Characterization of Amphetamine, Methylphenidate, Nicotine, and Atomoxetine on Measures of Attention, Impulsive Action, and Motivation in the Rat: Implications for Translational Research.

Amphetamine (AMP), methylphenidate (MPH), and atomoxetine (ATX) are approved treatments for ADHD, and together with nicotine (NIC), represent pharmacological agents widely studied on cognitive domains including attention and impulsive action in humans. These agents thus represent opportunities for clinical observation to be reinvestigated in the preclinical setting, i.e., reverse translation. The present study investigated each drug in male, Long Evans rats trained to perform either (1) the five-choice serial reaction time task (5-CSRTT), (2) Go/NoGo task, or (3) a progressive ratio (PR) task, for the purpose of studying each drug on attention, impulsive action and motivation. Specific challenges were adopted in the 5-CSRTT designed to tax attention and impulsivity, i.e., high frequency of stimulus presentation (sITI), variable reduction in stimulus duration (sSD), and extended delay to stimulus presentation (10-s ITI). Initially, performance of a large (> 80) cohort of rats in each task variant was conducted to examine performance stability over repeated challenge sessions, and to identify subgroups of "high" and "low" attentive rats (sITI and sSD schedules), and "high" and "low" impulsives (10-s ITI). Using an adaptive sequential study design, the effects of AMP, MPH, ATX, and NIC were examined and contrasting profiles noted across the tests. Both AMP (0.03-0.3 mg/kg) and MPH (1-6 mg/kg) improved attentional performance in the sITI but not sSD or 10-s ITI condition, NIC (0.05-0.2 mg/kg) improved accuracy across all conditions. ATX (0.1-1 mg/kg) detrimentally affected performance in the sITI and sSD condition, notably in "high" performers. In tests of impulsive action, ATX reduced premature responses notably in the 10-s ITI condition, and also reduced false alarms in Go/NoGo. Both AMP and NIC increased premature responses in all task variants, although AMP reduced false alarms highlighting differences between these two measures of impulsive action. The effect of MPH was mixed and appeared baseline dependent. ATX reduced break point for food reinforcement suggesting a detrimental effect on motivation for primary reward. Taken together these studies highlight differences between AMP, MPH, and ATX which may translate to their clinical profiles. NIC had the most reliable effect on attentional accuracy, whereas ATX was reliably effective against all tests of impulsive action.

Selective inhibition of phosphodiesterases 4, 5 and 9 induces HSP20 phosphorylation and attenuates amyloid beta 1-42-mediated cytotoxicity.

Phosphodiesterase (PDE) inhibitors are currently under evaluation as agents that may facilitate the improvement of cognitive impairment associated with Alzheimer's disease. Our aim was to determine whether inhibitors of PDEs 4, 5 and 9 could alleviate the cytotoxic effects of amyloid beta 1-42 (Aß1-42) via a mechanism involving the small heatshock protein HSP20. We show that inhibition of PDEs 4, 5 and 9 but not 3 induces the phosphorylation of HSP20 which, in turn, increases the colocalisation between the chaperone and Aß1-42 to significantly decrease the toxic effect of the peptide. We conclude that inhibition of PDE9 is most effective to combat Aß1-42 cytotoxicity in our cell model.

PCP-induced deficits in murine nest building activity: employment of an ethological rodent behavior to mimic negative-like symptoms of schizophrenia.

Schizophrenia is a severe psychiatric disorder characterized by three symptom domains, positive (hallucinations, obsession), negative (social withdrawal, apathy, self-neglect) and cognitive (impairment in attention, memory and executive function). Whereas current medication ameliorates positive symptomatology, negative symptoms as well as cognitive dysfunctions remain untreated. The development of improved therapies for negative symptoms has proven particularly difficult, in part due to the inability of mimicking these in rodents. Here, we address the predictive validity of combining an ethologically well preserved behavior in rodents, namely nest building activity, with an established animal model of schizophrenia, the sub-chronic PCP model, for negative symptoms. Decline in rodent nesting activity has been suggested to mirror domains of negative symptoms of schizophrenia, including social withdrawal, anhedonia and self-neglect, whereas repeated treatment with the NMDAR antagonist PCP induces and exacerbates schizophrenia-like symptoms in rodents and human subjects. Using a back-translational approach of pharmacological validation, we tested the effects of two agents targeting the nicotinic α7 receptor (EVP-6124 and TC-5619) that were reported to exert some beneficial effect on negative symptoms in schizophrenic patients. Sub-chronic PCP treatment resulted in a significant nest building deficit in mice and treatment with EVP-6124 and TC-5619 reversed this PCP-induced deficit. In contrast, the atypical antipsychotic drug risperidone remained ineffective in this assay. In addition, EVP-6124, TC-5619 and risperidone were tested in the Social Interaction Test (SIT), an assay suggested to address negative-like symptoms. Results obtained in SIT were comparable to results in the nest building test (NEST). Based on these findings, we propose nest building in combination with the sub-chronic PCP model as a novel approach to assess negative-like symptoms of schizophrenia in rodents.

Exercise alters the immune profile in Tg2576 Alzheimer mice toward a response coincident with improved cognitive performance and decreased amyloid.

BACKGROUND: Inflammation is associated with Abeta pathology in Alzheimer's disease (AD) and transgenic AD models. Previously, it has been demonstrated that chronic stimulation of the immune response induces pro-inflammatory cytokines IL-1beta and TNF-alpha which contribute to neurodegeneration. However, recent evidence has shown that inducing the adaptive immune response reduces Abeta pathology and is neuroprotective. Low concentrations of IFN-gamma modulate the adaptive immune response by directing microglia to differentiate to antigen presenting cells. Our objective was to determine if exercise could induce a shift from the immune profile in aged (17-19 months) Tg2576 mice to a response that reduces Abeta pathology. METHODS: TG (n = 29) and WT (n = 27) mice were divided into sedentary (SED) and exercised (RUN) groups. RUN animals were provided an in-cage running wheel for 3 weeks. Tissue was harvested and hippocampus and cortex dissected out. Quantitative data was analyzed using 2 x 2 ANOVA and student's t-tests. RESULTS: IL-1beta and TNF-alpha were significantly greater in hippocampi from sedentary Tg2576 (TGSED) mice than in wildtype (WTSED) (p = 0.04, p = 0.006). Immune response proteins IFN-gamma and MIP-1alpha are lower in TGSED mice than in WTSED (p = 0.03, p = 0.07). Following three weeks of voluntary wheel running, IL-1beta and TNF-alpha decreased to levels indistinguishable from WT. Concurrently, IFN-gamma and MIP-1alpha increased in TGRUN. Increased CD40 and MHCII, markers of antigen presentation, were observed in TGRUN animals compared to TGSED, as well as CD11c staining in and around plaques and vasculature. Additional vascular reactivity observed in TGRUN is consistent with an alternative activation immune pathway, involving perivascular macrophages. Significant decreases in soluble Abeta40 (p = 0.01) and soluble fibrillar Abeta (p = 0.01) were observed in the exercised transgenic animals. CONCLUSION: Exercise shifts the immune response from innate to an adaptive or alternative response. This shift in immune response coincides with a decrease in Abeta in advanced pathological states.

Three weeks of running wheel exposure improves cognitive performance in the aged Tg2576 mouse.

If begun early in life, exercise effectively reduces the development of cognitive deficits in transgenic mouse models of Alzheimer's disease (AD). However, the effectiveness of exercise, once the cognitive impairments are established, is not as clear. In terms of translating research in animal models to treatments involving exercise in Alzheimer's disease patients, it is critical to evaluate exercise intervention at time points that address not only prevention, but also treatment of cognitive decline. We provided exercise wheels to Tg2576 (TG) (n=12) and C57BL6 (WT) (n=17) mice at 16-18 months of age for three weeks. At this age animals have significant cognitive impairment and neuropathology consistent with AD. Age matched sedentary TG (n=13) and WT (n=12) mice were also included, as well as groups provided access to an immobile wheel (TG n=9, WT n=12). After three weeks, animals were evaluated in a radial arm water maze. Significant impairments were observed in the sedentary TG mice compared to WT in reference/long-term and working/short-term memory, as well as in probe trials. Exercised TG mice demonstrated improvements in memory, which made them indistinguishable from WT mice on all tasks. In addition, animals provided with an immobile wheel exhibited improvement in some, but not all cognitive measures. Our findings demonstrate that exercise can improve cognitive performance in a mouse model of AD even if applied after the development of pathology.