184956-19-2Relevant academic research and scientific papers
Imidazo[1,2-a]pyridine-based peptidomimetics as inhibitors of Akt
Kim, Young B.,Kang, Chang Won,Ranatunga, Sujeewa,Yang, Hua,Sebti, Said M.,Del Valle, Juan R.
, p. 4650 - 4653 (2014)
We report the design, synthesis, and biological evaluation of imidazopyridine-based peptidomimetics based on the substrate consensus sequence of Akt, an AGC family serine/threonine kinase hyperactivated in over 50% of human tumors. Our ligand-based approach led to the identification of novel substrate mimetic inhibitors of Akt1 featuring an unnatural extended dipeptide surrogate. Compound 11 inhibits Akt isoforms in the sub-micromolar range and exhibits improved proteolytic stability relative to a parent pentapeptide.
Chymotrypsin inhibitory conformation induced by amino acid side chain-side chain intramolecular CH/π interaction
Shimohigashi, Yasuyuki,Maeda, Iori,Nose, Takeru,Ikesue, Koichi,Sakamoto, Hiroshi,Ogawa, Tomohisa,Ide, Yuzuru,Kawahara, Megumi,Nezu, Takashi,Terada, Yoshihiro,Kawano, Keiichi,Ohno, Motonori
, p. 2479 - 2485 (2007/10/03)
Dipeptide amides H-D-Leu-Phe-NH-R have been found to assume a conformation induced by the CH/π interaction and to inhibit chymotrypsin strongly. A series of benzyl amide derivatives H-D-Leu-Phe-NH-[CH2]n-C6H5 (n = 0-4) have been assayed for chymotrypsin. They inhibit the enzyme in a competitive manner and the highest inhibition is achieved by the amide of n = 1 (Ki = 3.6 × 10-6 M). The activity enhancement is dependent upon the length of methylene chain, not upon the increase in molecular hydrophobicity, indicating the presence of an optimal distance between dipeptide backbone and C-terminal phenyl group for chymotrypsin inhibition. The C-terminal phenyl group has been found to interact with chymotrypsin stereospecifically. The R-isomer of H-D-Leu-Phe-NH-CH(CH3)-C6H5 is as active as the benzyl amide, while the S-isomer is about twenty-fold less active. When the fluorine atom is introduced at a para-position of the C-terminal phenyl group, the resulting dipeptide H-D-Leu-Phe-NH-CH2-C6H4F-p exhibits about six-times increased inhibitory activity (Ki = 6.1 × 107 M; this dipeptide is one of the most potent chymotrypsin inhibitors to date). 1H NMR conformational analyses of these dipeptide amide derivatives show the CH/π interaction between D-Leu-isobutyl and Phe-phenyl as a key structural element for chymotrypsin inhibition. These structural examinations strongly suggest that in the inhibitory conformation the C-terminal phenyl group fits the chymotrypsin S1 site, while the hydrophobic core constructed by D-Leu-Phe CH/π interaction fits the chymotrypsin S2 or S1′ site.
