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The protective role of melatonin against the effects of different doses of caffeine on the fetus. | LitMetric

AI Article Synopsis

  • The study investigated the effects of caffeine (30 and 60 mg/kg) on fetal skeletal and organ development in rat fetuses, and the potential protective role of melatonin (10 mg/kg).
  • Various groups of rats were formed, and fetuses were analyzed for oxidative stress, inflammatory markers, and gene expression related to angiotensin receptor Agtr2.
  • Results indicated that caffeine exposure delayed ossification, while melatonin countered this effect, and significant changes in angiotensin receptor expression were noted in high caffeine and melatonin combinations.

Article Abstract

Skeletal system and some organs development changes in rat fetuses with 30 and 60 mg/kg caffeine and melatonin's (10 mg/kg) protective role against rat fetuses were investigated. Groups (n = 4) were formed as Control, LDC, HDC, LDC+melatonin, HDC+melatonin and melatonin. Fetuses were taken by cesarean section and stained using dual skeletal staining method and FESEM. TRAP and AP immune-reactivity concentrations were calculated.  Oxidative stress and inflammatory markers were also measured by liver, bone and placenta samples.  TNF-α, IL-1ß, IL-6, VEGF-A, SOST and Fetuin-A levels were measured in tissue by using ELISA. TBARS, SOD, GSH, GSSG, TOS, TAS, measured by spectrophotometric assay method.  The mRNA levels of Agtr2 gene expressed in placental tissues of control rats and in placental tissues of rats exposed to HDC, LDC, MEL, HDC+MEL, LDC+MEL were analyzed by Real-time PCR. The gene expressions of Agtr2 were significantly upregulated in the placentas exposed to HDC, MEL, HDC+MEL and LDC+MEL (P<0,001). No significant difference in samples of the LDC group (P>0,05). According to these data, caffeine used during pregnancy delayed ossification; melatonin, a powerful antioxidant, was found to eliminate this effect. Besides, changes in angiotensin receptor expression observed in response to a caffeine and melatonin exposure result from high dose and join effect.

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