Genomic instability related to zinc deficiency and excess in an in vitro model: Is the upper estimate of the physiological requirements recommended for children safe?

PADULA G; PONZINIBBIO MV; GAMBARO R; SEOANE A

IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY. ANIMAL.

SPRINGER

Año: 2017 vol. 53 p. 586 - 592

1071-2690

Micronutrients are important for the prevention of degenerative diseases due to their role in maintaining genomic stability. Therefore, there is international concern about the need to redefine the optimal mineral and vitamin requirements to prevent DNA damage. We analyzed the cytostatic, cytotoxic and genotoxic effect of in vitro zinc supplementation to determine the effects of zinc deficiency and excess, and whether the upper estimate of the physiological requirement recommended for children is safe. To achieve zinc deficiency, DMEM/Ham´s F12 medium (HF12) was chelated (HF12Q). Lymphocytes were isolated from healthy female donors (age range, 5-10 years) and cultured for seven days as follows: negative control (HF12, 60 µg/dl ZnSO4); deficient (HF12Q, 12 µg/dl ZnSO4); lower level (HF12Q + 80 µg/dl ZnSO4); average level (HF12Q + 180 µg/dl ZnSO4); upper limit (HF12Q + 280 µg/dl ZnSO4), and excess (HF12Q + 380 µg/dl ZnSO4). The comet (quantitative analysis) and cytokinesis-block micronucleus cytome assays were used. Differences were evaluated with KruskallWallis and ANOVA (P < 0.05). Olive tail moment, tail length, micronuclei frequency and apoptotic and necrotic percentages were significantly higher in the deficient, upper limit and excess cultures compared with the negative control, lower and average limit ones. In vitro zinc supplementation at the lower and average limit (80 and 180 µg/dl ZnSO4) of the physiological requirement recommended for children proved to be the most beneficial in avoiding genomic instability, whereas the deficient, upper limit and excess (12, 280 and 380 µg/dl) cultures increased DNA and chromosomal damage and apoptotic and necrotic frequencies.