Elsevier

Neuroscience Letters

Volume 386, Issue 2, 30 September 2005, Pages 127-132
Neuroscience Letters

Effect of post-hypoxic MgSO4 administration in utero on Ca2+-influx and Ca2+/calmodulin kinase IV activity in cortical neuronal nuclei

https://doi.org/10.1016/j.neulet.2005.05.064Get rights and content

Abstract

Previously we have demonstrated that in utero hypoxia results in increased nuclear Ca2+-influx and increased CaM kinase IV activity in neuronal nuclei of the guinea pig fetus. The present study tests the hypothesis that maternal treatment with magnesium sulfate (MgSO4) following in utero hypoxia will attenuate the hypoxia-induced increase in Ca2+-influx and CaM kinase IV activity in neuronal nuclei of the fetal guinea pig brain during recovery. Pregnant guinea pigs at 60 days of gestation were divided into four groups: normoxic (Nx = 5), hypoxic (Hx, n = 4), untreated post-hypoxic 24 h recovery (Rec, n = 8) and Mg2+-treated post-hypoxic 24 h recovery (Mg2+-Rec, n = 8). Maternal hypoxia was induced by decreasing FiO2 to 8% for 1 h. Recovery groups received either saline or 300 mg/kg MgSO4 (i.p.) followed by 100 mg/kg/h i.p. for 4 h. Fetal cerebral tissue hypoxia was documented by ATP and phosphcreatine (PCr) levels. Neuronal nuclei were isolated and nuclear Ca2+-influx as well as CaM kinase activity was determined. Nuclear Ca2+ influx (pmol/mg protein) was 4.84 ± 0.83 in Nx, 12.50 ± 2.97 (p < 0.05) in Hx, 7.83 ± 1.78 in Rec group (p < 0.05 versus Nx and Hx) and 5.02 ± 1.77 in Mg2+-Rec group (p < 0.05 versus Rec group, p < 0.05 versus Hx, p = NS versus Nx). CaM kinase IV activity (pmol/mg protein/min) was 1197 ± 62 in Nx, 2524 ± 132 (p < 0.05 versus Nx) in Hx, 1830 ± 141 (p < 0.05 versus Nx and Hx) in Rec and 1938 ± 118 in Mg2+-Rec group (p < 0.05 versus Hx and Nx, p = n.s. versus Rec). The data show that MgSO4 administration following in utero hypoxia prevents hypoxia-induced increase in neuronal nuclear Ca2+-influx but has no effect on CaM kinase activity in the guinea pig fetus during recovery. We conclude that post-hypoxic administration of Mg2+ prevents hypoxia-induced modification of neuronal nuclear membrane function.

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Acknowledgements

The study was supported by grants from the National Institutes of Health (NIH-HD-R01-20337 and NIH-HD-R01-38079) and March of Dimes Foundation (#6FY01-158).

References (22)

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