Synthetic extracellular matrices
are widely used in regenerative
medicine and as tools in building in vitro physiological culture models.
Synthetic hydrogels display advantageous physical properties, but
are challenging to modify with large peptides or proteins. Here, a
facile, mild enzymatic postgrafting approach is presented. Sortase-mediated
ligation was used to conjugate human epidermal growth factor fused
to a GGG ligation motif (GGG-EGF) to poly(ethylene
glycol) (PEG) hydrogels containing the sortase LPRTG substrate. The reversibility of the sortase reaction was then exploited
to cleave tethered EGF from the hydrogels for analysis. Analyses of
the reaction supernatant and the postligation hydrogels showed that
the amount of tethered EGF increases with increasing LPRTG in the hydrogel or GGG-EGF in the supernatant.
Sortase-tethered EGF was biologically active, as demonstrated by stimulation
of DNA synthesis in primary human hepatocytes and endometrial epithelial
cells. The simplicity, specificity, and reversibility of sortase-mediated
ligation and cleavage reactions make it an attractive approach for
modification of hydrogels.
Conventional thermal and microwave conditions were compared for hydrogen-deuterium (H/D) exchange reactions of aminobenzoic acids catalysed by NaBD(4)-activated Pd/C or RhCl(3) with D(2)O as the deuterium source. We also investigated different NaBD(4)-activated metal catalysts (including Pd/C, RhCl(3) and Pt/C) under microwave conditions for an efficient H/D exchange of aromatic and heterocyclic compounds. Even higher deuterium incorporations were obtained for Pd/C and Pt/C catalyst mixtures due to the previously observed synergistic effect. Finally, we have applied these optimised conditions for one-step syntheses of the MS standards of several pharmaceutically active compounds.
The methamphetamine molecule has a chiral center and exists as 2 enantiomers, d-methamphetamine (the more active enantiomer) and l-methamphetamine (the less active enantiomer). d-Methamphetamine is associated with more intense stimulant effects and higher abuse liability. The objective of this study was to measure the pharmacokinetics of d-methamphetamine for comparison with both l-methamphetamine and (2)-cocaine in the baboon brain and peripheral organs and to assess the saturability and pharmacologic specificity of binding. Methods: d-and l-methamphetamine and (2)-cocaine were labeled with 11 C via alkylation of the norprecursors with 11 C-methyl iodide using literature methods. Six different baboons were studied in 11 PET sessions at which 2 radiotracer injections were administered 2-3 h apart to determine the distribution and kinetics of 11 C-d-methamphetamine in brain and peripheral organs. Saturability and pharmacologic specificity were assessed using pretreatment with d-methamphetamine, methylphenidate, and tetrabenazine. 11 C-d-Methamphetamine pharmacokinetics were compared with 11 C-l-methamphetamine and 11 C-(2)-cocaine in both brain and peripheral organs in the same animal. Results: 11 C-d-and l-methamphetamine both showed high uptake and widespread distribution in the brain. Pharmacokinetics did not differ between enantiomers, and the cerebellum peaked earlier and cleared more quickly than the striatum for both. 11 C-d-Methamphetamine distribution volume ratio was not substantially affected by pretreatment with methamphetamine, methylphenidate, or tetrabenazine. Both enantiomers showed rapid, high uptake and clearance in the heart and lungs and slower uptake and clearance in the liver and kidneys. A comparison of 11 C-d-methamphetamine and 11 C-(2)-cocaine showed that 11 C-d-methamphetamine peaked later in the brain than did 11 C-(2)-cocaine and cleared more slowly. The 2 drugs showed similar behavior in all peripheral organs examined except the kidneys and pancreas, which showed higher uptake for 11 C-d-methamphetamine. Conclusion: Brain pharmacokinetics did not differ between d-and l-methamphetamine and thus cannot account for the more intense stimulant effects of d-methamphetamine. Lack of pharmacologic blockade by methamphetamine indicates that the PET image represents nonspecific binding, though the fact that methamphetamine is both a transporter substrate and an inhibitor may also play a role. A comparison of 11 C-d-methamphetamine and 11 C-(2)-cocaine in the same animal showed that the slower clearance of methamphetamine is likely to contribute to its previously reported longer-lasting stimulant effects relative to those of (2)-cocaine. High kidney uptake of d-methamphetamine or its labeled metabolites may account for the reported renal toxicity of d-methamphetamine in humans.
Radiolabeled hybrid ligands with defined distances between an agonist and an antagonist for the gastrin-releasing peptide receptor were found to have excellent tumor-targeting properties. Oligoprolines served as rigid scaffolds that allowed for tailoring distances of 10, 20, and 30 Å between the recognition elements. In vitro and in vivo studies revealed that the hybrid ligand with a distance of 20 Å between the recognition elements exhibits the highest yet observed tumor cell uptake and retention time in prostate cancer cells.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.