The disposition of [24-3H]cerebrosterol in developing rat brain.

—The uptake into subcellular fractions of developing rat brain in vivo of intracerebrally injected [4-¹⁴C]cholesterol, [24-³H]cerebrosterol, and [24-³H]24-epicerebrosterol was measured for periods up to 30 days following administration. [4-¹⁴C]cholesterol was accumulated rapidly in nuclei, nerve endings, and microsomes, more slowly in myelin and mitochondria. [24-³H]cerebrosterol was accumulated rapidly in myelin, nerve endings, and microsomes, more slowly in nuclei and mitochondria. The uptake of [24-³H]24-epicerebrosterol was essentially the same as that of [24-³H]cerebrosterol. Ratios of radioactivities of [24-³H]cerebrosterol and [4-¹⁴C]cholesterol accentuated the early accumulation of [24-³H]cerebrosterol in myelin, nerve endings, and microsomes, and declining ³H:¹⁴C ratios disclosed the rapid elimination of [24-³H]cerebrosterol and [24-³H]24-epicerebrosterol relative to [4-¹⁴C]cholesterol in nerve endings and microsomes. The data suggest that the removal of [24-³H]cerebrosterol from brain results from an enzymic metabolism of the sterol, therefore that cerebrosterol exists in brain in a dynamic state of biosynthesis and catabolism.