In the present study we describe the synthesis and biological assessment of new tacrine analogs in the course of inhibition of acetylcholinesterase. The obtained molecules were synthesized in a condensation reaction between activated 6-BOC-hydrazinopyridine-3-carboxylic acid and 8-aminoalkyl derivatives of 2,3-dihydro-1H-cyclopenta[b]quinoline. Activities of the newly synthesized compounds were estimated by means of Ellman’s method. Compound 6h (IC50 = 3.65 nM) was found to be most active. All obtained novel compounds present comparable activity to that of tacrine towards acetylcholinesterase (AChE) and, simultaneously, lower activity towards butyrylcholinesterase (BChE). Apart from 6a, all synthesized compounds are characterized by a higher affinity for AChE and a lower affinity for BChE in comparison with tacrine. Among all obtained molecules, compound 6h presented the highest selectivity towards inhibition of acetylcholinesterase. Molecular modeling showed that all compounds demonstrated a similar binding mode with AChE and interacted with catalytic and peripheral sites of AChE. Also, a biodistribution study of compound 6a radiolabeled with 99mTc was performed.
Both in vitro methods showed a higher renal accumulation of (111)In-DOTA-NOC in comparison with (111)In-DOTA-TATE. The renal uptake was partly decreased by inhibitors of receptor-mediated endocytosis and by a block of energy-dependent processes. A significant participation of active transport processes in renal accumulation of the studied peptides was confirmed.
(177)Lu-Nimotuzumab was obtained with high purity and specific activities under optimal conditions without significant loss in immunoreactivity and might be a potential radioimmunoconjugate for radioimmunotherapy of tumors with epidermal growth factor receptor overexpression.
Hyaluronic acid (HA), is a high molecular weight (HMW) glucosaminoglycan with significant acitivity, and which influences a number of physiological and pathological processes such as tumorogenesis, arthritis, etc. The aim of this study was to determine the difference in the biodistributional pathways of 111In-labeled diethylenetriaminepentaacetic acid-hyaluronic acid (111In-DTPA-HA) molecule of three different MWs (10, 100 and 450 kDA) in a rat model, and to determine possible relationships between the biodistribution and the MW of the investigated agent for future medical applications. 111In-DTPA-HA was prepared by mixing activated DTPA and activated HA, then adding 111InCl3 to the previously prepared mixture at pH 5,5 in an acetic buffer. Biodistributional studies were performed using 36 male Wistar rats aged 2 months and weighing 280 - 350 g. The radioactivity in the samples was measured via a radiometer and the radioactivity in the different organs, blood, plasma and urine was determined. It was found that 50-54% for 10 and 100 kDa and 80% for 450 kDa of the administered dose of radiolabel was present in the liver after 5 min. Other organs show no significant increase during the experimental period. The elimination of the radiolabel was mostly renal and in low molecular weight (LMW) form. Radioactivity remained in liver throughout the 72h experimental period. A difference in the biodistribution of 450 kDa and LMW radiolabeled molecules was found. Higher amounts of radiolabel were taken up by the liver when the 450 kDa molecule was used. LMW fractions were found in the urine, and could have been a product of non-enzymatic cleavage. The extended retention of radiolabel in the liver could be related to changes in the polarity of DTPA-HA molecules.
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