Vanadium(IV) complexes of acetophenone isoniazid hydrazones: Synthesis, characterization, stability assay, antidiabetic activity, histopathology and bioaccumulation

Abstract

Four new heteroleptic neutral paramagnetic mononuclear oxidovanadium(IV) complexes, designated as [VOL(phen)], where L corresponds to acetophenone isoniazid hydrazone or its 5-halogenated derivatives and phen stands for 1,10-phenanthroline, were synthesized and thoroughly characterized using chemical analysis, various spectroscopic techniques, and diffraction methods. Single-crystal X-ray diffraction revealed the molecular and crystal structures of two complexes, showing an octahedral coordination environment around the vanadium(IV) center. The coordination includes a tridentate ONO donor hydrazone ligand in its deprotonated enol-imine form, 1,10-phenanthroline as a bidentate NN donor ternary ligand, and one terminal oxygen atom. The biochemical and hematological effects of these complexes were evaluated in a streptozotocin-induced diabetic rat model. All synthesized complexes showed cholesterol-lowering effects compared to the diabetic rat group, with the vanadium complex lacking a substituent on the acetophenone ring of hydrazone showing the strongest effect. Complexes exhibited comparable and significant antidiabetic activity in vivo, effectively reducing hyperglycemia within 1 week of treatment. Additionally, the histopathological effects of complex (4) on liver, kidney, and brain tissues were investigated. All four complexes were found to have low bioaccumulation levels, with total absolute bioaccumulation in all tested organs less than 0.35% of the administered dose.