Effect of tunable redox behavior of bis chelate substituted 1,10-phenantroline Cu(II) complexes on its reaction with superoxide anion in DMSO. Toward a simple criterion to identify a SOD-like mechanism

“…It has become clear that Cu complexes can act by different mechanisms other than DNA binding; ,− namely, superoxide dismutase (SOD) mimetic activity has been attributed to some complexes as well as the ability to target intracellular redox processes and modulate ROS. ,,− Topoisomerase and proteosome are also probable targets of Cu complexes. , Proteosome inhibition or interactions with proteins involved in the cell cycle have been reported, , e.g., with tubulin, or in the cytoskeleton formation, such as integrin, or those present in the extracellular medium, like fibronectin . Cu complexes show matrix metalloproteinase inhibition properties, and the generation of ROS may also disrupt enzyme pathways and induce changes in structural proteins .…”

“…to some complexes as well as the ability to target intracellular redox processes and modulate ROS. 14,32,[51][52][53][54][55] Topoisomerase and proteosome are also probable targets of Cu-complexes. 15 16 Proteosome inhibition or interactions with proteins involved in the cell cycle have been reported, 15 49 e.g.…”

Copper Complexes with 1,10-Phenanthroline Derivatives: Underlying Factors Affecting Their Cytotoxicity

“…It has become clear that Cu complexes can act by different mechanisms other than DNA binding; ,− namely, superoxide dismutase (SOD) mimetic activity has been attributed to some complexes as well as the ability to target intracellular redox processes and modulate ROS. ,,− Topoisomerase and proteosome are also probable targets of Cu complexes. , Proteosome inhibition or interactions with proteins involved in the cell cycle have been reported, , e.g., with tubulin, or in the cytoskeleton formation, such as integrin, or those present in the extracellular medium, like fibronectin . Cu complexes show matrix metalloproteinase inhibition properties, and the generation of ROS may also disrupt enzyme pathways and induce changes in structural proteins .…”

“…to some complexes as well as the ability to target intracellular redox processes and modulate ROS. 14,32,[51][52][53][54][55] Topoisomerase and proteosome are also probable targets of Cu-complexes. 15 16 Proteosome inhibition or interactions with proteins involved in the cell cycle have been reported, 15 49 e.g.…”

Copper Complexes with 1,10-Phenanthroline Derivatives: Underlying Factors Affecting Their Cytotoxicity

Theoretical Study on Cobalt Ferrite ConFe3−nO4 (n = 1–2) Nanoparticles with Multi-enzyme Activities

Second generation of Casiopeinas®: A joint experimental and theoretical study