Postnatal Changes in Protein Metabolism of Brain. II. Effects of Alteration of Ambient Temperature and Gaseous Composition of Inspired Air

Schain, Richard J.; Watanabe, K.

doi:10.1203/00006450-197104000-00005

Cited by 6 publications

(1 citation statement)

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“…s est. T h e EPG fraction was labeled more slowly than the CPG fraction, and the entry of radioactivity into noic acid (22 : 5), and docosahexaenoic acid (22 : 6), two leucine into brain proteins [8]. This effect is apparently the direct result of lowered body temperature, rather than being caused by energy depletion which accompanies thermogenesis.…”

Section: Introductionmentioning

confidence: 81%

Effect of Temperature on Fatty Acid Metabolism in Dissociated Cell Cultures of Developing Brain

Yavin

Menkes

1974

Pediatr Res

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ExtractThe effect of hypothermia on the incorporation and metabolism of essential fatty acids (linoleic and linolenic acids) by dissociated cell cultures of developing brain was examined. When the ambient temperature was reduced to 30°, chain elongation of linolenic acid (1 8 : 3) to 20 : 3, and elongation of 20 : 5 to 22 : 5 was slowed. Desaturation of 20: 3 to 20 :4 and 20: 5 remained unaffected even a t 22'. Incorporation of (1-14C)linolenic acid into the fraction containing ethanolamine phosphoglycerides and ethanolamine plasmalogens (EPG) was significantly reduced by hypothermia, whereas labeling of choline phosphoglycerides (CPG) was greater at 30' and 22' than at 37', and fell only slightly at 15'. These observations suggest that EPG labeling depends on the availability of the higher polyunsaturated fatty acids (22:5 and 22 : 6), whereas CPG labeling is nonspecific. Because ethanolamine plasmalogens are major myelin constituents, the importance of hypothermia in inducing a deficiency of the higher polyunsaturated fatty acids within the developing nervous system, and thus interfering with the biosynthesis of EPG and indirectly with membrane deposition, needs to be clarified. SpeculationThese studies suggest that hypothermia may induce a deficiency of the higher polyunsaturated fatty acids in the developing nervous system, which, in turn, could induce a defect in the formation of cell membranes. Increases in the concentration of essential fatty acids for formulas intended for low birth weight infants might compensate for this relative deficiency.

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Section: Introductionmentioning

confidence: 81%