Our past studies as well as those of others have indicated that alcohol abuse leads to a loss of docosahexaenoate (DHA), the major polyunsaturate in the nervous system. Nutritional inadequacies, particularly during early development, may also lead to such losses in this essential fatty acid. In following up this work, it is important to establish what losses in physiological functions are caused by the loss of DHA in various organ systems. In a collaboration with several investigators at Wayne State University, the relationships of alcohol intake during pregnancy is related to the mother's and newborn infant's essential fatty acid and vitamin status. Dietary information is collected from the mothers in order to ascertain whether alcohol affects food selection or has a more direct metabolic effect in mediating potential losses in blood stream essential fats. Initial work on 225 women at their first prenatal care visit indicates that alcohol intake inversely correlates with plasma vitamin E content. Complex interactions appear to be taking place between essential fatty acid levels in the mothers plasma and her history of alcohol consumption during pregnancy. Samples obtained at the time of birth including mothers blood components and cord blood and artery/vein samples are currently being analyzed for essential fatty acids. In addition, plasma levels of folate metabolites have been measured in the pregnant women at the 24 week stage of gestation. In another major line of research, a model of DHA deficiency was created in order to characterize the loss in nervous system function as well as to investigate the reversibility of function when DHA concentration is restored. A novel application to the field of essential fatty acid biology was made with the introduction of olfactory-based learning and memory-related tasks for brain function assessment and these findings were recently published. This modality was used since Slotnick has reported that rats are capable of high level learning of olfactory based tasks of a nature usually only ascribed to non-human primates or higher mammals. Our principal findings are that there is a poorer performance in the acquisition of olfactory set learning in rats where brain and olfactory bulb DHA was lowered thru dietary insufficiency. That is, after the rats had acquired the task, they were over-trained in order to determine whether they could achieve the learning set, i.e., make zero or only one mistake in the first twenty trials after an information trial in a two-odor discrimination task. Rats given a safflower oil based diet for two generations were significantly poorer in this regard than rats to which oils containing alpha-linolenate and DHA were added. Animals with lower levels of brain DHA performed more poorly on spatial maze tasks using the Morris Water Maze. The n-3 deficient rats swam longer and at a higher rate, but found the platform with a longer latency. In a memory retention trial, n-3 deficient rats performed significantly worse than the n-3 adequate group, especially when deprived for three generations. Although n-3 deficient rats perform more poorly, it cannot be ascribed to lower activity or motivation as general motor activity was not different between groups and there was no difference in a progressive-ratio licking task in which animals worked for a water reward. Also, the n-3 deficient rats sampled the odors longer than the DHA-adequate animals but still made more subsequent total errors. The n-3 deficient rats were examined for changes in brain morphology using quantitative stereological techniques. Initially, studies focused on hippocampal morphology. Previous observations included a decreased cell size in the hippocampus, hypothalamus, subfornical organ, and in the parietal and piriform cortex of animals with low brain DHA. Golgi staining revealed a loss of dendritic branching in the dentate gyrus and pyramids from layer V of the fronto-pariental cortex in rats with low brain DHA. Several collaborations were established that allowed further insight into losses in neural functions associated with low brain or retinal DHA. Retinal sensitivity was lost in third generation rats on a low n-3 fatty acid diet. Similarly, rhesus monkeys given a formula with low levels of n-3 fatty acids after birth exhibited an increase in b-wave implicit times at low light intensity levels. These infant monkeys exhibited poorer orienting and motor skills than those fed AA and DHA-supplemented formulas. Once these deficiencies in brain function were established relating to DHA status, it was of interest to determine whether they were reversible. For this purpose, n-3 deficiency was induced with a safflower oil-based diet over three generations. In this study, the degree of DHA repletion was well correlated with performance in the Morris water maze. A further study in mouse brain has shown the time course curves for recovery of brain DHA when repletion is begun either at 3 or 7 weeks of age; the half time for recovery was 1.6 and 3.6 weeks, respectively. A study was carried out to determine whether lead was more neurotoxic when combined with low brain DHA status. The poorer acquisition of an olfactory discrimination in lead exposed rats appeared to be better when brain DHA levels were supported. Lead exposure during lactation also increased liver but not brain levels of AA and DHA. However, no DHA protection could be observed in lead exposed rats on spatial tasks or in olfactory-cued reversal learning. A model of first generational loss of brain DHA was made with the use of artificial rearing. In this reporting period, great progress has been made in the successful rearing of pups from the second day of life using feeding bottles developed by Hoshiba. Animals were raised on n-3 supplemented or deficient rat milks to adulthood and tested for spatial task performance. There was no difference in motor activity or in the plus maze but escape latency and memory retention were poorer in the n-3 deficient rats. This technique now makes possible many experiments where control of individual fatty acids or other nutrients in the diet and thus in tissue composition is required. A PET imaging study has been initiated in collaboration with the Lab of Clinical Studies, Clinical Center PET Imaging and Stanley rapoport, NIA. A human protocol has been approved by the IRB and five rhesus monkeys have been given the isotope for dosimetry calculation. The study of healthy controls and alcoholics is expected to begin this year.

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
Intramural Research (Z01)
Project #
1Z01AA000235-20
Application #
6680133
Study Section
(LMBB)
Project Start
Project End
Budget Start
Budget End
Support Year
20
Fiscal Year
2002
Total Cost
Indirect Cost
Name
Alcohol Abuse and Alcoholism
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Golding, Jean; Northstone, Kate; Emmett, Pauline et al. (2012) Do ?-3 or other fatty acids influence the development of 'growing pains'? A prebirth cohort study. BMJ Open 2:
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Fedorova, Irina; Hussein, Nahed; Di Martino, Carmine et al. (2007) An n-3 fatty acid deficient diet affects mouse spatial learning in the Barnes circular maze. Prostaglandins Leukot Essent Fatty Acids 77:269-77
Polozova, Alla; Salem Jr, Norman (2007) Role of liver and plasma lipoproteins in selective transport of n-3 fatty acids to tissues: a comparative study of 14C-DHA and 3H-oleic acid tracers. J Mol Neurosci 33:56-66
Stark, Ken D; Lim, Sun-Young; Salem Jr, Norman (2007) Artificial rearing with docosahexaenoic acid and n-6 docosapentaenoic acid alters rat tissue fatty acid composition. J Lipid Res 48:2471-7
Salem Jr, Norman (2007) What is the right level of DHA in the infant diet? Commentary on article by Hsieh et al. on page 537. Pediatr Res 61:518-9

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