Negative contrast in the consumption of sucrose and quinine adulterated sucrose solutions

Frustrative nonreward: Detailed c-Fos expression patterns in the amygdala after consummatory successive negative contrast

The amygdala has been implicated in frustrative nonreward induced by unexpected reward downshifts, using paradigms like consummatory successive negative contrast (cSNC). However, existing evidence comes from experiments involving the central and basolateral nuclei on a broad level. Moreover, whether the amygdala's involvement in reward downshift requires a cSNC effect (i.e., greater suppression in downshifted animals than in unshifted controls) or just consummatory suppression without a cSNC effect, remains unclear. Three groups were exposed to (1) a large reward disparity leading to a cSNC effect (32-to-2% sucrose), (2) a small reward disparity involving consummatory suppression in the absence of a cSNC effect (8-to-2% sucrose), and (3) an unshifted control (2% sucrose). Brains obtained after the first reward downshift session were processed for c-Fos expression, a protein often used as a marker for neural activation. c-Fos-positive cells were counted in the anterior, medial, and posterior portions (A/P axis) of ten regions of the rat basolateral, central, and medial amygdala. c-Fos expression was higher in 32-to-2% sucrose downshift animals than in the other two groups in four regions: the anterior and the medial lateral basal amygdala, the medial capsular central amygdala, and the anterior anterio-ventral medial amygdala. None of the areas exhibited differential c-Fos expression between the 8-to-2% sucrose downshift and the unshifted conditions. Thus, amygdala activation requires exposure to a substantial reward disparity. This approach has identified, for the first time, specific amygdala areas relevant to understand the cSNC effect, suggesting follow-up experiments aimed at testing the function of these regions in reward downshift.

Acquisition of lever pressing for cocaine in C57BL/6J mice: effects of prior Pavlovian conditioning

The purpose of this study was to determine (1) if C57BL/6J (C57) mice would lever-press for intravenous cocaine infusions in a limited-access paradigm without previously establishing the instrumental response with natural reinforcers and (2) if prior Pavlovian conditioning of cocaine to the response contingent stimulus complex used in the cocaine self-administration sessions would facilitate acquisition of lever responding for cocaine. After implanting jugular catheters, some mice received Pavlovian conditioning during which 12 passive cocaine infusions (0.1 or 1 mg/kg unit doses) were paired with the tone/light/pump sound stimulus complex used in the self-administration sessions. The remaining mice simply began the cocaine self-administration sessions for 0.1 or 1 mg/kg unit doses of cocaine. Twenty-seven of the 33 mice with patent catheters acquired stable lever responding within an average of 5 to 6 days without previously establishing the instrumental response with natural rewards. Prior Pavlovian pairing of cocaine with the response contingent stimulus complex used in the self-administration sessions did not influence the acquisition of cocaine self-administration at the highest cocaine dose (1 mg/kg). This conditioning procedure using the low cocaine dose (0.1 mg/kg/infusion) reduced the number of mice acquiring cocaine self-administration to 50%, and the number of mice developing stable response patterns was only 25%. The results establish that C57 mice can acquire cocaine self-administration over several unit doses in a limited-access paradigm without previously establishing the instrumental response with natural reinforcers. Furthermore, prior pairing of response contingent cues with cocaine via Pavlovian conditioning did not facilitate the acquisition of cocaine self-administration.

Evidence for genetic determination of specific food choices of rats

To study the contributions of genetics to food selection in an omnivorous species, rats of two strains and rats derived from reciprocal crosses of the two strains were compared. In addition, offspring of rats that accepted a specific food (ham) were compared with offspring of rats that refused the same food, and food selection of males was compared with that of females. Both homozygous nonobese Zucker rats and Zucker x Sprague-Dawley hybrid rats ate butterscotch, semisweet chocolate, and ground beef more often than Sprague-Dawley rats did. In contrast, Zucker rats ate ham more often than hybrid rats did, and hybrid rats in turn ate ham more often than Sprague-Dawley rats did. Rats produced by the two reciprocal crosses were similar to each other in food selection, ruling out maternal environment effects as the explanation for differences between Zucker and Sprague-Dawley rats. Hybrid rats selected for rejecting ham produced offspring that ate ham less often than did offspring of rats that accepted ham. Females ate semisweet chocolate more often than males did. We conclude that, contrary to the widely accepted view, heredity significantly influences specific food choices in an omnivorous species.

Effect of anxiolytics and antidepressants on extinction and negative contrast

Anxiolytics, particularly the benzodiazepines and barbiturates tend to retard, but not prevent, extinction, promote recovery from negative contrast, and elevate S- responding in discrimination training. Anxiolytics, administered during acquisition, tend to eliminate the partial reinforcement extinction effect, but this result is substantially influenced by parametric considerations. Behaviors that are energized in extinction may have a different pharmacological profile than behaviors that decline. Conclusions regarding the effects of antidepressants must be more tentative but, in general, acutely administered antidepressants are relatively ineffective in all of these paradigms. However, antidepressants may enhance the efficiency of responding on DRL schedules whereas anxiolytics tend to disrupt such behavior.