Abstract:Objective: The prevalence of obesity is rising in a global fashion, placing this population at higher risk for type 2 diabetes mellitus and cardiovascular disease. Current strategies for treatment of obesity are largely unsuccessful over the long term, since weight loss, even when achieved initially, is often followed by weight regain. More knowledge about the molecular and cellular mechanisms governing adipose tissue accumulation is needed to develop more effective preventative and therapeutic approaches to obesity. Materials and Methods: This study was conducted to investigate the macro-and microelements contents in the blood of experimental animals and assess their influence on the level of apoptotic cell death of blood leukocyte suspension in case of alimentary obesity, which was modelled on male, non-liner, white rats of around 3 months. Annexin V binding assays were performed by flow cytometry, the atomic absorption spectrophotometer was used to quantify micro-and macro-element contents.Results and Discussion: It was established a significant increase in leptin concentration at almost the same level of adiponectin. Experimental obesity was characterized by 2.1 times increasing of Annex+ cells percentage, while the level of PI+ cells remained within the control values. It was established the increasing of total calcium level, which exceeded by approximately 25.0 % of the control data. The same trend was marked on changes of ionized calcium level (p<0.05). So, alimentary obesity in rats is accompanied by the increasing of total and ionized calcium contents and decreasing of iron, magnesium and zinc contents. The combination of the dysmetabolism of investigated bioelements with the maximum effect of zinc affects the apoptotic cells' death at obesity. Conclusion: Changing of activity of effector caspase cascade components, including caspase -3 in case of diet-induced alimentary obesity, causes implementing of blood suspension leukocyte cells' death by apoptosis, and the initiation of apoptosis in this case depends on the body mass index and leptin concentration. The study showed that the combination of the dysmetabolism of investigated bioelements with the maximum effect of zinc affects the apoptotic cells' death at obesity.