Wael Alsibai scite author profile

Integrins are heterodimeric transmembrane protein receptors consisting of different α and β subunits. α(v)β(3) integrins are overexpressed on many tumor cells and tumor-associated angiogenic vessels, whereas α(IIb)β(3) is a receptor for, e.g., fibrinogen and mediates platelet aggregation. In this study, a near-infrared fluorescent imaging probe has been designed and synthesized by conjugating fluorescent dyes to a non-peptidic, pharmacophore-based ligand, based on a molecular modeling design approach. Affinity values were determined, and in vitro cell binding assays and preliminary in vivo xenograft studies in nude mice were performed to evaluate target binding. Competition assays revealed excellent binding and selectivity to α(v)β(3) compared to that for α(IIb)β(3). In vitro, the probe showed high target binding on α(v)β(3)-positive M-21 cells and negligible binding to α(v)β(3)-negative MCF-7 cells. In vivo, the tracer is able to image target expression in U-87 xenografts with a maximum signal-to-noise ratio (SNR) of 2.5:1 at 24 h after injection.

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How Different Albumin-Binders Drive Probe Distribution of Fluorescent RGD Mimetics

Höltke

Alsibai

Grewer

et al. 2021

Front. Chem.

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The biodistribution of medical imaging probes depends on the chemical nature of the probe and the preferred metabolization and excretion routes. Especially targeted probes, which have to reach a certain (sub)cellular destination, have to be guided to the tissue of interest. Therefore, small molecular probes need to exhibit a well-balanced polarity and lipophilicity to maintain an advantageous bioavailability. Labelled antibodies circulate for several days due to their size. To alter the biodistribution behavior of probes, different strategies have been pursued, including utilizing serum albumin as an inherent transport mechanism for small molecules. We describe here the modification of an existing fluorescent RGD mimetic probe targeted to integrin αvβ3 with three different albumin binding moieties (ABMs): a diphenylcyclohexyl (DPCH) group, a p-iodophenyl butyric acid (IPBA) and a fatty acid (FA) group with the purpose to identify an optimal ABM for molecular imaging applications. All three modifications result in transient albumin binding and a preservation of the target binding capability. Spectrophotometric measurements applying variable amounts of bovine serum albumin (BSA) reveal considerable differences between the compounds concerning their absorption and emission characteristics and hence their BSA binding mode. In vivo the modified probes were investigated in a murine U87MG glioblastoma xenograft model over the course of 1 wk by fluorescence reflectance imaging (FRI) and fluorescence mediated tomography (FMT). While the unmodified probe was excreted rapidly, the albumin-binding probes were accumulating in tumor tissue for at least 5 days. Considerable differences between the three probes in biodistribution and excretion characteristics were proved, with the DPCH-modified probe showing the highest overall signal intensities, while the FA-modified probe exhibits a low but more specific fluorescent signal. In conclusion, the modification of small molecular RGD mimetics with ABMs can precisely fine-tune probe distribution and offers potential for future clinical applications.

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Wael Alsibai

Optimizing the bioavailability of small molecular optical imaging probes by conjugation to an albumin affinity tag

Fluorescent Non-peptidic RGD Mimetics with High Selectivity for α_Vβ₃vs α_IIbβ₃Integrin Receptor: Novel Probes for in Vivo Optical Imaging

How Different Albumin-Binders Drive Probe Distribution of Fluorescent RGD Mimetics

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Wael Alsibai

Optimizing the bioavailability of small molecular optical imaging probes by conjugation to an albumin affinity tag

Fluorescent Non-peptidic RGD Mimetics with High Selectivity for αVβ3vs αIIbβ3Integrin Receptor: Novel Probes for in Vivo Optical Imaging

How Different Albumin-Binders Drive Probe Distribution of Fluorescent RGD Mimetics

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Product

Resources

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Fluorescent Non-peptidic RGD Mimetics with High Selectivity for α_Vβ₃vs α_IIbβ₃Integrin Receptor: Novel Probes for in Vivo Optical Imaging