Frank M E, Contreras R J, Hettinger T P
J Neurophysiol. 1983 Oct;50(4):941-60. doi: 10.1152/jn.1983.50.4.941.
Hypotheses about the peripheral basis for the sense of taste in mammals have been based to a considerable degree on the determined sensibilities of the nerve fibers in the chorda tympani of the rat to chemical stimulation of the anterior tongue. Yet, whether neuron types exist in this nerve, the nature of the basic mechanisms of taste reception that are tapped by this nerve and the form in which information about stimulus quality and intensity is transmitted to the central nervous system by this nerve are, at present, unresolved issues. These issues are addressed in the present study, which is a detailed analysis of the responses of rat chorda tympani nerve fibers that are sensitive to ionic stimuli; solutions applied to the anterior tongue included a range of concentrations of four chemical compounds (sucrose, sodium chloride, hydrochloric acid, and quinine hydrochloride) that represent widely different taste qualities to man or rat. Of the 44 nerve fibers sampled, 40 were stimulated most by one of the two ionic stimuli at test concentrations reported to be equally effective: 21 fibers were most responsive to 0.1 M NaCl and named N units; 19 fibers were most responsive to 0.01 M HCl and named H units. Although many N and H units responded to both HCl and NaCl, the distribution of NaCl-HCl response ratios was bimodal, indicating there are two varieties of units sensitive to ionic taste stimuli in the rat chorda tympani. Sucrose (0.5 M) affected 4 of the nerve fibers and was the most effective stimulus for 3 of them; 0.02 M quinine affected 13 of the fibers but 10 of these were H units. H units were less "specifically tuned" than N units; they were more likely to respond to several of the chemicals. Although the absolute sensitivity to NaCl in N units or to HCl in H units varied more than 10-fold, the relative effects of the four stimuli (response profiles) were generally similar for units of a given type. Exceptions occurred when H unit responses to NaCl or quinine were suppressed by prolonged effects of preceding HCl stimulation. The similarity in response profiles is reflected in high and significant correlations between responses to each pair of effective stimuli across either H or N units.(ABSTRACT TRUNCATED AT 400 WORDS)
关于哺乳动物味觉的外周基础的假说,在很大程度上是基于对大鼠鼓索神经纤维对舌前部化学刺激的确定敏感性。然而,该神经中是否存在神经元类型、该神经所利用的味觉接收基本机制的性质,以及关于刺激质量和强度的信息通过该神经传递到中枢神经系统的形式,目前仍是未解决的问题。本研究探讨了这些问题,这是对大鼠鼓索神经纤维对离子刺激的反应的详细分析;应用于舌前部的溶液包括四种化合物(蔗糖、氯化钠、盐酸和盐酸奎宁)的一系列浓度,这些化合物对人类或大鼠而言代表了广泛不同的味觉特性。在采样的44根神经纤维中,40根在报告为同等有效的测试浓度下,对两种离子刺激之一反应最为强烈:21根纤维对0.1M氯化钠反应最为强烈,被命名为N单位;19根纤维对0.01M盐酸反应最为强烈,被命名为H单位。尽管许多N单位和H单位对盐酸和氯化钠都有反应,但氯化钠 - 盐酸反应比率的分布是双峰的,表明大鼠鼓索神经中存在两种对离子味觉刺激敏感的单位类型。蔗糖(0.5M)影响了4根神经纤维,其中3根对其反应最为有效;0.02M奎宁影响了13根纤维,但其中10根是H单位。H单位比N单位的“特异性调谐”程度更低;它们更有可能对几种化学物质产生反应。尽管N单位对氯化钠或H单位对盐酸的绝对敏感性变化超过10倍,但对于给定类型的单位,四种刺激的相对效应(反应谱)通常相似。当H单位对氯化钠或奎宁的反应因先前盐酸刺激的长期效应而受到抑制时,会出现例外情况。反应谱的相似性反映在H单位或N单位对每对有效刺激的反应之间存在高度且显著的相关性。(摘要截短于400字)
