Kleene S J, Pun R Y
Department of Cell Biology, Neurobiology, and Anatomy, University of Cincinnati, Ohio 45267-0521, USA.
J Neurophysiol. 1996 Apr;75(4):1386-91. doi: 10.1152/jn.1996.75.4.1386.
We measured the current activated by cytoplasmic adenosine 3':5'-cyclic monophosphate (cAMP) in olfactory cilia from the frog Rana pipiens. The odorant-induced current in frog olfactory receptor neurons was also measured for comparison. In both cases, recordings were performed near the neuronal resting potential in a variety of extracellular bath solutions. 2. In Ca(2+)-free baths, cAMP activated an inward current in excised olfactory cilia that was carried entirely by cations. As extracellular Ca2+ was increased, the cationic current decreased while a second current, carried by C1-, increased. Total cAMP-activated current decreased with increasing extracellular CA2+. When external Na+ but not Ca2+ was eliminated, only the C1- component of the current persisted. When external Na+ and Ca2+ were both removed, there was no cAMP-activated current. 3. In receptor neurons, the total odorant-induced receptor current varied in a similar way with the extracellular ionic environment. Under conditions favoring the anionic receptor current, the response amplitude decreased and the latency increased. 4. It is known that olfactory receptor currents persist in a wide variety of extracellular environments. This persistence can be sufficiently explained by the balance between cationic and anionic currents demonstrated here.
我们测量了爪蟾嗅纤毛中由胞质3':5'-环磷酸腺苷(cAMP)激活的电流。还测量了爪蟾嗅觉受体神经元中气味诱导的电流以作比较。在这两种情况下,记录均在多种细胞外浴液中接近神经元静息电位时进行。2. 在无钙浴液中,cAMP在分离出的嗅纤毛中激活内向电流,该电流完全由阳离子携带。随着细胞外Ca2+浓度增加,阳离子电流减小,而由Cl-携带的第二种电流增加。cAMP激活的总电流随细胞外Ca2+浓度增加而减小。当去除细胞外Na+而非Ca2+时,电流仅持续存在Cl-成分。当细胞外Na+和Ca2+均被去除时,不存在cAMP激活的电流。3. 在受体神经元中,气味诱导的总受体电流随细胞外离子环境以类似方式变化。在有利于阴离子受体电流的条件下,反应幅度减小且潜伏期增加。4. 已知嗅觉受体电流在多种细胞外环境中持续存在。这里所证明的阳离子电流和阴离子电流之间的平衡足以解释这种持续性。
