Courtney Glavis-Bloom scite author profile

Many anxiety disorders, as well as major depressive disorder (MDD), are at least twice as prevalent in women as in men, but the neurobiological basis of this discrepancy has not been well studied. MDD is often precipitated by exposure to uncontrollable stress, and is frequently characterized by abnormal or disrupted prefrontal cortex (PFC) function. In animals, exposure to stress has been shown to cause PFC dysfunction, but sex differences in this effect have not been investigated. The present study tested male and female rats on a PFC-dependent working memory task after administration of FG7142, a benzodiazepine inverse agonist that activates stress systems in the brain. Female rats were impaired by lower doses than males during proestrus (high estrogen), but not during estrus (low estrogen). Similarly, ovariectomized females showed increased stress sensitivity only after estrogen replacement. These results suggest that estrogen amplifies the stress response in PFC, which may increase susceptibility to stress-related disorders.

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Peripheral complement interactions with amyloid β peptide: Erythrocyte clearance mechanisms

Brubaker

Crane

Johansson

et al. 2017

Alzheimer's & Dementia

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INTRODUCTION Although Aβ is cleared from brain to CSF and the peripheral circulation, mechanisms for its removal from blood remain unresolved. Primates have uniquely evolved a highly effective peripheral clearance mechanism for pathogens, immune adherence, in which erythrocyte complement receptor 1 (CR1) plays a major role. METHODS Multidisciplinary methods were employed to demonstrate immune adherence capture of Aβ by erythrocytes and its deficiency in Alzheimer’s disease (AD). RESULTS Aβ was shown to be subject to immune adherence at every step in the pathway. Aβ dose-dependently activated serum complement. Complement-opsonized Aβ was captured by erythrocytes via CR1. Erythrocytes, Aβ, and hepatic Kupffer cells co-localized in human liver. Significant deficits in erythrocyte Aβ were found in AD and MCI patients. DISCUSSION CR1 polymorphisms elevate AD risk and >80% of human CR1 is vested in erythrocytes to subserve immune adherence. The present results suggest that this pathway is pathophysiologically relevant in AD.

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Neonatal hippocampal damage impairs specific food/place associations in adult macaques.

Glavis-Bloom

Alvarado²,

Bachevalier³

2013

Behavioral Neuroscience

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This study describes a novel spatial memory paradigm for monkeys and reports the effects of neonatal damage to the hippocampus on performance in adulthood. Monkeys were trained to forage in eight boxes hung on the walls of a large enclosure. Each box contained a different food item that varied in its intrinsic reward value, as determined from food preference testing. Monkeys were trained on a spatial and a cued version of the task. In the spatial task, the boxes looked identical and remained fixed in location whereas in the cued task, the boxes were individuated with colored plaques and changed location on each trial. Ten adult Rhesus macaques (5 neonatal sham-operated and 5 with neonatal neurotoxic hippocampal lesions) were allowed to forage once daily until they preferentially visited boxes containing preferred foods. The data suggest that all monkeys learned to discriminate preferred from nonpreferred food locations, but that monkeys with neonatal hippocampal damage committed significantly more working memory errors than controls in both tasks. Furthermore, following selective satiation, controls altered their foraging pattern to avoid the satiated food, whereas lesioned animals did not, suggesting that neonatal hippocampal lesions prohibit learning of specific food-place associations. We conclude that whereas an intact hippocampus is necessary to form specific item-in-place associations, in its absence, cortical areas may support more broad distinctions between food types that allow monkeys to discriminate places containing highly preferred foods.

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Peripheral complement interactions with amyloid β peptide in Alzheimer's disease: 2. Relationship to amyloid β immunotherapy

Crane

Brubaker

Johansson

et al. 2017

Alzheimer's & Dementia

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Acute Ethanol Reduces Reversal Cost in Discrimination Learning by Reducing Perseverance in Adolescent Rhesus Macaques

Wright

Glavis-Bloom

Taffe

2013

Alcoholism Clin & Exp Res

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Background Acute alcohol exposure produces cognitive deficits in adults but less is known about the acute cognitive effects of alcohol in adolescents. The cognitive impact of acute alcohol exposure includes deficits in discrimination and reversal learning, but traditional experimental approaches make it difficult to distinguish the effect of alcohol on discrimination learning from the effect of alcohol on reversal learning. Young rhesus macaques can be used to model some aspects of human adolescence because of their anatomical, neurophysiological and cognitive similarities with humans. Methods Adolescent male rhesus monkeys (N=10) were trained to respond to visual stimuli on touch-sensitive LCD panels controlled by the nonhuman primate version of CANTAB software. Discrimination and reversal learning tasks were subsequently assessed after monkeys were allowed to consume varying amounts of ethanol in a flavored vehicle (vehicle only, up to 0.5 g/kg ethanol, up to 1.0 g/kg ethanol and up to 1.5 g/kg ethanol). Results Acute exposure to ethanol reduced perseverance, increased response accuracy, and reduced errors during reversal learning when the task was completed within 90 minutes of ethanol consumption. No reduction in reversal errors was observed when ethanol was consumed 3 or 24 hrs prior to reversal learning. Ethanol only impaired discrimination learning when monkeys had very little previous ethanol exposure. Conclusions The temporal relationship between ethanol consumption and reversal learning was consistent with selective ethanol-induced impairment of retrieval, but not storage, processes. This was evidenced by diminished perseverance on the previously correct stimulus leading to decreased errors to criterion.

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