Prenatal availability of choline modifies development of the hippocampal cholinergic system

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Prenatal availability of choline modifies development of the hippocampal cholinergic system

Jennifer Marie Cermak^a, Thomas Holler^a, Darrell A. Jackson^a, and Jan Krzysztof Blusztajn^b^,1

^a Department of Pathology and Laboratory Medicine, Boston University School of Medicine, Boston, Massachusetts 02118, USA
^b Department of Psychiatry, Boston University School of Medicine, Boston, Massachusetts 02118, USA

Choline supplementation during fetal development [embryonicdays (E) 11–17] permanently enhances memory performancein rats. To characterize the neurochemical mechanisms that maymediate this effect, we investigated the development of indicesof the cholinergic system in the hippocampus: choline acetyltransferase(ChAT), acetylcholinesterase (AChE), synthesis of acetylcholine(ACh) from choline transported by high-affinity choline uptake(HACU), and potassium-evoked ACh release. During E11–E17,Sprague-Dawley pregnant rats consumed 0 [choline-deficient (ChD)],1.3 [control (ChC)], and 4.6 [choline-supplemented (ChS)] mmol/(kg·day)of choline, respectively. On postnatal days 17 and 27, hippocampiof the ChD animals had the highest AChE and ChAT activities,and increased synthesis of ACh from choline transported by HACU,concomitant with reductions of tissue ACh content relative tothe ChC and ChS rats and an inability to sustain depolarization-evokedACh release relative to the ChS animals. In contrast, AChE andChAT activities, and ACh synthesized from choline transportedby HACU, were lowest in ChS rats whereas depolarization-evokedACh release was the highest. This pattern of changes suggeststhat the hippocampus of the ChD animals is characterized byfast ACh recycling and efficient choline reutilization for AChsynthesis, presumably to maintain adequate ACh release despitethe decrease of the ACh pool, whereas in the ChS animals AChturnover and choline recycling is slower while the evoked releaseof ACh is high. Together, the data show a complex adaptive responseof the hippocampal cholinergic system to prenatal choline availabilityand provide a novel example of developmental plasticity in thenervous system governed by the supply of a single nutrient.—Cermak,J. M., Holler, T., Jackson, D. A., Blusztajn, J. K. Prenatalavailability of choline modifies development of the hippocampalcholinergic system. FASEB J. 12, 349–357 (1998)

Key Words: acetylcholine • acetylcholinesterase • acetylcholine release • choline acetyltransferase • cortex • development • high-affinity choline uptake • hippocampus • memory • pregnancy • rat

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