 460 nm) of probe PHS1 in the presence of HO are increased ∽35- fold and ∽15-fold respectively.
View Article and Find Full Text PDFWe report herein, an azo-derivative (AzP1) of FDA approved antineoplastic drug SN-38 (irinotecan analogue) as a theranostic agent with a potential for both tumor hypoxia-specific activation and therapy. The theranostic AzP1 was found to be stable within a biologically relevant pH scale and was chemically inert towards other competitive biological analytes. However, upon treatment with rat-liver microsomes, AzP1 showed a self-calibrated fluorescence enhancement at λ = 560 nm.
View Article and Find Full Text PDFHerein, we report rational design, synthesis, and application of a two-photon fluorescent probe (Tyro-1) for tracking intracellular tyrosinase activity. The chemoselective detection of tyrosinase is precluded from interference of other competitive omnipresent oxidizing entities in cellular milieu. The probe showed 12.
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