K S Tilak
Acharya Nagarjuna University, India
Title: Studies on some biochemical and genotoxic changes of organophosphorus pesticides in agricultural sprayers of Krishna district, A.P. India
Biography
Biography: K S Tilak
Abstract
Genotoxicity is the property possessed by organisms and due to various carcinogens in which some are mutagens causing defects even in natal stage. The effects are attempted in two modes acute or chronic, resulting the products of oxidative damage especially in human urine and finally reflect the overall damage to all tissues and organs in the body. The chronic levels manifest changes in biochemical parameters and such sub-lethal effects at biochemical level viz: acetylcholinesterases (ACh), superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), glutathione-s-transferase (GSH), alkaline phosphatase (ALP), aminotransferases (SGOT & SGPT), and malonialdehyde (MDA). Erythrocyte AChE was significantly decreased in farmer/sprayers at the instant of exposure and the decrement recorded as 45% and 36% respectively in RBC and plasma. A sampling data were analyzed as three separate, target, exposed and control groups characterized by time scale exposure differing in age and smoking habits, symptomatic and asymptomatic group consisting of nicotinic and muscarinic class and finally methylated and ethylated op and mixed also. Similary SOD, CAT, GPx, Transaminase’s ALP lipid per oxidation and GSH activities resulted different changes in the pesticide exposed exposure. The studies of genotoxicity in humans reflect the influence of the body’s metabolic activation and detoxification systems. Comets form as the broken ends of the negatively charged DNA molecule become free to migrate in the electric environment towards the anode. Micronuclei are formed when acentric chromatid or chromosomal fragments, fail to migrate towards the spindle poles, and are not incorporated into the daughter nuclei. 8-hydroxydeoxyguanosine is a ubiquitous marker of oxidative stress and is an oxidatively modified guanosine which is also mostly frequently detected DNA lesion in urine. The pesticide exposed workers had higher levels of DNA by tail DNA as percentage, Olive Tail Movement (OTM) and tail length and age group; the exposed workers had significantly more DNA damage. The micronucleus (MN) analysis showed significantly higher MN induction in the smokers both in the control as well as in the exposed group resulting higher frequencies. The increased urinary levels of 8-OHdG were contributed by both non-smokers as well as smokers in the exposed groups.