Paula Brunton scite author profile

A successful pregnancy requires multiple adaptations of the mother's physiology to optimize fetal growth and development, to protect the fetus from adverse programming, to provide impetus for timely parturition and to ensure that adequate maternal care is provided after parturition. Many of these adaptations are organized by the mother's brain, predominantly through changes in neuroendocrine systems, and these changes are primarily driven by the hormones of pregnancy. By contrast, adaptations in the mother's brain during lactation are maintained by external stimuli from the young. The changes in pregnancy are not necessarily innocuous: they may predispose the mother to post-partum mood disorders.

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Prenatal Social Stress in the Rat Programmes Neuroendocrine and Behavioural Responses to Stress in the Adult Offspring: Sex‐Specific Effects

Brunton

Russell

2010

J Neuroendocrinology

236

246

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Stress exposure during pregnancy can 'programme' adult behaviour and hypothalamic-pituitary-adrenal (HPA) axis stress responsiveness. In the present study, we utilised an ethologically relevant social stressor to model the type of stress that pregnant women may experience. We investigated the effects of social defeat by a resident lactating rat over 5 days during the last week of pregnancy on the pregnant intruder rat HPA axis, and on HPA responsivity to stress and anxiety-related behaviour in the adult offspring of the socially-defeated intruder rats. HPA axis responses after social defeat were attenuated in the pregnant rats compared to virgin females. In the adult offspring, systemic interleukin (IL)-1beta or restraint increased adrenocorticotrophic hormone and corticosterone secretion in male and female control rats; however, in prenatally stressed (PNS) offspring, HPA responses were greatly enhanced and peak hormone responses to IL-1beta were greater in females versus males. Male PNS rats displayed increased anxiety behaviour on the elevated plus maze; however, despite marked changes in anxiety behaviour across the oestrous cycle, there were no differences between female control and PNS rats. Investigation of possible mechanisms showed mineralocorticoid mRNA levels were reduced in the hippocampus of male and female PNS offspring, whereas glucocorticoid receptor mRNA expression was modestly reduced in the CA2 hippocampal subfield in female PNS rats only. Corticotropin-releasing hormone mRNA and glucocorticoid receptor mRNA expression in the central amygdala was greater in PNS males and females compared to controls. The data obtained in the present study indicate that prenatal social stress differentially programmes anxiety behaviour and HPA axis responses to stress in male and female offspring. Attenuated glucocorticoid feedback mechanisms in the limbic system may underlie HPA axis hyper-reactivity to stress in PNS offspring.

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The Consequences of Early‐Life Adversity: Neurobiological, Behavioural and Epigenetic Adaptations

Maccari

Krugers

Morley‐Fletcher

et al. 2014

J Neuroendocrinology

313

223

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During the perinatal period, the brain is particularly sensitive to remodelling by environmental factors. Adverse early-life experiences, such as stress exposure or suboptimal maternal care, can have long-lasting detrimental consequences for an individual. This phenomenon is often referred to as 'early-life programming' and is associated with an increased risk of disease. Typically, rodents exposed to prenatal stress or postnatal maternal deprivation display enhanced neuroendocrine responses to stress, increased levels of anxiety and depressive-like behaviours, and cognitive impairments. Some of the phenotypes observed in these models of early-life adversity are likely to share common neurobiological mechanisms. For example, there is evidence for impaired glucocorticoid negative-feedback control of the hypothalamic-pituitary-adrenal axis, altered glutamate neurotransmission and reduced hippocampal neurogenesis in both prenatally stressed rats and rats that experienced deficient maternal care. The possible mechanisms through which maternal stress during pregnancy may be transmitted to the offspring are reviewed, with special consideration given to altered maternal behaviour postpartum. We also discuss what is known about the neurobiological and epigenetic mechanisms that underpin early-life programming of the neonatal brain in the first generation and subsequent generations, with a view to abrogating programming effects and potentially identifying new therapeutic targets for the treatment of stress-related disorders and cognitive impairment.

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Adaptive Responses of the Maternal Hypothalamic‐Pituitary‐Adrenal Axis during Pregnancy and Lactation

Brunton

Russell

Douglas

2008

J Neuroendocrinology

260

191

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Pregnancy and lactation have been shown over the last 40 years to be physiological states in which hypothalamic-pituitary-adrenal (HPA) axis responses to stressors are markedly attenuated (1, 2). These phenomena provide an unequalled opportunity to understand natural mechanisms that reduce stress responses, and the prospect of new therapies for stress-related disorders.The (HPA) axis comprises the corticotropin-releasing factor (CRF) neurones in the parvocellular paraventricular nucleus (pPVN), which also variably produce vasopressin and project to the external zone of the median eminence. These neurosecretory neurones release their peptides into the primary capillary plexus of the hypothalamic-hypophysial portal system to act respectively on the CRF1 and V1b receptors on the corticotrophs in the anterior pituitary gland (3, 4). The consequent stimulation of secretion of corticotropin [adrenocorticotrophic hormone (ACTH); a product of pro-opiomelanocortin (POMC)], leads to increased synthesis and secretion of glucocorticoid (cortisol in humans and other species; corticosterone in rodents) by the adrenal cortex. Glucocorticoids have powerful actions on metabolism and immune mechanisms (5, 6). The HPA axis is regulated by tonic glucocorticoid feedback (7) [involving mineralocorticoid receptors (MR) in the hippocampus, and glucocorticoid receptors (GR) in the brain and corticotrophs], by metabolic signals (8) (including from adipose tissue), and the circadian clock in the suprachiasmatic nuclei (9). Over the past 40 years, it has been recognised that the maternal hypothalamic-pituitary-adrenal (HPA) axis undergoes adaptations through pregnancy and lactation that might contribute to avoidance of adverse effects of stress on the mother and offspring. The extent of the global adaptations in the HPA axis has been revealed and the underlying mechanisms investigated within the last 20 years. Both basal, including the circadian rhythm, and stress-induced adrenocorticotrophic hormone and glucocorticoid secretory patterns are altered. Throughout most of pregnancy, and in lactation, these changes predominantly reflect reduced drive by the corticotropin-releasing factor (CRF) neurones in the parvocellular paraventricular nucleus (pPVN). An accompanying profound attenuation of HPA axis responses to a wide variety of psychological and physical stressors emerges after mid-pregnancy and persists until the end of lactation. Central to this suppression of stress responsiveness is reduced activation of the pPVN CRF neurones. This is consequent on the reduced effectiveness of the stimulation of brainstem afferents to these CRF neurones (for physical stressors) and of altered processing by limbic structures (for emotional stressors). The mechanism of reduced CRF neurone responses to physical stressors in pregnancy is the suppression of noradrenaline release in the PVN by an up-regulated endogenous opioid mechanism, which is induced by neuroactive steroid produced from progesterone. By contrast, in lactation suckling the young provides...

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Paula Brunton

The expectant brain: adapting for motherhood

Prenatal Social Stress in the Rat Programmes Neuroendocrine and Behavioural Responses to Stress in the Adult Offspring: Sex‐Specific Effects

The Consequences of Early‐Life Adversity: Neurobiological, Behavioural and Epigenetic Adaptations

Adaptive Responses of the Maternal Hypothalamic‐Pituitary‐Adrenal Axis during Pregnancy and Lactation

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