Differential Micronuclei Induction in Human Lymphocyte Cultures by Imidacloprid in the Presence of Potassium Nitrate

Abstract

Humans are exposed to pesticides as a consequence of their application in farming or their persistence in a variety of media, including food, water, air, soil, plants, animals, and smoke. The interaction of pesticides with environmental factors may result in the alteration of their physicochemical properties. Square wave cathodic stripping voltammetry (SW-CSV), a technique that simulates electrodynamically the cellular membrane, is used to investigate whether the presence of potassium nitrate (KNO 3 ) in the culture medium interferes with the genotoxic behavior of imidacloprid. The cytokinesis block micronuclei (CBMN) method is used to evaluate imidacloprid's genotoxicity in the absence or presence of KNO 3 in the culture medium and, as a consequence, its adsorption by lymphocytes. Comparing micronuclei (MN) frequencies in control and imidacloprid-treated blood cell cultures, statistically significant differences were not detected. KNO 3 did not induce MN frequencies compared to control. Statistically significant differences in MN frequencies were observed when blood cell cultures were treated with imidacloprid in the presence of increasing concentrations of KNO 3 . SW-CSV revealed that by increasing KNO 3 molarity, imidacloprid's concentration in the culture medium decreased in parallel. This finding indicates that imidacloprid is adsorbed by cellular membranes. The present study suggests a novel role of a harmless environmental factor, such as KNO 3 , on the genotoxic behavior of a pesticide, such as imidacloprid. KNO 3 rendered imidacloprid permeable to lymphocytes, resulting in elevated MN frequencies. KEYWORDS: genotoxicity, micronuclei (MN), pesticides, imidacloprid, potassium nitrate (KNO 3 ), square wave cathodic stripping voltammetry (SW-CSV) INTRODUCTION The human diet is characterized by the presence of numerous naturally occurring chemicals in trace amounts. All these chemicals, constituents of processed and nonprocessed food, have been mainly considered as harmless to human health. Among the chemicals, potassium nitrate (KNO 3 ) is found as a preservative in processed food Humans are exposed to a large number of industrially made chemicals, designed for various purposes, among which are those to be used for crop protection. Several of these chemicals are responsible for serious negative side effects, such as biochemical malfunctions or genetic instability Pesticides constitute a heterogeneous class of chemicals representing an important group of environmental pollutants. In Europe, more than 3 million tons are released into the environment yearly Imidacloprid, a systemic chloronicotinyl insecticide with soil, seed, and foliar uses, blocks the nicotinergic neuronal pathway that is more abundant in insects than in warm-blooded animals. It is a General Use Pesticide (GUP) classified by the EPA as a class II and class III toxicity agent The genotoxic and mutagenic activities of certain pesticides have been studied both in in vitro and in vivo systems using cytogenetic end points, such as the cytokinesis block micronuclei (CBMN) method A rather important technique to simulate electrodynamically the adsorptive ability of cellular membranes is square wave cathodic stripping voltammetry (SW-CSV), using a hanging mercury drop electrode (HMDE). The HMDE is a capillary electrode with a mercury drop at its edge. The mercury drop acts as an electrode surface. It has been widely used in environmental and biological samplings. Its function is based on the application of a fixed voltage between 200 and -1200 mV, targeted at the redox of the electroactive species, such as imidacloprid, which has been adsorbed on its surface. Electrons flowing between the adsorbed electroactive species and the electrode surface are expressed in current (measured in nanoamperes) that corresponds with these species in solution. Electroactive species move towards the electrode surface by diffusion, while they are adsorbed via electrostatic interactions The present work focuses on the synergistic action between an environmental factor, such as KNO 3 , and a pesticide, such as imidacloprid. The possible side effects of KNO 3 on imidacloprid genotoxicity towards cultured human lymphocytes were investigated, using both the CBMN method and the SW-CSV. MATERIALS AND METHODS Reagents Ultrapure Milli-Q water, Millipore Academic system, was used throughout the experiments. Imidacloprid (RDH 37894; purity: 99.9% by HPLC) obtained from Sigma-Aldrich and KNO 3 (GA 18517; purity: 99.9% by HPLC) obtained from Fluka were used without further purification. Stivaktakis et al.: Potassium Nitrate Alters Imidacloprid's Genotoxicity TheScientificWorldJOURNAL (2010) 10, 80-89 82 Imidacloprid stock solution (100 μM = 25.6 ppm) was prepared by dissolving 1.18 mg of insecticide in 46.07 ml of Milli-Q water and stored in the dark at 4 o C. This imidacloprid concentration is well below its solubility limit [26], while it corresponds to the mean value of previously reported concentrations The buffer solution used for voltammetric measurements was Britton-Robinson, prepared from a stock solution containing 10 mM phosphoric acid, 10 mM boric acid, and 10 mM acetic acid adjusted to the desired pH value, with NaOH. This buffer system is commonly used in analogous voltammetry experiments Apparatus and Software For the voltammetric measurements of imidacloprid, an electrochemical analyzer (Model TraceLab50, Radiometer Analytical) was used to control the voltage of a three-electrode system. As a working electrode, a Radiometer HMDE was used with a drop area of 3 mm 2 controlled by pneumatic connection with nitrogen (99.999%) at p = 1 bar. The reference electrode (Ag/AgCl-KCl = 3 M), type TR020, and auxiliary platinum electrode, type TM020, for POL150 were also from Radiometer. This system was connected with a Pentium II PC. All voltammetric measurements were carried out at 2 o C. As shown previously, low temperature facilitates the adsorption of imidacloprid on the mercury drop surface Instrumental Parameters The SW-CSV technique was used with: Cell parameters -Electrode HMDE, stirrer at 525 rpm, purge time 600 sec, accumulation time (t acc ) 60 sec, waiting time 10 sec, Hg-drop growth time 0.7 sec Signal parameters -Accumulation potential (E acc ) = -1060 mV[25], step duration 0.04 sec, step amplitude 1 mV, pulse amplitude +50 mV Current range -Minimum 10 nA, maximum 10 mA, under our experimental conditions the detection limit for imidacloprid was 0.25 μM. The pH measurements were carried out with a CRISON GLP21 pH-meter. Micronucleus Test in Human Lymphocytes In Vitro Blood samples were obtained from two healthy nonsmokers, without previous known contact with pesticides. Donors aged between 20 and 25 years. Whole blood (0.5 ml) was added to 6.5 ml Ham's F-10 medium (Invitrogen), 1.5 ml fetal calf serum (Invitrogen), and 0.3 ml phytohemagglutinin (Invitrogen) to stimulate cell division. The appropriate Stivaktakis et al.: Potassium Nitrate Alters Imidacloprid's Genotoxicity TheScientificWorldJOURNAL (2010) 10, 80-89 83 chemicals were added 41 h postculture initiation to final imidacloprid concentration of 20 μM, and of KNO 3 to final concentrations of 2, 10, and 20 μM in separate treatments. In mixed treatments, the final concentrations were 20 μM for imidacloprid plus 5, 10, 15, and 20 μM for KNO 3 . Mitomycin-C (Sigma) at final concentration of 1.5 μM served as positive control. Cultures were incubated at 37 o C for 72 h. Three hours after the addition of the chemicals, 6 μg/ml cytochalasin-B (Sigma) was added at 44 h postculture initiation. Cells collected by centrifugation at 72 h postculture initiation, fixed with freshly made methanol/acetic acid (Riedel-de Haen/Merck) mixture (3:1 v/v) after mild hypotonic treatment, were stained with Giemsa (Fluka) The Cytokinesis Block Proliferation Index (CBPI), given by the equation: CBPI = M 1 + 2M 2 + 3(M 3 + M 4 )/N, where M 1 , M 2 , M 3 , and M 4 correspond to the numbers of cells with one, two, three, and four nuclei and N is the total number of cells Analytic Determination of Imidacloprid from Human Lymphocyte Cultures One milliliter of supernatant, derived from 72-h blood cultures in the presence of imidacloprid, was mixed with 9 ml of absolute ethanol Statistical Analysis Statistical analysis of MN data was made by the G-test for independence on 2x2 tables. This test is based on the general assumption of the χ 2 analysis, but offers theoretical and computational advantages RESULTS SW-CSV The effect of adsorbed imidacloprid on cultured cells was further investigated by the CBMN method. Stivaktakis et al.: Potassium Nitrate Alters Imidacloprid's Genotoxicity TheScientificWorldJOURNAL Micronucleus Test in Human Lymphocytes In Vitro Stivaktakis et al.: Potassium Nitrate Alters Imidacloprid's Genotoxicity TheScientificWorldJOURNAL (2010) 10, 80-89 85 Our data of 20 + 5 combined mixtures indicated marginally no significant statistical differences in both BNMN and MN frequencies (p = 0.057) compared to the control value. In the meantime, the same data appear to have a possible inducible effect, as their absolute values are almost twofold increased from their corresponding control values. A similar condition was observed at the concentration of 20 + 10 μΜ with regard to BNMN frequencies. The imidacloprid and KNO 3 cytotoxic effect was evaluated by the determination of CBPI. Regarding the cytotoxic index in all tested cytogenetic end points (see The reported control and positive control frequencies of MN were consistent to the literature, and authenticate our experimental procedure and treatment observations The presence of KNO 3 at concentrations higher than 10 μΜ in combination with 20 μΜ imidacloprid in culture media induces a statistically significant increase of MN frequencies (p < 0.05 and 0.01, respectively) compared to control, while in separate treatments no statistical differences are observed, as seen in DISCUSSION Skepticism has gradually developed over studying the synergistic action of pesticides and their genotoxic side effects to humans and other organisms. Many variables intervene in the study system, rendering it too complex, not easily reproducible, and increasing the workload exponentially. In addition, scientists agree that the synergistic effects of agricultural chemical mixtures on human health are controversial and further studies on this issue are needed The present study poses an additional speculation on studying the synergistic effects between pesticides and environmental factors. For this purpose, the CBMN method was used in parallel to the SW-SCV electroanalytical technique. There is a relationship between polarographic and/or voltammetric behavior and genotoxic properties of organic compounds. By studying the mechanisms of their electrode reactions, useful clues can be provided to elucidate the mechanism of their interaction with living cells and their fate in the environment SW-CSV was used to study the effect of KNO 3 , a -harmless‖ chemical, on imidacloprid's genotoxicity to human lymphocyte cultures in vitro. This analytical voltammetric technique simulates electrodynamically the cellular membrane by applying a certain potential to a HMDE. By this system, the adsorptive ability of the cellular membrane towards imidacloprid, in the presence or absence of KNO 3 , could be evaluated. The CBMN method was used to evaluate imidacloprid genotoxicity in the absence or presence of KNO 3 . Neonicotinoids, including imidacloprid, are the most important new class of insecticides of the past 3 decades. They are increasingly replacing the organophosphates and methylcarbamates. Neonicotinoids have low activity on mammals relative to insect nicotinic acetylcholine receptors, providing a mechanistic basis for their safety 87 Controversial results regarding imidacloprid's genotoxic effect to cultured human lymphocytes were previously reported The negative in vitro genotoxic result in our findings from the separate treatment of 20 μM imidacloprid and the absence of imidacloprid's genotoxic effect in separate treatments on human lymphocytes in vitro at concentrations up to 400 μM, as well as the weak genotoxic effect on rat bone marrow in vivo A gradual reduction of imidacloprid's SW signal in culture medium with increasing KNO 3 concentration was observed by voltammetry. This is an indication that imidacloprid interacting with KNO 3 is adsorbed by lymphocytes. In the absence of KNO 3 , this reduction is not observed, while the SW signal is not altered by the presence of KNO 3 (see The calculated data from the electroanalytical method and genotoxicity experiments using the combination of imidacloprid and KNO 3 in cultured human lymphocytes denote the possibility of imidacloprid becoming genotoxic upon its interaction with a -harmless‖ chemical such as KNO 3 (see Our present data indicate that the combination of -harmless‖ environmental factors with pesticides that have not been classified as genotoxic to humans may interact, resulting in the alteration of the pesticides' physicochemical properties. Such alteration may convert harmless-to-humans pesticides into harmful ones with unidentified side effects. The latter could be an indication of reconsidering our classification of natural or man-made chemicals as harmless or potentially harmful ones. Thus, further studies, including genotoxic, electroanalytical, physicochemical, and molecular assessment, are required before drawing final conclusions on the separate and/or combined with environmental factors action of pesticides. ACKNOWLEDGMENT