发育中大鼠味觉系统对饮食中钠缺乏生理效应的敏感性。
Susceptibility of the developing rat gustatory system to the physiological effects of dietary sodium deprivation.
作者信息
Hill D L
机构信息
Department of Psychology, University of Virginia, Charlottesville 22903-2477.
出版信息
J Physiol. 1987 Dec;393:413-24. doi: 10.1113/jphysiol.1987.sp016830.
Abstract
- Multifibre responses were recorded from the chorda tympani nerve in rats fed either a NaCl-deficient diet or a NaCl-replete diet from 3 days post-conception to at least 28 days post-natal. Responses were also recorded in rats fed the NaCl-deficient diet during early development and then fed the NaCl-replete diet for 1-20 days beginning at 28 days post-natal, and in rats fed the NaCl-deficient diet only as adults. The epithelial sodium transport blocker, amiloride, was used to study the physiological effects of the diet on taste receptor membrane function and to characterize the events involved in recovery of function. 2. Responses to lingual application of sodium salts increased with increasing stimulus concentration; however, response magnitudes were reduced in rats fed the NaCl-deficient diet during early development compared to controls. Responses to non-sodium salts and non-salt stimuli were similar to controls. Amiloride was ineffective in suppressing taste responses to NaCl in deprived rats but effectively suppressed responses in controls by at least 50%. After early-deprived rats were fed a NaCl-replete diet, responses to sodium salts recovered to control levels within 15 days. There was a concomitant decrease in amiloride sensitivity during this period. 3. Rats fed the NaCl-deficient diet from early gestation through adulthood had responses similar to younger deprived rats in that sodium responses were lower than controls. However, rats deprived only as adults were similar to controls. 4. The peripheral gustatory system in developing rats is susceptible to the sodium content of the diet and is 'plastic' in that early effects can be reversed by restricting dietary sodium. Once dietary manipulations are instituted past a sensitive period, however, functional taste responses seem unaffected.
摘要
- 从受孕后3天至出生后至少28天,对喂食缺钠饮食或充足钠饮食的大鼠的鼓索神经记录多纤维反应。还对在早期发育期间喂食缺钠饮食、然后从出生后28天开始喂食充足钠饮食1 - 20天的大鼠,以及仅在成年期喂食缺钠饮食的大鼠进行了反应记录。使用上皮钠转运阻滞剂氨氯吡脒来研究饮食对味觉受体膜功能的生理影响,并表征功能恢复所涉及的事件。2. 对舌部施加钠盐的反应随刺激浓度增加而增强;然而,与对照组相比,在早期发育期间喂食缺钠饮食的大鼠的反应幅度降低。对非钠盐和非盐刺激的反应与对照组相似。氨氯吡脒对剥夺组大鼠抑制对氯化钠的味觉反应无效,但能有效抑制对照组的反应至少50%。早期剥夺的大鼠喂食充足钠饮食后,对钠盐的反应在15天内恢复到对照水平。在此期间,氨氯吡脒敏感性随之降低。3. 从妊娠早期到成年期喂食缺钠饮食的大鼠的反应与较年幼的剥夺组大鼠相似,即对钠的反应低于对照组。然而,仅在成年期被剥夺的大鼠与对照组相似。4. 发育中的大鼠外周味觉系统易受饮食中钠含量的影响,并且具有“可塑性”,因为早期影响可通过限制饮食中的钠来逆转。然而,一旦在敏感期过后进行饮食操作,功能性味觉反应似乎未受影响。
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