ISSN:
1471-4159
Source:
Blackwell Publishing Journal Backfiles 1879-2005
Topics:
Medicine
Notes:
The effect of depolarization of rat brain cortex slices on the relative distribution of thiamine among its various phosphate esters and on the efflux of thiamine was studied as a probe of possible coenzyme-independent neurophysiological functions of thiamine. Electrical pulses for 30 min increased lactate production but did not affect the levels of thiamine esters. Depolarization with 41 mM-potassium decreased thiamine diphosphate by only 3 percent (P= 0.05). Thiamine triphosphate levels (TTP) were unaffected by depolarization but doubled during incubation for 1 h in which time efflux of 40 percent of the total thiamine from the slices as unesterified thiamine occurred. Depolarization by potassium released a small but highly variable portion of the thiamine content of superfused cortex slices above the basal rate of efflux. The basal efflux was partially sodium dependent. Thiamine efflux was unaffected by acetylcholine, ouabain, or tetrodotoxin, compounds previously reported to increase thiamine efflux. The incorporation of 32P1 into the endogenous thiamine phosphates of cortex slices was studied. Incorporation into thiamine diphosphate reached only 20 percent of the specific activity of its precursor, ATP, after 2h of incubation while the incorporation into TTP approached equilibrium with ATP in 15-30 min indicating that the TTP pool was the most rapidly turning over of the thiamine phosphates. The data suggest that only a small portion of the TDP pool undergoes rapid turnover and serves as a precursor for TTP. The rapid turnover of TTP phosphoryl groups is consistent with specific functions for this compound related to its potential for phosphorylation reactions. An analog of TTP with the β, γ oxygen bridge replaced by a methylene group decreased TDP levels and increased thiamine when incubated with cortex slices, but did not effect thiamine monophosphate or triphosphate levels indicating inhibition of thiamine pyrophosphokinase.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1111/j.1471-4159.1975.tb07662.x