Interactions d’une restriction calorique avec les effets du Nickel sur la reproduction chez le rat

Human epidemiological studies have demonstrated signs of a reduction, since 1960, of several parameters of the sperm count with an increase of certain male genital tract diseases. The increasing contamination of the environment by chemical compounds appears to be an aetiological factor. Various authors have also proposed the hypothesis that caloric restriction has a beneficial effect on health or longevity. This study was deisgned to compare the effects of nickel on the reproductive functions of rats fed either daily or every second day, in order to evaluate the possible beneficial effects of caloric restriction on rat fertility. This study was conducted with male and female Wistar rats, fed either daily (N), or every second day: intermittent fasting (F). After one month of this treatment, (N) and (F) rats were divided into 2 groups: one group received tap water (NO and FO groups), and the other received the same water enriched with nickel chloride (100 mg/L, NNi and FNi groups). Intermittent fasting was continued in parallel with nickel treatment with for 2, 4, 10, 16, 30 and 60 days. To study malonic dialdehyde (MDA) levels, nickel was administered by intraperitoneal injection at the dosage of 4 mg NiCl₂/kg of body weight for 1, 3, 5 and 10 days. Our results show that nickel induces atrophy of the seminiferous tubules with a reduction of the sperm count and a reduction of serum testosterone levels. A reduction of the number of ovarian follicles was observed in females. Intermittent fasting induced the same types of disturbances with more marked reductions of the number of mobile spermatozoa and serum festosterone levels than those observed after exposure to nickel. The combination of the two factors, fasting and nickel, did not amplify these effects. Analysis of intergroup crosses showed that the pregnancy rate and especially the mean number of implantations were decreased in rats exposed to nickel and/or submitted to intermittent fasting. The lowest pregnancy rate (55%) was observed in (NNi) females crossed with (NO) control males. The smallest number of implantations was observed in (NO) control females crossed with (NNi) males. Nickel did not induce any additional reduction of fertility in rats submitted to intermittent fasting. MDA assays showed that nickel induces lipid peroxidation in ovarian and uterine tissues. However, the relative increase of the MDA level was lower in FNi than NNi rats, i.e. when nickel was associated with intermittent fasting. Our results suggest that nickel and intermittent fasting decrease fertility in rats via two different mechanisms whose effects are not additive. When associated with intermittent fasting, nickel becomes non-toxic, as confirmed by montoring of MDA levels. The low-calorie effect of intermittent fasting could be responsible for inhibition of the cytotoxic effects of metallic nickel classified as an oxidative stress.