Journal of Nutrition and Health

The Korean Nutrition Society (한국영양학회)
권호 표지

Effect of Dietary Supplementation of DHA and AA on the Incorporation of Long Chain Fatty Acid and DNA Content in the Developing Brain of Rats

쥐에서 뇌발달 과정중에 식이에 첨가한 DHA와 AA가 뇌조직의 지방산조성과 DNA 함량에 미치는 영향

  • 박현서 (경희대학교 생활과학대학 식품영양학과)
  • Published : 1999.07.01
Download PDF
⟨ Previous Next ⟩

Abstract

The aim of this study was to observe whether the dietary supplementation of docosahexaenoic acid(DHA). In growing rats requires extra supplementation of arachidonic acid(AA) for brain development. Sprague-Dawley rats were divided into three groups, each fed a different diet. In the FO group, dams were fed a DHA-rich FO diet during pregnancy and lactation and pups were fed the same diet until 10 weeks old. In the AO group dams and pups were similarly fed a FO diet after weaning. DHA and AA were most effetively deposited in the developing brain during pregnancy and lactation in rats. However, FO-W pups showed significantly lower level of DHA at 0-3 weeks compared with the FO and AO groups and than slowly increased DHA levels to about 87% of other groups at 10 weeks with the introduction of the FO diet after weaning. The total amount of DNA in whole brain rapidly reached a maximum level at 3 weeks and then was sustained at a constant level after 5 weeks of age. The DNA content was positively correlated with DHA level but not with AA level in the developing brain. DNA content was significantly lower in the FO-W group compared to the FO and AO group at 3 weeks of age. However, the DNA content of brain in FO-W pups increased to 80% of the FO group level at 10 weeks after feeding the FO diet after weaning. The relative percentage of AA in brain lipids was significantly reduced in the early stage of brain development when only DHA was supplemented. However, DHA supplementation had no significant effect on the incorporation of AA when the approximately 35% of LA in the FO diet was substituted by preformed AA. These results suggest that large quantities of DHA could interfere with the normal conversion of LA to AA if LA is not supplemented enough together with DHA. Therefore, high DHA supplementation may require preformed AA in the diet even though AA has no significant correlation with the DNA content in brain. DHA supplementation after weaning also improved the incorporation of DHA into brain and content of DNA even though brain development was almost completed, suggesting that a low level of DHA supplementation without AA addition might be necessary to improve brain development during infancy as well as during pregnancy and lactation.

Keywords

References

  1. Lipids v.27 Monoenoic fatty acids in human brain lipids: Isomer identification and distribution Johnson DW;Beckman K;Fellenberg AJ;Robinson BS;Poulos A
  2. J Pediatr v.120 Human mild and formula fatty acid Innis SM
  3. J Pediatr v.120 Tissue levels of polyunsaturated fatty acids during early human development Maritinez M
  4. Am J Clin Nutr The role of essential fatty acids in neural development Crawford MA
  5. J of Neuro Res Maternal dietary fish oil enriches docosahexaenoate levels in brain subcellular fractions of offspring Yeh YY;Gehman MF;Yeh SM
  6. Ann Rev Nutr v.8 The essentiality of n-3 fatty acids for the development and function of the retina and brain Neuringer M;Anderson GJ;Connor WE
  7. Korean J Nutr v.26 no.6 Effect of maternal dietary n-3 and n-6 polyunsaturated fatty acid on the fatty acid composition of the second genernation rat brain Kim MK;Chee KM;Lee YZ
  8. Am J Clin Nutr v.54 Omega-3 fatty acid in health and disease and in growth and devolopment Simopoulos AP
  9. J Clin Invest v.73 Dietary n-3 fatty acid deficiency and visual loss in infant rhesus monkey Neuringer M;Connor WE;van Petten C;Barstad L
  10. Korean J Nutr v.29 no.3 Effect of DHA-rich fish oil on brain development and learning ability in rats Chung KS;Park HS
  11. J Lipid Res v.27 Direct transesterification of all classes of lipid in a one-step reaction Lepage G;Roy CC
  12. J Biol Chem v.62 A study of the conditions and mechanism of the diphenylamine reaction for the colorimetric estimation of deoxyribonucleic acid Burton K
  13. Nature v.93 An improved diphenylamine method for the estimation of deoxy-ribonucleic acid Giles KW;Myers A
  14. Brain development relationship to dietary lipid and lipid metabolism Iumpsen J;Clandinin MT
  15. Acta Pediatr Scand Supp; v.351 Requirements of newborn infants for long chain polyunsaturated fatty acid Clandinin MT;Chappell JE;Van Aerde IE
  16. J Neurochem v.19 The accumulation of arachidonate and docosahexaenoate into the developing brain Sinclair AJ;Crawford MA
  17. J Neurochem v.55 Role of the blood-brain barrier in the formation of long chain ω-3 and ω-6 fatty acids from essential fatty acid precursors Moore SA;Yoder E;Spector AA
  18. Am Inst Nurt Antagonistic Effects of dietary arachidonic acid and n-3 polyunsaturated fatty acids Jay W
  19. Am J Clin nutr v.35 A case of human linoleic acid deficiency involving neurological abnormalities Holman RT;Johnson SB;Hatch TF
  20. J Pediatr v.120 The influence of a vegetarian diet on the fatty acid composition of human mild and the essential fatty acid status of the infant Sander TAB;Reddy BS
  21. Developmental nutrition Hurley LS
  22. J Nutr v.123 Docosahexaenoic acid is transferred through maternal diet to mild and to tissues of natural mild-fed piglets Arbuckle LD;Inns SM