Abstract

The newly synthesized ligand, dihydro OO′bis(salicylidene) 2,2′ aminobenzothiazolyl borate (2), was derived from the reaction of Schiff base of 2-aminobenzothiazole and salicylaldehyde with KBH4. CuII (3) and ZnII (4) complexes of (2) were synthesized and further metallated with dimethyltindichloride to yield heterobimetallic complexes (5) and (6). All complexes have been thoroughly characterized by elemental analysis, and IR, NMR, EPR, and UV-Vis spectroscopy and conductance measurements. The spectroscopic data support square planar environment around the CuII atom, while the SnIV atom acquires pentacoordinate geometry. The interaction of complex (5) with guanine, adenine, and calf thymus DNA was studied by spectrophotometric, electrochemical, and kinetic methods. The absorption spectra of complex (5) exhibit a remarkable “hyperchromic effect” in the presence of guanine and calf thymus DNA. Indicative of strong binding of the complex to calf thymus DNA preferentially binds through N7 position of guanine base, while the adenine shows binding to a lesser extent. The kinetic data were obtained from the rate constants, kobs, values under pseudo-first-order conditions. Cyclic voltammetry was employed to study the interaction of complex (5) with guanine, adenine, and calf thymus DNA. The CV of complex (5) in the absence and in the presence of guanine and calf thymus DNA altered drastically, with a positive shift in formal peak potential Epa and Epc values and a significant increase in peak current. The positive shift in formal potentials with increase in peak current favours strong interaction of complex (5) with calf thymus DNA. The net shift in E 1/2 has been used to estimate the ratio of equilibrium constants for the binding of Cu(II) and Cu(I) complexes to calf thymus DNA.

Highlights

  • Present-day anticancer agents are facing challenges such as side effects, toxicity, targeting, drug delivery, acquired resistance, and cancer specificity

  • We describe the kinetics and electrochemical behavior of the representative complex (5) towards guanine, adenine, and calf thymus DNA to understand the mechanistic pathway of binding to cellular targets

  • EPR spectra were recorded on a Varian E112 spectrometer at X-band frequency (9.1 GHz) at liquid nitrogen temperature (LNT)

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Summary

INTRODUCTION

Present-day anticancer agents are facing challenges such as side effects, toxicity, targeting, drug delivery, acquired resistance, and cancer specificity. Boron compounds have received considerable attention as biologically important molecules, since boron is an essential element and is involved in nucleic acid synthesis linked to pyrimidine nucleotides [12]. We describe the kinetics and electrochemical behavior of the representative complex (5) towards guanine, adenine, and calf thymus DNA to understand the mechanistic pathway of binding to cellular targets These studies were carried out using UV-Vis spectroscopy and cyclic voltammetry mainly 1. A transition metal ion prefers to bind to N7 of guanine or adenine to a lesser extent of the nucleotide bases, while tin(IV) cation binds to the phosphate group of the DNA backbone [21], and boron atom provides possible cellular entrapment and retention properties in proliferating tumor cells [14]

Materials and methods
AND DISCUSSION
III II I

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