M.J. Meaney scite author profile

There is a tendency for increased hypothalamic-pituitary-adrenal (HPA) activity with age in the rat, and the resulting elevations in circulating glucocorticoid levels have been implicated in the occurrence of hippocampal pathology and memory deficits. In the experiments reported here, we examined whether HPA dysfunction is selectively associated with cognitive impairments in a population of aged rats. Fifty-eight 23-27-month-old male Long-Evans rats were screened for spatial memory impairments using the Morris swim maze, and 2 groups of aged animals were selected; aged, cognitively impaired (AI) animals whose performance was significantly different (greater than 2 SD) from that of 6-month-old controls and aged, cognitively unimpaired (AU) animals whose performance was comparable to that of the young controls (a difference of less than 0.5 SD). Twenty-eight percent of the animals tested were designated as AI and 20% as AU. Histological analysis of a subset of these animals showed that, while both AU and AI animals showed neuron loss in the pyramidal cell fields of the hippocampus, the loss was significantly greater in the AI animals. The AI animals showed clear evidence of increased HPA activity. Thus, basal ACTH and corticosterone levels were significantly higher in the AI animals compared with both AU animals and young controls, especially during the dark phase of the cycle. The AI, AU, and young animals exhibited comparable corticosterone levels during a 20-min immobilization stress; however, following the termination of the stressor, corticosterone levels in AI animals were significantly elevated compared with both AU animals and controls.(ABSTRACT TRUNCATED AT 250 WORDS)

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Increased Cortisol Levels and Impaired Cognition in Human Aging: Implication for Depression and Dementia in Later Life

Lupien¹,

Nair²,

Brière³

et al. 1999

249

128

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SYNOPSISPerhaps the most prominent feature of human aging is the variability in decline of intellectual processes. Although many research avenues have been used to study the origin of such an increased variability with aging, new studies show that some biological factors may be associated with normal and pathological cognitive aging. One biological parameter that came under scrutiny in the past few years is the hypothalamic-pituitary-adrenal (ΗΡΑ) axis, an endocrine closed-loop system controlling the secretion of stress hormones (glucocorticoids). In this review, we summarize data obtained in both animals and humans suggesting that cumulative exposure to high levels of glucocorticoids can be particularly detrimental for the aged hippocampus, a brain structure involved in learning and memory in both animals and humans. We then analyze the implication of these data for the study of dementia and depression in later life, two disorders characterized by increased glucocorticoid secretion in a significant proportion of patients. Finally, we suggest various factors that could explain the development of glucocorticoid hypersecretion in later life.

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Facilitation of acetylcholine release and cognitive performance by an M(2)-muscarinic receptor antagonist in aged memory-impaired

et al. 1995

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Aged memory-impaired (AI) and unimpaired (AU) 24–25-month-old Long- Evans rats were used to investigate the integrity of various cholinergic markers during normal aging and to establish if alterations can possibly relate to cognitive disabilities. AI and AU rats were classified on the basis of their performance in the Morris swim maze task. Choline acetyltransferase activity (ChAT) was not differentially altered in various cortical and hippocampal areas between these two groups. Similarly, quantitative receptor autoradiography did not reveal significant differences in 3H-pirenzepine/muscarinic M1 and 3H- hemicholinium-3/high-affinity choline uptake binding sites in AI versus AU rats. In contrast, 3H-AF-DX 384/putative muscarinic M2 binding was significantly increased in certain cortical and hippocampal areas of the age-impaired animals. These increments were correlated with decreased in vivo acetylcholine (ACh) release capacity in the AI rats. Most interestingly, the muscarinic M2 antagonist BIBN-99 reversed, in a dose-dependent manner, the impaired ACh release as well as the cognitive deficits observed in the AI group. Similarly, BIBN-99 reversed scopolamine-induced amnesia in young animals. The efficacy of BIBN-99 likely relates to its antagonistic properties on negative muscarinic M2 autoreceptors that are apparently increased in the AI animals, leading to altered ACh release. Taken together, these findings strengthen the role of ACh in learning and memory and may have implications for the treatment of degenerative disorders associated with impaired cholinergic functions, such as Alzheimer's disease.

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M.J. Meaney

Hypothalamic-pituitary-adrenal activity in aged, cognitively impaired and cognitively unimpaired rats

Increased Cortisol Levels and Impaired Cognition in Human Aging: Implication for Depression and Dementia in Later Life

Facilitation of acetylcholine release and cognitive performance by an M(2)-muscarinic receptor antagonist in aged memory-impaired

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