Hemodialysis restored iron distribution that was sequestered in the spleen by bilateral nephrectomy.

Acute kidney injury (AKI) is associated with dysregulated iron metabolism, which may play a significant role in cellular injury. The effect of hemodialysis (HD) on iron metabolism in AKI therapy has not been well defined. The effects of HD on iron parameters were tested in control rats and bilateral nephrectomy (BNx) rats. The BNx rats were divided into the following three groups: 1) the sham-operated group (BNx-Sham), 2) the BNx group, and 3) the HD group (BNx-HD), which received HD therapy 40-45 h after BNx. Sections of the liver or spleen were stained with Berlin blue to examine the accumulation of iron. The mRNA levels of hepcidin and ferroportin 1 in the spleen and liver were also quantified using RT-PCR. In the BNx group, the plasma iron and hematocrit levels were decreased, and hepcidin levels were increased. The iron staining in the spleen in the BNx group was significantly more intense than that in the BNx-Sham group; however, after an HD session, splenic iron staining diminished to the level of the sham group along with an increase in plasma iron and a decrease in hepcidin. BNx moved iron from hemoglobin and the plasma to the spleen, which is associated with an increase in plasma hepcidin. A single HD session accelerated the release of iron from the spleen, and the increased plasma iron was linked to the removal of hepcidin. Our data suggested that hepcidin might dynamically modulate the iron metabolism in BNx as well as in HD.

Excitatory amino acid-elicited tonic convulsions in mice and N-methyl-D-aspartate receptor activation: role of Ca(2+) influx and involvement of intracellular Ca(2+)-dependent biochemical processes.

Intravenously administered nimodipine (an L-type Ca(2+) antagonist) as well as dizocilpine (an N-methyl-D-aspartate--NMDA--antagonist) showed a wide spectrum of anticonvulsant activity in intracerebroventricular mouse models for excessive activation of excitatory amino acid receptors. The duration of Bay k-8644 (L-type Ca(2+) agonist; intracerebroventricular administration) caused seizures was significantly reduced by intravenously administered nimodipine. Intracisternal administration of Bay k-8644 lowered the convulsion threshold of an intracerebroventricular injection of NMDA. Intracisternal administration of omega-conotoxin GVIA (N-type Ca(2+) antagonist) only tended to inhibit the NMDA-induced tonic convulsions. Intracisternal administration of staurosporine (a protein kinase C inhibitor) or calmidazolium (a calmodulin antagonist) was effective in inhibiting the NMDA-induced tonic convulsions. Calmidazolium, unlike staurosporine, produced side effects at a dose showing its anticonvulsant activity. From these results, it is suggested that excessive activation of excitatory amino acid receptors results in tonic convulsions by virtue of a massive increase of Ca(2+) influx mainly through NMDA receptor channels, and at least in part through L-type Ca(2+) channels, and in subsequent activation of protein kinase C and possibly calmodulin.