Bilateral lesions in a specific subregion of posterior insular cortex impair conditioned taste aversion expression in rats

Schier, Lindsey A.; Blonde, Ginger D.; Spector, Alan C.

doi:10.1002/cne.23822

Cited by 31 publications

(46 citation statements)

References 58 publications

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“…Lesioning of the anterior IC, a structure heavily implicated in integration of interoceptive cues of stimuli, particularly drugs of abuse (Naqvi and Bechara, 2010) results in interference with the acquisition of CTA induced by drugs of abuse, but not LiCl, remarkably similar to the results observed here (Geddes et al, 2008; Mackey et al, 1986; Zito et al, 1988). Acquisition of LiCl-induced CTA is dependent on relatively more caudal areas of the IC (Schier et al, 2016; Schier et al, 2014). Nicotine administered to the anterior IC increases GABAergic tone and ultimately results in a depression of synaptic potentiation (Sato et al, 2017), primarily at layer 5-pyramidal neurons, the primary excitatory output of the IC.…”

Section: Discussionmentioning

confidence: 99%

Nicotine pre-treatment reduces sensitivity to the interoceptive stimulus effects of commonly abused drugs as assessed with taste conditioning paradigms

Loney¹,

Meyer²

2019

Drug and Alcohol Dependence

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Background: Drug pre-exposure attenuates sensitivity to the interoceptive stimulus properties of additional subsequently administered drugs in drug-induced conditioned taste avoidance (CTA) and conditioned place preference (CPP) paradigms. Specifically, nicotine, commonly used in conjunction with other addictive substances, attenuates acquisition of ethanol and caffeine As and morphine-induced CPP. Methods: Because nicotine use is comorbid with a number of substance use disorders, we systematically examined the effects of nicotine pre-exposure on two different conditioning paradigms involving integration of the interoceptive stimulus properties of multiple commonly abused drugs, in male and female rats, designed to examine both the aversive and reinforcing properties of these drugs. Results: Nicotine dose-dependently interfered with acquisition of CTA to passively administered morphine, ethanol, and cocaine, but not lithium chloride, demonstrating that the effects of nicotine are not simply a matter of reduced orosensory processing or an inability to learn such associations. Moreover, nicotine-treated rats required higher doses of drug in order to develop CTA and did not show increased acceptance of the taste of self-administered ethanol compared with saline-treated rats. Conclusions: These data demonstrate that nicotine pre-exposure attenuates sensitivity to the stimulus effects of multiple drugs in two conditioning paradigms, in a manner which is consistent with a reduced ability to integrate the interoceptive properties of abused drugs. Through reducing these stimulus properties of drugs of abuse, concomitant nicotine use may result in a need to increase either the frequency or strength of doses during drug-taking, thus likely contributing to enhanced addiction liability in smokers.

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Section: Discussionmentioning

confidence: 99%

Nicotine pre-treatment reduces sensitivity to the interoceptive stimulus effects of commonly abused drugs as assessed with taste conditioning paradigms

Loney¹,

Meyer²

2019

Drug and Alcohol Dependence

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“…Our data reveal that innocuous taste experience specifically affects processing of the association between taste and malaise in gustatory cortex (GC on the processing of a new taste (sucrose, see below) or nausea alone. We also found no significant differences in the expression of c-Fos across the anterior to posterior axis of the structure, suggesting that, while distinct sub-divisions of GC may contribute differently to CTA memory itself (Schier et al 2016), TPE affects learning-related activity uniformly across the entirety of GC.…”

Section: Discussionmentioning

confidence: 59%

The role of the gustatory cortex in incidental experience-evoked enhancement of later taste learning

Flores

Parmet

Mukherjee

et al. 2018

Preprint

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The strength of learned associations between pairs of stimuli is affected by multiple factors, the most extensively studied of which is prior experience with the stimuli themselves. In contrast, little data is available regarding how experience with incidental stimuli (independent of any conditioning situation) impacts later learning. This lack of research is striking given the importance of incidental experience to survival. We have recently begun to fill this void using conditioned taste aversion (CTA), wherein an animal learns to avoid a taste that has been associated with malaise. We previously demonstrated that incidental exposure to salty and sour tastes (taste pre-exposure-TPE) enhances aversions learned later to sucrose.Here, we investigate the neurobiology underlying this phenomenon. First, we use immediate early gene (c-Fos) expression to identify gustatory cortex (GC) as a site at which TPE specifically increases the neural activation caused by taste-malaise pairing (i.e., TPE did not change c-Fos induced by either stimulus in isolation). Next, we use site-specific infection with the optical silencer Archaerhodopsin-T to show that GC inactivation during TPE inhibits the expected enhancements of both learning and CTA-related c-Fos expression, a full day later. Thus, we conclude that GC is almost certainly a vital part of the circuit that integrates incidental experience into later associative learning.

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“…However, gustatory cortex is multisensory, responding to tactile, temperature, auditory, and odor stimuli (Samuelsen et al, 2012, 2013; Samuelsen and Fontanini, 2017; Stapleton et al, 2006; Verhagen et al, 2004) suggesting it to be the first region capable of integrating taste and odor signals (Small, 2012). Research has shown that gustatory cortex mediates taste and odor experience-dependent behaviors, including conditioned taste aversion (Roman and Reilly, 2007; Schier et al, 2016), taste-potentiated odor aversion (Lin et al, 2009a), taste neophobia (Koh et al, 2003; Lin et al, 2012, 2009b) and odor-taste associations (Schul et al, 1996). Here, we add to these works showing experience-dependent differences in gustatory cortex to taste, odor and odor-taste stimuli.…”

Section: Discussionmentioning

confidence: 99%

Experience-dependent c-Fos expression in the primary chemosensory cortices of the rat

2018

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Eating a new food is a unique event that guides future food choices. A key element for these choices is the perception of flavor (odor-taste associations), a multisensory process dependent upon taste and smell. The two primary cortical areas for taste and smell, gustatory cortex and piriform cortex, are thought to be crucial regions for processing and responding to odor-taste mixtures. To determine how previous experience impacts the primary chemosensory cortices, we compared the expression of the immediate early gene, c-Fos, between rats presented with a taste, an odor, or an odor-taste mixture for the first-time with rats that had many days of prior experience. Compared to rats with prior experience, we found that first-time sampling of all three chemosensory stimuli led to significantly greater c-Fos expression in gustatory cortex. In piriform cortex, only the novel chemosensory stimuli containing odors showed greater c-Fos expression. These results indicate that prior experience with taste, odor, or odor-taste stimuli habituates responses in the primary chemosensory cortices and adds further evidence supporting gustatory cortex as a fundamental node for the integration of gustatory and olfactory signals.

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Bilateral lesions in a specific subregion of posterior insular cortex impair conditioned taste aversion expression in rats

Cited by 31 publications

References 58 publications

Nicotine pre-treatment reduces sensitivity to the interoceptive stimulus effects of commonly abused drugs as assessed with taste conditioning paradigms

Nicotine pre-treatment reduces sensitivity to the interoceptive stimulus effects of commonly abused drugs as assessed with taste conditioning paradigms

The role of the gustatory cortex in incidental experience-evoked enhancement of later taste learning

Experience-dependent c-Fos expression in the primary chemosensory cortices of the rat

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