Abstract
While studies of the gustatory cortex (GC) mostly focus on its role in taste aversion learning and memory, the necessity of GC for other fundamental taste-guided behaviors remains largely untested. Here, rats with either excitotoxic lesions targeting GC (n = 26) or sham lesions (n = 14) were assessed for postsurgical retention of a presurgically LiCl-induced conditioned taste aversion (CTA) to 0.1M sucrose using a brief-access taste generalization test in a gustometer. The same animals were then trained in a two-response operant taste detection task and psychophysically tested for their salt (NaCl or KCl) sensitivity. Next, the rats were trained and tested in a NaCl vs. KCl taste discrimination task with concentrations varied. Rats meeting our histological inclusion criterion had large lesions (resulting in a group averaging 80% damage to GC and involving surrounding regions) and showed impaired postsurgical expression of the presurgical CTA (LiCl-injected, n = 9), demonstrated rightward shifts in the NaCl (0.54 log10 shift) and KCl (0.35 log10 shift) psychometric functions, and displayed retarded salt discrimination acquisition (n = 18), but eventually learned and performed the discrimination comparable to sham-operated animals. Interestingly, the degree of deficit between tasks correlated only modestly, if at all, suggesting that idiosyncratic differences in insular cortex lesion topography were the root of the individual differences in the behavioral effects demonstrated here. This latter finding hints at some degree of interanimal variation in the functional topography of insular cortex. Overall, GC appears to be necessary to maintain normal taste sensitivity to NaCl and KCl and for salt discrimination learning. However, higher salt concentrations can be detected and discriminated by rats with extensive damage to GC suggesting that the other resources of the gustatory system are sufficient to maintain partial competence in these tasks, supporting the view that such basic sensory-discriminative taste functions involve distributed processes among central gustatory structures.
Highlights
The gustatory cortex (GC) is conventionally defined as a zone of agranular/dysgranular insular cortex flanking the middle cerebral artery containing taste-responsive neurons [1,2,3,4,5,6,7], and has been a focus for studying taste aversion learning and memory in the rat
T-test t(29) = 3.494, p = 0.002 t(29) = 2.621, p = 0.014 t(29) = 5.956, p
Lesions in this brain region retard the acquisition of a NaCl vs. KCl taste discrimination and compromise the postsurgical expression of a presurgical conditioned taste aversion (CTA) to sucrose
Summary
The gustatory cortex (GC) is conventionally defined as a zone of agranular/dysgranular insular cortex flanking the middle cerebral artery containing taste-responsive neurons [1,2,3,4,5,6,7], and has been a focus for studying taste aversion learning and memory in the rat. Bilateral lesions to GC are reported to virtually eliminate the retention of a presurgically conditioned taste aversion (CTA), in which animals are trained to avoid a tastant by pairing its ingestion with visceral malaise [2; 8,9,10,11,12]. The effects of pharmacological manipulations during CTA induction suggest involvement of GC in taste memory consolidation [22,23,24,25]. Intake tests suggest that unconditioned preference and avoidance appear normal under most, but not all, test conditions after GC damage [9, 27,28,29]. Extensive bilateral damage to GC has little effect on unconditioned concentration-dependent responsiveness to sucrose or quinine [30]
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