Claudia C. Pinizzotto scite author profile

The current study further examined the effect of the muscarinic acetylcholine antagonist, scopolamine, on the Context Preexposure Facilitation Effect (CPFE; Robinson-Drummer, Dokovna, Heroux, & Stanton, 2016). In the CPFE, context representations formed during the preexposure phase are retrieved and associated with immediate shock during the training phase and expressed as freezing during a 24-hr retention phase. Scopolamine abolished postshock and retention freezing when administered systemically prior to preexposure (Experiment 1A) or immediate-shock training (Experiment 1B). Pretraining infusion of scopolamine into dorsal hippocampus (dHPC) disrupted both postshock and retention freezing (Experiments 2A) and retention freezing when the postshock freezing test was omitted (Experiment 2B) but did not alter expression of freezing behavior to an auditory fear stimulus (Experiment 2C). Finally, pretraining scopolamine infusion into ventral hippocampus (vHPC) also abolished postshock and retention test freezing (Experiment 3). These findings suggest similar roles for muscarinic receptor activity in both the dHPC and vHPC in the CPFE. This study advances understanding of the neurobiology of the CPFE by showing that context-shock associations are not learned following disruption of the cholinergic and/or hippocampal function on either the preexposure or training day. Existing theories of the CPFE (Rudy, 2009) have inferred this effect based on impaired 24-hr retention observed in previous studies (Matus-Amat, Higgins, Barrientos, & Rudy, 2004; Robinson-Drummer et al., 2016). However, the present study is the first to demonstrate it directly by including a postshock freezing measure. Further, this study is the first to identify vHPC as another important region necessary for context-shock learning during the CPFE paradigm.

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Medial prefrontal and ventral hippocampal contributions to incidental context learning and memory in adolescent rats

Heroux

Horgan

Pinizzotto

et al. 2019

Neurobiology of Learning and Memory

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Spontaneous Object Exploration in a Recessive Gene Knockout Model of Parkinson’s Disease: Development and Progression of Object Recognition Memory Deficits in Male Pink1–/– Rats

Pinizzotto

Dreyer

Aje

et al. 2022

Front. Behav. Neurosci.

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Cognitive impairments appear at or before motor signs in about one third of patients with Parkinson’s disease (PD) and have a cumulative prevalence of roughly 80% overall. These deficits exact an unrelenting toll on patients’ quality and activities of daily life due in part to a lack of available treatments to ameliorate them. This study used three well-validated novel object recognition-based paradigms to explore the suitability of rats with knockout of the PTEN-induced putative kinase1 gene (Pink1) for investigating factors that induce cognitive decline in PD and for testing new ways to mitigate them. Longitudinal testing of rats from 3–9 months of age revealed significant impairments in male Pink1–/– rats compared to wild type controls in Novel Object Recognition, Novel Object Location and Object-in-Place tasks. Task-specific differences in the progression of object discrimination/memory deficits across age were also seen. Finally, testing using an elevated plus maze, a tapered balance beam and a grip strength gauge showed that in all cases recognition memory deficits preceded potentially confounding impacts of gene knockout on affect or motor function. Taken together, these findings suggest that knockout of the Pink1 gene negatively impacts the brain circuits and/or neurochemical systems that support performance in object recognition tasks. Further investigations using Pink1–/– rats and object recognition memory tasks should provide new insights into the neural underpinnings of the visual recognition memory and visuospatial information processing deficits that are often seen in PD patients and accelerate the pace of discovery of better ways to treat them.

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Task-specific effects of biological sex and sex hormones on object recognition memories in a 6-hydroxydopamine-lesion model of Parkinson's disease in adult male and female rats

Pinizzotto

Patwardhan

Aldarondo

et al. 2022

Hormones and Behavior

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Task-specific effects of biological sex and sex hormones on object recognition memories in a 6-hydroxydopamine-lesion model of Parkinson’s disease in adult male and female rats

Pinizzotto

Patwardhan

Aldarondo

et al. 2022

Preprint

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Many patients with Parkinson's disease (PD) experience impairments in cognition and memory with few therapeutic options currently available to mitigate them. This has fueled interest in determining how factors including biological sex and sex hormones might modulate higher order function in PD. Previous studies have investigated this in female rats and in gonadally intact and gonadectomized males, with and without hormone replacement, that received bilateral neostriatal 6-hydroxydopamine (6-OHDA) lesions to model PD. Barnes maze and What Where When Episodic-like memory testing showed that 6-OHDA lesions disrupted spatial working and episodic memory functions in both sexes, and that in males, androgen-sensitive behaviors could be rescued in subjects where circulating androgen levels were diminished. Here we tested similar animal groups using the Novel Object Preference (NOP) and Object-in-Place (OiP) tasks. This revealed two entirely different patterns of sex and sex hormone influence. First, for both tasks, 6-ODHA lesions impaired object discrimination in males but not females. Further, for the NOP task, 6-OHDA lesions disrupted discrimination in males rats independently of hormone status. And finally, 6-OHDA lesions impaired OiP performance in males regardless of whether androgen levels were high or low but had no effect on discrimination in gonadectomized rats given 17β-estradiol. Together with previous findings, these data identify the impacts of sex and sex hormones on cognition and memory in PD as behavioral task/behavioral domain specific. This specificity could explain why a cohesive clinical picture of endocrine impacts on higher order function in PD has remained elusive.

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