Enhanced Glucocorticoid Feedback Inhibition of Hypothalamo-Pituitary-Adrenal Responses to Stress in Adult Rats Neonatally Treated with Dexamethasone

Kamphuis, Patrick; Bakker, Joost M.; Broekhoven, Mark H.; Kunne, Cindy; Croiset, Gerda; Lentjes, Eef G.W.M.; Tilders, F. J. H.; Bel, Frank van; Wiegant, V.M.

doi:10.1159/000064526

Cited by 53 publications

(52 citation statements)

References 41 publications

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“…with Dex (Dexamethasone Sodium Phosphate; BUFA, Uitgeest, The Netherlands) on d 1 (0.5 mg/kg body weight), d 2 (0.3 mg/kg body weight), and d 3 (0.1 mg/kg body weight) after birth. This treatment was based on a 21-d tapering treatment given to preterm infants to prevent or reduce CLD (19). Rat pups treated with equal volumes (10 L/g body weight) of sterile pyrogen-free saline (Sal) at d 1, 2, and 3 served as control group.…”

Section: Animalsmentioning

confidence: 99%

Neonatal Dexamethasone Treatment in the Rat Leads to Kidney Damage in Adulthood

et al. 2010

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ABSTRACT:Recently, concern has been raised that corticosteroid treatment of preterm neonates might be associated with adverse effects later in life, including early development of hypertension. Here, we investigate the impact of neonatal dexamethasone (Dex) treatment on early renal cell proliferation and nephron number. We analyzed mitotic activity in renal cortex of rat pups neonatally treated with Dex. Nephron number was measured and possible renal damage was quantified by counting inflammatory foci, ED-1 positive cells (macrophages), and the desmin score (activated podocytes). Mitotic activity was 34 and 29% lower on d 2 and 4 in Dex-treated rats compared with saline-treated controls. The number of glomeruli was lower at 4 wk, but nephron size was unchanged after Dex treatment, as calculated from glomerular density and (lower) body-and kidney weight. At wk 50, the glomerular number was significantly lower in Dex-treated rats, whereas body and kidney weight were the same as in Sal controls. Dex rats also showed more kidney damage, manifested by a ϳ3.5-fold increase in inflammation foci/mm 2 and in ED-1 positive cells/mm 2 and a ϳ4.3-fold increased desmin score. Temporary suppression of mitotic activity during neonatal Dex treatment leads to reduction of nephron number and more kidney damage later in life. (Pediatr Res 67: 72-76, 2010)

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Section: Animalsmentioning

confidence: 99%

Neonatal Dexamethasone Treatment in the Rat Leads to Kidney Damage in Adulthood

et al. 2010

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“…In 2000, two papers were published that cautioned the use of Dex during the neonatal period in humans (10,11). Since then, more adverse effects of neonatal GC have been shown in rodents on the immune (12) and neuroendocrine systems (13), on the NMDA receptor (14) and in human follow-up studies of prematurely born children treated with Dex during the neonatal period (15,16).…”

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Reduced Life Expectancy in Rats After Neonatal Dexamethasone Treatment

et al. 2007

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ABSTRACT:The glucocorticoid dexamethasone (Dex) is widely used in preterm infants for the prevention of chronic lung disease. However, major concern has arisen about the long-term sequelae of this therapy. Here we report that neonatal treatment with dexamethasone significantly shortens the lifespan by 25% of male rats (28.6 Ϯ 1.1 to 21.3 Ϯ 0.8 mo) and by 18% of female rats (26.9 Ϯ 1.8 to 22.0 Ϯ 0.7 mo). Histopathological examination indicated end-stage cardiac and renal failure as the cause of premature death. Furthermore, Dextreated rats showed symptoms of hypertension at young adult age, which worsened with increasing age. Thus, a brief period of glucocorticoid treatment during early life results in untimely death presumably due to cardiovascular and renal disease later in life. These serious, adverse long-term consequences call for prudence with glucocorticoid treatment of human preterm infants and careful follow-up of young adults with a history of neonatal glucocorticoid treatment. (Pediatr Res 61: 72-76, 2007)

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“…While there is evidence that perinatal exposure to high dose glucocorticoids may permanently re-programme HPA axis function (18)(19)(20), the induction of prolonged or permanent changes in HPA axis function by glucocorticoid exposure in adulthood is more open to speculation. Most studies have used normalization of individual secretory components of the HPA axis following exogenous stimulation to signal complete recovery after glucocorticoid withdrawal and have not considered the underlying role of the mitotic and apoptotic elements of the response.…”

Section: Discussionmentioning

confidence: 99%

Enhanced anterior pituitary mitotic response to adrenalectomy after multiple glucocorticoid exposures

Nolan

Thomas²,

Levy³

2003

European Journal of Endocrinology

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Objectives: Glucocorticoid withdrawal in man is associated with transient but sometimes prolonged impairment of hypothalamo -pituitary -adrenal axis secretory responsiveness. This has led to continued concern in the clinical arena. The acute anterior pituitary response to glucocorticoids in the rat includes apoptosis-mediated deletion of a cell population. Whilst continued cell turnover following glucocorticoid withdrawal and the potential for differentiation of uncommitted precursor cells and transdifferentiation of other secretory cell types predicts that, given sufficient time, complete anterior pituitary trophic recovery is likely, this hypothesis has not previously been tested. Design and methods: We have quantified pituitary mitotic and apoptotic rate, as well as corticotroph number and pro-opiomelanocortin transcript prevalence, together with hypothalamic corticotrophin-releasing hormone and vasopressin transcript prevalence 5 weeks after three short dexamethasone treatments each separated by a week. Bilateral adrenalectomy was then carried out as a maximal secretory and trophic stimulus, and the response to a fourth dexamethasone treatment assessed 1 week later. Results: Anterior pituitary mitotic index was significantly higher in rats previously exposed to dexamethasone compared with age-matched controls exposed to dexamethasone for the first time. No differences were found in the subsequent apoptotic response to a fourth dexamethasone treatment or in the levels of paraventricular corticotrophin-releasing hormone or vasopressin transcripts or pituitary pro-opiomelanocortin transcripts. Conclusions: These data indicate that full recovery of pituitary mitotic activity takes longer than the recovery of secretory parameters, and suggest that, for several weeks after glucocorticoid exposure, the ability of the pituitary to meet fresh demands placed on it may be suboptimal.

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Enhanced Glucocorticoid Feedback Inhibition of Hypothalamo-Pituitary-Adrenal Responses to Stress in Adult Rats Neonatally Treated with Dexamethasone

Cited by 53 publications

References 41 publications

Neonatal Dexamethasone Treatment in the Rat Leads to Kidney Damage in Adulthood

Neonatal Dexamethasone Treatment in the Rat Leads to Kidney Damage in Adulthood

Reduced Life Expectancy in Rats After Neonatal Dexamethasone Treatment

Enhanced anterior pituitary mitotic response to adrenalectomy after multiple glucocorticoid exposures

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