Increased transfer of⁴⁵Ca into brain and cerebrospinal fluid from plasma during chronic hypocalcemia in rats

Abstract

Recent studies have shown regulation of central nervous system [Ca] after chronic hypo- and hypercalcemia. To investigate the mechanism of this regulation , 3-week-old rats were fed diets for 8 weeks that contained low or normal levels of Ca. Plasma [Ca] was 40% less in rats fed the low Ca diet than in animals fed normal diet. Unidirectional transfer coefficients for Ca (K_Ca) and Cl (K_Cl) into cerebrospinal fluid (CSF) and brain were determined from the 10 min uptake of intravenously injected⁴⁵Ca and³⁶Cl in awake animals. K_Ca for CSF was 68% greater in low-Ca rats than in normal rats. Likewise, the values of K_Ca for brain regions with areas adjacent to the ventricles like the hippocampus and pons-medulla were 50% higher than in normal animals. On the other hand, K_Cas for parietal cortex, a brain region distant from the choroid plexus and not expected to be influenced by Ca entry into CSF, were similar between the groups. Comparison of the regional ratios of K_Ca/K_Cl revealed that a selective increase of Ca transport occurred into CSF and all brain regions except the parietal cortex in Ca-deficient rats. The results suggest that Ca homeostasis of CSF and brain [Ca] during chronic hypocalcemia is due to increased transfer of Ca from blood to brain, and that the regulation occurs via the CSF, possibly at the choroid plexus, but not via the cerebral capillaries.