D.M. Sloboda scite author profile

Birth in most animal species is triggered by the fetus through activation of the fetal hypothalamic-pituitary-adrenal (HPA) axis. Preterm birth, may be associated with precocious activation of fetal HPA function, reflecting the fetal response to an adverse intrauterine environment. There is a progressive and concurrent increase of ACTH1-39 and cortisol (F) in the circulation of fetal sheep during the last 15-20 days of pregnancy (term, day 145-150) associated with increased expression of hypothalamic CRH pituitary POMC and adrenal ACTH receptor and steroidogenic enzymes, particularly P450 C17. Similar changes occur with fetal hypoxemia. Negative feedback is ameliorated by decreased pituitary and hypothalamic glucocorticoid receptor, increased CBG, and altered fetal pituitary 11B-hydroxysteroid dehydrogenase type 1. Repeated fetal hypoxemia, diminishes the fetal-pituitary ACTH response, but increases fetal adrenal responsiveness. Fetuses exposed to maternal glucocorticoid in late gestation are growth restricted with altered postnatal HPA responsiveness and glycemic responses that reproduce the insulin resistance of type 2 diabetes. We conclude that the level of fetal HPA activity is crucial not only for determining gestation length, but also predicts pathophysiologic adjustment in later life.

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Apoptosis‐Related Protein Expression During Pre‐ and Post‐Natal Testicular Development After Administration of Glucocorticoid in utero in the Sheep

Pedrana

Viotti

Souza

et al. 2013

Reprod Domestic Animals

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Pre-natal glucocorticoids are used in women at risk of preterm delivery to induce foetal lung maturation. However, glucocorticoids can produce negative outcomes for other tissues such as the reproductive system. We therefore tested the effects of pre-natal betamethasone on testicular morphology and apoptotic protein immune expression during pre- and post-natal development. Pregnant ewes (n = 42) bearing singleton male foetuses were randomly allocated to receive intramuscular injections of saline or betamethasone (0. 5 mg/kg) at 104, 111 and 118 days of gestation (DG). Testes were collected at 121 and 132 DG, and at 45 and 90 post-natal days (PD) and subjected to morphometric analysis (volume densities of sex cords and interstitial tissues; sex cord diameter). Immunohistochemistry (% stained area) was used to assess active caspase-3, Bax, Bcl-2 and cell-cycle proteins (PCNA). Compared with control values, betamethasone treatment decreased sex cord diameter at 121 DG, 45 and 90 PD, and sex cord volume at 90 PD. Active caspase-3 was decreased by betamethasone at 121 DG and 90 PD, but Bax was increased in all betamethasone groups. Bcl-2 and PCNA decreased in the betamethasone groups at 121 DG and 45 PD, but increased at 132 DG and 90 PD. We conclude that high levels of pre-natally administered glucocorticoid reduce foetal testicular development, perhaps via changes in the balance between pro- and anti-apoptotic proteins and cell-cycle proteins. These outcomes could compromise the future spermatogenic potential of male offspring.

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4A-6 Early-onset puberty in offspring after maternal undernutrition is exaggerated by a post-weaning high fat diet: sex specific evidence of nutritional mismatch

Sloboda¹,

Howie²,

Vickers³

2007

Early Human Development

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The Role of the Placenta in Fetal Programming

Challis

Sloboda

et al. 2014

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The placenta occupies a critical place in fetal programming by modulating fetal responses to alterations in the maternal environment, by regulating transfer of nutrients between mother and fetus and by responding to changes in environmental stimuli that affect maternal and/or fetal physiology. Placental size and function are exquisitely sensitive to alterations in maternal nutrition, oxygen tension and exposure to glucocorticoids. These factors affect the activity of proteins such as

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2B-6 Maternal high fat nutrition either pre-conceptionally and/or throughout pregnancy and lactation leads to early-onset puberty in offspring and is further exacerbated by a post-weaning high fat diet

Sloboda¹,

Howie²,

Vickers³

2007

Early Human Development

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D.M. Sloboda

Fetal Hypothalamic-Pituitary Adrenal (HPA) Development and Activation as a Determinant of the Timing of Birth, and of Postnatal Disease

Apoptosis‐Related Protein Expression During Pre‐ and Post‐Natal Testicular Development After Administration of Glucocorticoid in utero in the Sheep

4A-6 Early-onset puberty in offspring after maternal undernutrition is exaggerated by a post-weaning high fat diet: sex specific evidence of nutritional mismatch

The Role of the Placenta in Fetal Programming

2B-6 Maternal high fat nutrition either pre-conceptionally and/or throughout pregnancy and lactation leads to early-onset puberty in offspring and is further exacerbated by a post-weaning high fat diet

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