Author:
,Kosterin S. O.,Veklich Т. О., ,Kalchenko O. І., ,Vovk A. I., ,Rodik R. V., ,Shkrabak О. А.,
Abstract
The kinetic model of calix[4]arene-induced ATP hydrolysis was elaborated. It is assumed that calix[4]arene С-107 molecules form a complex with nucleoside triphosphate, ensuring the release of inorganic phosphate Рі, and then switch into an inactive state. Inactive calix[4]arene molecules are no longer able to form a complex with ATP and, accordingly, to provide hydrolysis of nucleoside triphosphate. In the author’s experimental studies, it was possible to explain the kinetic properties of the reaction, namely: the insignificant output of the reaction end product Pi; the quantitative regularities of the plateau (time-wise) accumulation of the reaction product when the concentration of calix[4]arene C-107 or ATP changes; the reciprocal dependence of the ATP half conversion on its concentration; the correspondence of the initial reaction rate dependence on the calix[4]arene and ATP concentration to the Michaelis-Menten equation. The final decision regarding the molecular mechanism of calix[4]arene-induced ATP hydrolysis requires further experimental and theoretical studies. Keywords: calixarenes, empirical kinetic analysis, hydrolysis of ATP
Publisher
National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka) (Publications)
Reference26 articles.
1. Mazur IuIu, Veklich TO, Shkrabak OA, Mohart MA, Demchenko AM, Gerashchenko IV, Rodik RV, Boyko VI, Kalchenko VI, Kosterin SO. Selective inhibition of smooth muscle plasma membrane transport Са2+,Mg2+-АТРase by calixarene C-90 and its activation by IPT-35 compound. Gen Physiol Biophys. 2018;37(2):223-231. PubMed, CrossRef
2. Kosterin SO, Kalchenko VI, Veklich ТО, Babich LG, Shlykov SG. Calixarenes as modulators of ATP-hydrolyzing systems of smooth muscles. K.: Science opinion, 2019. 256 р.
3. Shkrabak OA, Veklich TO, Rodik RV, Kalchenko VI, Kosterin SO. Inhibition of plasma membrane Сa2+,Mg2+-АТРase by сalixarene sulfonylamidines. Structure-activity relationship. Ukr Biochem J. 2022; 94(4):18-35. CrossRef
4. Veklich TO, Labyntseva RD, Shkrabak OA, Tsymbaluk OV, Rodik RV, Kalchenko VI, Kosterin SO. Inhibition of Na+,K+-ATPase and activation of myosin ATPase by calix[4]arene C-107 cause stimulation of isolated smooth muscle contractile activity. Ukr Biochem J. 2020;92(1):21-30. CrossRef
5. Veklich T.O. Inhibitory peculiarities of calix[4]arenes C-90 action on the activity of plasma membrane Ca2+,Mg2+-ATPase of smooth muscle cells. Monograph: Modern directions in chemistry, biology, pharmacy, and biotechnology. Lviv.: Lviv Polytechnic Publishing House. 2015, 200-204.