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Target Concepts:
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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chlorpyrifos has been hypothesized to interact with receptors and transduction proteins involved in the production of cyclic AMP, contributing to adverse effects on cell replication and differentiation. We studied the effects of neonatal chlorpyrifos exposure on hepatic adenylyl cyclase (AC) activity, as the liver accumulates the highest concentrations of chlorpyrifos and is the site for generation of its active metabolite, chlorpyrifos oxon. Newborn rats were given 1 mg/kg of chlorpyrifos s.c. on
PN1
-4. On PN5, 24 h after the last dose, AC catalytic activity was induced as assessed by the response to the direct AC stimulant, Mn(2+). In contrast, AC activation dependent upon interaction of the enzyme with G-proteins (forskolin) did not show any enhancement, suggesting impairment of G-protein function. This conclusion was confirmed by impaired responsiveness to fluoride, which directly activates G-proteins. In addition, the response of AC to hormonal signals was altered in a receptor-selective manner, with an enhanced response to
glucagon
but not to the beta-adrenoceptor agonist, isoproterenol. The effects of chlorpyrifos on AC signaling displayed a critical developmental period of vulnerability, as treatment of older rats (PN11-14) failed to cause substantial induction of AC or interference with G-protein signaling, although it did still enhance the
glucagon
response. In all cases, the effects of chlorpyrifos disappeared within a few days of discontinuing treatment. These results stand in contrast to the delayed deterioration of AC signaling seen in the brain after the same chlorpyrifos treatment. The temporal and organ selectivity of chlorpyrifos' effects on the AC cascade suggest that disruption of membrane signaling occurs consequent to selective effects on cell development, rather than representing a direct interaction between chlorpyrifos and signaling proteins.
...
PMID:Neonatal chlorpyrifos exposure targets multiple proteins governing the hepatic adenylyl cyclase signaling cascade: implications for neurotoxicity. 1083 89
The fetal and neonatal neurotoxicity of chlorpyrifos (CPF) and related insecticides is a major concern. Developmental effects of CPF involve mechanisms over and above cholinesterase inhibition, notably events in cell signaling that are shared by nonneural targets. In the present study, we evaluated the immediate and long-term effects of CPF exposure of rats during different developmental windows [gestational days (GD) 9-12 or 17-20, postnatal days (PN) 1-4 or 11-14] on the adenylyl cyclase (AC) signaling cascade in the heart and liver. In addition to basal AC activity, we assessed the responses to direct AC stimulants (forskolin, Mn2+); to isoproterenol and
glucagon
, which activate signaling through specific membrane receptors; and to sodium fluoride, which activates the G-proteins that couple the receptors to AC. Few immediate effects on AC were apparent when CPF doses remained below the threshold for systemic toxicity. Nevertheless, CPF exposures on GD9-12, GD17-20, or
PN1
-4 elicited sex-selective effects that emerged by adulthood (PN60), whereas later exposure (PN11-14) elicited smaller, nonsignificant effects, indicative of closure of the window of vulnerability. Most of the effects were heterologous, involving signaling elements downstream from the receptors, and thus were shared by multiple inputs; superimposed on this basic pattern, there were also selective alterations in receptor-mediated responses. These results suggest that the developmental toxicity of CPF extends beyond the nervous system, to include cell signaling cascades that are vital to cardiac and hepatic homeostasis. Future work needs to address the potential implications of these effects for cardiovascular and metabolic disorders that may emerge long after the end of CPF exposure.
...
PMID:Developmental effects of chlorpyrifos extend beyond neurotoxicity: critical periods for immediate and delayed-onset effects on cardiac and hepatic cell signaling. 1475 71
