Region-specific regulation of transforming growth factor alpha (TGF alpha) gene expression in astrocytes of the neuroendocrine brain

Certain glial cells of the hypothalamus have been implicated in the neuroendocrine control of reproductive development. Hypothalamic astrocytes appear to exert this function via a cell-cell interactive mechanism that involves the production of transforming growth factor alpha (TGF alpha), a polypept...

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Published in	The Journal of neuroscience Vol. 14; no. 9; pp. 5644 - 5651
Main Authors	Ma, YJ, Berg-von der Emde, K, Moholt-Siebert, M, Hill, DF, Ojeda, SR
Format	Journal Article
Language	English
Published	United States Soc Neuroscience 01.09.1994 Society for Neuroscience
Subjects	Animals Astrocytes - physiology Brain - cytology Brain - physiology Epidermal Growth Factor - pharmacology Estradiol - pharmacology Female Gene Expression Regulation - drug effects Neurosecretory Systems - cytology Neurosecretory Systems - physiology Rats Receptor, Epidermal Growth Factor - genetics RNA, Messenger - metabolism Transforming Growth Factor alpha - genetics Transforming Growth Factor alpha - pharmacology
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Abstract	Certain glial cells of the hypothalamus have been implicated in the neuroendocrine control of reproductive development. Hypothalamic astrocytes appear to exert this function via a cell-cell interactive mechanism that involves the production of transforming growth factor alpha (TGF alpha), a polypeptide able to affect both glial and neuronal functions in the CNS. In the hypothalamus, TGF alpha stimulates neuronal secretion of luteinizing hormone-releasing hormone (LHRH), the neuropeptide controlling sexual development, via activation of epidermal growth factor receptors (EGFR). Since astrocytes but not LHRH neurons express EGFR, it has been postulated that the stimulatory effect of TGF alpha on LHRH release is not exerted directly on LHRH neurons, but rather via glial intermediacy. The present experiments were undertaken to define whether TGF alpha is able to exert paracrine/autocrine effects on isolated hypothalamic astrocytes, and to determine if estradiol-previously shown to increase TGF alpha mRNA levels in the hypothalamus of immature animals--can act directly on hypothalamic astrocytes to upregulate TGF alpha gene expression. Treatment with either TGF alpha or its structural homolog, epidermal growth factor (EGF), increased TGF alpha mRNA levels within 8 hr of exposure; the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) was similarly effective. Blockade of EGFR with either tyrphostin RG-50864, an inhibitor of tyrosine kinase activity, or a monoclonal antibody that prevents ligand binding abolished the upregulatory effect of TGF alpha on TGF alpha mRNA levels. In contrast to hypothalamic astrocytes, cerebellar astrocytes did not respond to either TGF alpha or EGF with changes in TGF alpha mRNA abundance.
AbstractList	Certain glial cells of the hypothalamus have been implicated in the neuroendocrine control of reproductive development. Hypothalamic astrocytes appear to exert this function via a cell-cell interactive mechanism that involves the production of transforming growth factor alpha (TGF alpha), a polypeptide able to affect both glial and neuronal functions in the CNS. In the hypothalamus, TGF alpha stimulates neuronal secretion of luteinizing hormone-releasing hormone (LHRH), the neuropeptide controlling sexual development, via activation of epidermal growth factor receptors (EGFR). Since astrocytes but not LHRH neurons express EGFR, it has been postulated that the stimulatory effect of TGF alpha on LHRH release is not exerted directly on LHRH neurons, but rather via glial intermediacy. The present experiments were undertaken to define whether TGF alpha is able to exert paracrine/autocrine effects on isolated hypothalamic astrocytes, and to determine if estradiol-previously shown to increase TGF alpha mRNA levels in the hypothalamus of immature animals--can act directly on hypothalamic astrocytes to upregulate TGF alpha gene expression. Treatment with either TGF alpha or its structural homolog, epidermal growth factor (EGF), increased TGF alpha mRNA levels within 8 hr of exposure; the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) was similarly effective. Blockade of EGFR with either tyrphostin RG- 50864, an inhibitor of tyrosine kinase activity, or a monoclonal antibody that prevents ligand binding abolished the upregulatory effect of TGF alpha on TGF alpha mRNA levels. In contrast to hypothalamic astrocytes, cerebellar astrocytes did not respond to either TGF alpha or EGF with changes in TGF alpha mRNA abundance. Certain glial cells of the hypothalamus have been implicated in the neuroendocrine control of reproductive development. Hypothalamic astrocytes appear to exert this function via a cell-cell interactive mechanism that involves the production of transforming growth factor alpha (TGF alpha ), a polypeptide able to affect both glial and neuronal functions in the CNS. In the hypothalamus, TGF alpha stimulates neuronal secretion of luteinizing hormone-releasing hormone (LHRH), the neuropeptide controlling sexual development, via activation of epidermal growth factor receptors (EGFR). Since astrocytes but not LHRH neurons express EGFR, it has been postulated that the stimulatory effect of TGF alpha on LHRH release is not exerted directly on LHRH neurons, but rather via glial intermediacy. The present experiments were undertaken to define whether TGF alpha is able to exert paracrine/autocrine effects on isolated hypothalamic astrocytes, and to determine if estradiol--previously shown to increase TGF alpha mRNA levels in the hypothalamus of immature animals--can act directly on hypothalamic astrocytes to upregulate TGF alpha gene expression. Treatment with either TGF alpha or its structural homolog, epidermal growth factor (EGF), increased TGF alpha mRNA levels within 8 hr of exposure; the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) was similarly effective. Blockade of EGFR with either tyrphostin RG-50864, an inhibitor of tyrosine kinase activity, or a monoclonal antibody that prevents ligand binding abolished the upregulatory effect of TGF alpha on TGF alpha mRNA levels. In contrast to hypothalamic astrocytes, cerebellar astrocytes did not respond to either TGF alpha or EGF with changes in TGF alpha mRNA abundance. This lack of response was not due to an absence of EGFR in cerebellar glia, as astrocytes from both brain regions were found to have similar levels of EGFR mRNA, and respond to TGF alpha or EGF with a similar change in EGFR autophosphorylation. Hypothalamic, but not cerebellar, astrocytes express the estrogen receptor (ER) gene and respond to estradiol with increased TGF alpha mRNA levels. This effect of estradiol was prevented by blockade of EGFR. The results provide evidence for the concept that TGF alpha can act in a paracrine/autocrine manner to upregulate its own gene expression in hypothalamic astrocytes, and indicate that such regulatory mechanism does not operate in the cerebellum, a region irrelevant to neuroendocrine control. Expression of the ER gene in hypothalamic astrocytes and the ability of estradiol to upregulate TGF alpha mRNA abundance in these cells, but not in cerebellar astrocytes, further suggest that some glial cells of the hypothalamus are molecularly and functionally specialized to subserve neuroendocrine reproductive functions (DBO).
Author	Ma, YJ Ojeda, SR Hill, DF Moholt-Siebert, M Berg-von der Emde, K
AuthorAffiliation	Division of Neuroscience, Oregon Regional Primate Research Center, Beaverton 97006
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Snippet	Certain glial cells of the hypothalamus have been implicated in the neuroendocrine control of reproductive development. Hypothalamic astrocytes appear to exert...
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SubjectTerms	Animals Astrocytes - physiology Brain - cytology Brain - physiology Epidermal Growth Factor - pharmacology Estradiol - pharmacology Female Gene Expression Regulation - drug effects Neurosecretory Systems - cytology Neurosecretory Systems - physiology Rats Receptor, Epidermal Growth Factor - genetics RNA, Messenger - metabolism Transforming Growth Factor alpha - genetics Transforming Growth Factor alpha - pharmacology
Title	Region-specific regulation of transforming growth factor alpha (TGF alpha) gene expression in astrocytes of the neuroendocrine brain
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