Amounts of cyclic adenosine monophosphate in discrete regions of the brain were estimated after exposure of rats to microwave irradiation. Amounts were highest in the cerebellum and brainstem, intermediate in the hypothalamus and midbrain, and lowest in the hippocampus and cortex. Decapitation increased the concentration of cyclic adenosine monophosphate in all brain areas, although the increase in the cerebellum was three to four times greater than that in other areas. Microwave irradiation may provide a means of rapidly fixing brain tissue in situ while permitting easy dissection of the brain. In this way artifacts produced by decapitation can be eliminated, and concentrations of heat-stable compounds in the brain can be estimated under conditions which more closely approximate those in vivo.
Abstract— In slices of adult rabbit cerebral cortex histamine at 5 μM produced a detectable rise in adenosine 3′,5′‐monophosphate (cyclic AMP). A maximum (20‐fold) increase was observed in response to 0–5 mM histamine, with higher concentrations being less effective. The antihistaminic agent, tripelennamine, inhibited the response to 50 μM histamine in a dose‐related manner. No effect on basal levels of cyclic AMP was noted with the highest dose of tripelennamine. The cyclic AMP response to 50 μM histamine was sustained for up to 1 h of incubation whether the slices and included medium were assayed together or the slices were assayed separately, although after 60 min of incubation cyclic AMP levels were higher when the medium was included in the assay. During development of the rabbit cerebral cortex, the first detectable increase of cyclic AMP in response to histamine occurred at fetal day 25, and from day 28 to birth the response was a 4‐to 5‐fold increase. A maximal (10‐fold) response was observed at 4–8 days postpartum and by 20 days of postnatal age the response had decreased to the adult levels.
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