Abstract

Two new mixed ligands metal complexes of sulphadoxine and pyramethamine were prepared by using CuCl₂.6H₂O and FeCl₃.6H₂O. The complexes were characterized by elemental analysis, melting point determination, molar conductivity, metal content analysis (AAS), IR, magnetic susceptibility measurements and UV-Visible spectroscopy. Based on the analytical and spectroscopic data, the complexes were proposed to have the formulae [M₁L₁L₂(Cl)₂] and [M₂L₁L₂(Cl)₃] (where M₁ = Cu(II), M₂ = Fe(III)), L₁ = sulphadoxine, L₂ = pyramethamine). The spectroscopic data proposed L₁ to be a monodentate ligand and coordinated through N atom of the NH₂ group in both complexes. Also, L₂ was proposed to be tridentate ligand and coordinated through N atom of the NH₂ groups and through N atom of imine group. However, [M₁L₁L₂(Cl)₂] and [M₂L₁L₂(Cl)₃] were proposed to possess distorted octahedral geometry. Conductivity measurement values supported the non-electrolytic nature of the complexes. The complexes have been tested in vitro against a number of pathogenic bacteria [g(+) Escherichia coli, g(+) Proteus species, g(+)Pseudomonas aeruginosa and g(+) Salmonella typhi] by using disc diffusion method. Obtained results indicated that the metal complexes exhibited better antibacterial activities as compared to the ligands. Toxicology tests against some tissues of albino rat (Rattus novergicuss) revealed toxicity of the complexes in the kidney as compared to the parent drugs. [M₁L₁L₂(Cl)₂] was found to be toxic to the sera, livers and  kidneys of the rats used, while [M₂L₁L₂(Cl)₃] was found to be non-toxic to the sera, livers and kidneys of the rats as their alkaline phosphatase (ALP) values showed non-significant difference to the control values.

Key words: Metal complexes, complexation, antibiotics, antimicrobial properties, alkaline phosphatase.