The Neurosteroids Progesterone and Allopregnanolone Reduce Cell Death, Gliosis, and Functional Deficits after Traumatic Brain Injury in Rats

Djebaili, Myriam; Guo, Qingmin; Pettus, Edward H.; Hoffman, Stuart W.; Stein, Donald G.

doi:10.1089/neu.2005.22.106

Cited by 351 publications

(270 citation statements)

References 37 publications

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“…In vitro studies in organotypic brain slice cultures have previously shown that pretreatment with allopregnanolone reduces astrogliosis following a hypoxic insult (Kruse et al 2009). Studies of traumatic brain injury in adult rats have also shown that both progesterone and allopregnanolone administration reduces the size of GFAP-positive astrocytes (Djebaili et al 2005). Despite the increase in GFAP expression when allopregnanolone synthesis was inhibited, qualitative analysis identified no overt areas of glial scarring or obvious signs of damage related to GFAP staining.…”

Section: Discussionmentioning

confidence: 99%

“…The suppression of allopregnanolone synthesis increases markers of cell proliferation, an effect that is ameliorated when the synthetic neurosteroid, alfaxalone, is used to replace the loss of the endogenous neurosteroid (Yawno et al 2009). In adult rat models of traumatic brain injury, allopregnanolone administration has also reduced the size of GFAP-positive astrocytes at the site of the experimental lesions (Djebaili et al 2005), and there is increasing evidence for the effectiveness of allopregnanolone in reducing lesion size and enhancing functional recovery in animal models of traumatic brain injury (Djebaili et al 2004, Schumacher et al 2007. In addition to the previously reported neuroprotective actions of allopregnanolone, this study provides evidence of delayed neurodevelopment in the presence of a low neurosteroid environment and suggests an important role of allopregnanolone in the regulation of developmental processes in the late gestation foetal brain.…”

Section: Discussionmentioning

confidence: 99%

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Sex-dependent effect of a low neurosteroid environment and intrauterine growth restriction on fetal guinea pig brain development.

Kelleher¹,

Palliser²,

Walker³

et al. 2010

Journal of Endocrinology

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Progesterone and its neuroactive metabolite, allopregnanolone, are present in high concentrations during pregnancy, but drop significantly following birth. Allopregnanolone influences foetal arousal and enhances cognitive and behavioural recovery following traumatic brain injury. Inhibition of allopregnanolone synthesis increases cell death in foetal animal brains with experimental hypoxia. We hypothesised that complications during pregnancy, such as early or preterm loss of placental steroids and intrauterine growth restriction (IUGR), would disrupt the foetal neurosteroid system, contributing to poor neurodevelopmental outcomes. This study aimed to investigate the effects of chronic inhibition of allopregnanolone synthesis before term and IUGR on developmental processes in the foetal brain. Guinea pig foetuses were experimentally growth restricted at midgestation and treated with finasteride, an inhibitor of allopregnanolone synthesis. Finasteride treatment reduced foetal brain allopregnanolone concentrations by up to 75% and was associated with a reduction in myelin basic protein (MBP) (PZ0 . 001) and an increase in glial fibrillary acidic protein expression in the subcortical white matter brain region (P!0 . 001). IUGR resulted in decreased MBP expression (P!0 . 01) and was associated with a reduction in the expression of steroidogenic enzyme 5a-reductase (5aR) type 2 in the foetal brain (PZ0 . 061). Brain levels of 5aR1 were higher in male foetuses (PZ0 . 008). Both IUGR and reduced foetal brain concentrations of allopregnanolone were associated with altered expression of myelination and glial cell markers within the developing foetal brain. The potential role of neurosteroids in protecting and regulating neurodevelopmental processes in the foetal brain may provide new directions for treatment of neurodevelopmental disorders in infants who are exposed to perinatal insults and pathologies.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Sex-dependent effect of a low neurosteroid environment and intrauterine growth restriction on fetal guinea pig brain development.

Kelleher¹,

Palliser²,

Walker³

et al. 2010

Journal of Endocrinology

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“…In rats with bilateral medial frontal cortex (MFC) contusions, post-injury injections of PROG reduced cerebral edema, blood-brain barrier disruption, and the expression of inflammatory cytokines [7,31,32]. We have also shown that PROG's metabolite, allopregnanolone (ALLO; 5α-pregnan-3β-ol-20-one), a GABA-A agonist, can reduce the mediators of inflammation after TBI at a dose that is 50% lower than PROG [14].…”

Section: Introductionmentioning

confidence: 96%

Neurosteroids reduce inflammation after TBI through CD55 induction

VanLandingham

Cekić

Cutler

et al. 2007

Neuroscience Letters

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The inflammatory cascade that follows traumatic brain injury may lead to secondary cell death and can impede recovery of function. Complement factors and their convertases are increased in glia after brain injury and lead to the production of inflammatory products that kill vulnerable neurons. Progesterone and its metabolite allopregnanolone (5α-pregnan-3β-ol-20-one) have been shown to reduce the expression of inflammatory cytokines in the acute stages of brain injury, although how they do this is not completely understood. In this study we show that both progesterone and allopregnanolone treatments enhance the production of CD55 following contusion injuries of the cerebral cortex in rats. CD55, a single-chain type 1 cell surface protein, is a potent inhibitor of the complement convertases which are activators of the inflammatory cascade. The increased expression of CD55 could be an important mechanism by which steroids help to reduce the cerebral damage caused by inflammation.

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“…These include neuroprotection against ischemia and stroke (Cutler, et al, 2005,Djebaili, et al, 2005,Hoffman, et al, 2003,Lapchak, 2004,Meffre, et al, 2007,Shear, et al, 2002,VanLandingham, et al, 2006, recovery of motor function after spinal cord injury (di Michele, et al, 2000,Fiore, et al, 2004,Labombarda, et al, 2006,Patte-Mensah, et al, 2004,Pomata, et al, 2000, regulation of myelination (Chavez-Delgado, et al, 2005,Gago, et al, 2001,Ghoumari, et al, 2005,Ghoumari, et al, 2003,Le Goascogne, et al, 2000,Schumacher, et al, 2000,Schumacher, et al, 2004, proliferation of neuronal stem cells (Suzuki, et al, 2004,Wang, et al, 2005 , neurogenesis in the hippocampus (Keller, et al, 2004,Suzuki, et al, 2004,Wang, et al, 2005, and induction of analgesia (Pathirathna, et al, 2005,Todorovic, et al, 2004. Many of these actions of neurosteroids are discussed in detail in other papers in this issue.…”

Section: Introductionmentioning

confidence: 99%

Endogenous and synthetic neurosteroids in treatment of Niemann–Pick Type C disease

Mellon

Gong

Schonemann

2008

Brain Research Reviews

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The functions for neurosteroids during development and in response to nervous system injury are beginning to be identified. We focused on a mouse model in which we believed neurosteroid production would be altered, and which had a neurodegenerative phenotype. Niemann Pick Type-C (NP-C) is an autosomal recessive neurodegenerative disease caused by mutations in NPC1 (95%) or NPC2 (5%), resulting in lysosomal accumulation of unesterified cholesterol and glycolipids. The NIH mouse model of NP-C has a mutation in the NPC1 gene, and exhibits several pathological features of the most severe NP-C patients. How lysosomal storage and trafficking defects lead to neurodegeneration is unknown. We found that these mice had normal neurosteroidogenic enzyme activity during development, but lost this activity in the early neonatal period, prior to onset of neurological symptoms. Neurons that expressed P450scc, 3ß HSD, as well as those that expressed 3α HSD and 5α reductase were lost in adult NP-C brains, resulting in diminished concentrations of allopregnanolone. We treated NP-C mice with allopregnanolone and found that a single dose in the neonatal period resulted in a doubling of lifespan, substantial delay in onset of neurological symptoms, survival of cerebellar Purkinje and granule cell neurons, and reduction in cholesterol and ganglioside accumulation. The mechanism by which allopregnanolone elicited these effects is unknown. Our in vitro studies showed that Purkinje cell survival promoted by allopregnanolone was lost by treatment with bicuculline, suggesting GABA A receptors may play a role. We treated NP-C mice with a synthetic GABA A neurosteroid, ganaxolone (3α-hydroxy-3β-methyl-5α -pregnan-20-one). Ganaxolone treatment of NP-C mice produced beneficial neurological effects, but these effects were not as robust as those obtained using allopregnanolone. Thus, allopregnanolone may elicit its effects through GABA A receptors and through other mechanisms. Additional studies also suggest that allopregnanolone may elicit its effects through pregnane-X receptors (PXR). Our data suggest that mouse models of neurodegeneration may be beneficial in establishing both physiologic and pharmacologic actions of neurosteroids. These animal models further establish the wide range of functions of these compounds, which may ultimately be useful for treatment of human diseases.

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The Neurosteroids Progesterone and Allopregnanolone Reduce Cell Death, Gliosis, and Functional Deficits after Traumatic Brain Injury in Rats

Cited by 351 publications

References 37 publications

Sex-dependent effect of a low neurosteroid environment and intrauterine growth restriction on fetal guinea pig brain development.

Sex-dependent effect of a low neurosteroid environment and intrauterine growth restriction on fetal guinea pig brain development.

Neurosteroids reduce inflammation after TBI through CD55 induction

Endogenous and synthetic neurosteroids in treatment of Niemann–Pick Type C disease

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