Centrifugal inputs modulate taste aversion learning associated parabrachial neuronal activities

doi:10.1152/jn.01090.2003

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Centrifugal inputs modulate taste aversion learning associated parabrachial neuronal activities

Ken'ichi Tokita, Zoltan Karadi, Tsuyoshi Shimura, and Takashi Yamamoto^*

^* To whom correspondence should be addressed. E-mail: yamamoto{at}hus.osaka-u.ac.jp.

Our previous studies have demonstrated that gustatory neuronsin the parabrachial nucleus (PBN) show altered responses afterthe acquisition of conditioned taste aversion (CTA) to NaCl(Shimura et al. 1997c). The present study was conducted 1)to examine centrifugal influences on the altered gustatory activityof CTA-trained rats, and 2) to evaluate the role of amiloride-sensitive(ASN) and -insensitive NaCl (AIN) best units in coding the tasteof NaCl. Animals were separated into two groups: a CTA groupthat had acquired taste aversion to 0.1 M NaCl and a controlgroup that underwent pseudo-conditioning before the recordingexperiment. Single neuron activity, in two separate seriesof experiments, was extracellularly recorded in anesthetizedrats. In the stimulation studies, the effects of electricalstimulation of the gustatory cortex (GC) or the central nucleusof amygdala (CeA) were examined on firing of PBN taste units. CeA stimulation produced excitatory effect in significantlymore neurons in the CTA group (n = 8) than in the control group(n = 1). Furthermore, ASN-best units in the CTA group showedlarger responses to NaCl than similar units in the control group. In the decerebration experiment, there was no statistical differenceamong the taste responses between the two groups in any best-stimuluscategory. These results suggest that CTA conditioning utilizesan effective central amygdaloid input to modulate activity ofgustatory neurons in the PBN. Data also substantiate that amiloride-sensitivecomponents of NaCl-best neurons play a critical role in therecognition of distinctive taste of NaCl.

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