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Literature DB >> 1641499

Postnatal development of regional binding of corticotropin-releasing factor and adenylate cyclase activity in the rat brain.

Abstract

1. Corticotropin-releasing factor (CRF) plays a major role in the endocrine, autonomic and behavioral responses to stress. The distribution of CRF and CRF receptors in hypothalamic and extra-hypothalamic brain regions is consistent with its stress-related functions. 2. In most brain regions, CRF acts primarily, if not exclusively, through activation of the adenylate cyclase systems. 3. While previous studies have demonstrated the prenatal presence of CRF receptors, in the early postnatal period the abundance of CRF receptors relative to the magnitude of CRF-stimulated cAMP production suggests that CRF receptors are not fully linked to adenylate cyclase. 4. Because of our interest in the possible involvement of CRF signal transduction in the development of the neonatal stress response, we have examined postnatal development of CRF receptors in relation to adenylate cyclase activity in the rat. 5. CRF binding decreased significantly in the hippocampus and striatum from postnatal days 7-21. Basal adenylate cyclase activity peaked in the second-third week of postnatal life in each brain region. Preliminary studies suggest that early stress can alter the maturation of second messenger systems in the frontal cortex.

Entities: Chemical Gene Species

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Year: 1992 PMID： 1641499 DOI： 10.1016/0278-5846(92)90063-k

Source DB: PubMed Journal: Prog Neuropsychopharmacol Biol Psychiatry ISSN： 0278-5846 Impact factor: 5.067

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Cited

12 in total

1. Infantile spasms: hypothesis-driven therapy and pilot human infant experiments using corticotropin-releasing hormone receptor antagonists.

Authors: T Z Baram; W G Mitchell; K Brunson; E Haden
Journal: Dev Neurosci Date: 1999-11 Impact factor: 2.984

2. The CRF1 receptor mediates the excitatory actions of corticotropin releasing factor (CRF) in the developing rat brain: in vivo evidence using a novel, selective, non-peptide CRF receptor antagonist.

Authors: T Z Baram; D T Chalmers; C Chen; Y Koutsoukos; E B De Souza
Journal: Brain Res Date: 1997-10-03 Impact factor: 3.252

3. Activation of specific neuronal circuits by corticotropin releasing hormone as indicated by c-fos expression and glucose metabolism.

Authors: T Dubé; T Brunson; A Nehlig; T Z Baram
Journal: J Cereb Blood Flow Metab Date: 2000-10 Impact factor: 6.200

4. Novel and transient populations of corticotropin-releasing hormone-expressing neurons in developing hippocampus suggest unique functional roles: a quantitative spatiotemporal analysis.

Authors: Y Chen; R A Bender; M Frotscher; T Z Baram
Journal: J Neurosci Date: 2001-09-15 Impact factor: 6.167

5. CRH-stimulation of cyclic adenosine 5'-monophosphate pathway is partially inhibited by the coexpression of CRH-R1 and CRH-R2alpha.

Authors: G Maya-Núñez; C Castro-Fernández; J P Méndez
Journal: Endocrine Date: 2005-06 Impact factor: 3.633

6. Corticotropin-releasing factor receptors couple to multiple G-proteins to activate diverse intracellular signaling pathways in mouse hippocampus: role in neuronal excitability and associative learning.

Authors: Thomas Blank; Ingrid Nijholt; Dimitris K Grammatopoulos; Harpal S Randeva; Edward W Hillhouse; Joachim Spiess
Journal: J Neurosci Date: 2003-01-15 Impact factor: 6.167

10. Corticotropin-releasing hormone (CRH) downregulates the function of its receptor (CRF1) and induces CRF1 expression in hippocampal and cortical regions of the immature rat brain.

Authors: Kristen L Brunson; Dimitri E Grigoriadis; Marge T Lorang; Tallie Z Baram
Journal: Exp Neurol Date: 2002-07 Impact factor: 5.330