SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1976116529> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W1976116529 endingPage "206" @default.
W1976116529 startingPage "199" @default.
W1976116529 abstract "The adrenal has been neglected in endocrine disruption regulatory testing strategy. The adrenal is a vital organ, adrenocortical insufficiency is recognised in life threatening “adrenal crises” and Addison’s disease, and the consequences of off-target toxicological inhibition of adrenocortical steroidogenesis is well recognised in clinical medicine, where drugs such as aminoglutethimide and etomidate killed patients via unrecognised inhibition of adrenocortical steroidogenic enzymes (e.g. CYP11B1) along the cortisol and aldosterone pathways. The consequences of adrenocortical dysfunction during early development are also recognised in the congenital salt wasting and adrenogenital syndromes presenting neonatally, yet despite a remit to focus on developmental and reproductive toxicity mechanisms of endocrine disruption by many regulatory agencies (USEPA EDSTAC; REACH) the assessment of adrenocortical function has largely been ignored. Further, every step in the adrenocortical steroidogenic pathway (ACTH receptor, StAR, CYP’s 11A1, 17, 21, 11B1, 11B2, and 3-hydroxysteroid dehydrogenase Δ4,5 isomerase) is known to be a potential target with multiple examples of chemicals inhibiting these targets. Many of these chemicals have been detected in human and wildlife tissues. This raises the question of whether exposure to low level environmental chemicals may be affecting adrenocortical function. This review examines the omission of adrenocortical testing in the current regulatory frameworks; the characteristics that make the adrenal cortex particularly vulnerable to toxic insult; chemicals and their toxicological targets within the adrenocortical steroidogenic pathways; the typical manifestations of adrenocortical toxicity (e.g. human iatrogenically induced pharmacotoxicological adrenal insufficiency, manifestations in typical mammalian regulatory general toxicology studies, manifestations in wildlife) and models of adrenocortical functional assessment. The utility of the in vivo ACTH challenge test to prove adrenocortical competency, and the H295R cell line to examine molecular mechanisms of steroidogenic pathway toxicity, are discussed. Finally, because of the central role of the adrenal in the physiologically adaptive stress response, the distinguishing features of stress, compared with adrenocortical toxicity, are discussed with reference to the evidence required to claim that adrenal hypertrophy results from stress rather than adrenocortical enzyme inhibition which is a serious adverse toxicological finding. This article is part of a special issue entitled ‘Endocrine disruptors and steroids’." @default.
W1976116529 created "2016-06-24" @default.
W1976116529 creator A5028550415 @default.
W1976116529 date "2016-01-01" @default.
W1976116529 modified "2023-09-25" @default.
W1976116529 title "Adrenocortical endocrine disruption" @default.
W1976116529 cites W1964004502 @default.
W1976116529 cites W1969191217 @default.
W1976116529 cites W1976294087 @default.
W1976116529 cites W1976461661 @default.
W1976116529 cites W1978283788 @default.
W1976116529 cites W1986075945 @default.
W1976116529 cites W1986296716 @default.
W1976116529 cites W1987761255 @default.
W1976116529 cites W1990554612 @default.
W1976116529 cites W1991447735 @default.
W1976116529 cites W1994689295 @default.
W1976116529 cites W2015229715 @default.
W1976116529 cites W2015734637 @default.
W1976116529 cites W2020411112 @default.
W1976116529 cites W2032822876 @default.
W1976116529 cites W2033296044 @default.
W1976116529 cites W2040466319 @default.
W1976116529 cites W2047704545 @default.
W1976116529 cites W2050118432 @default.
W1976116529 cites W2050576742 @default.
W1976116529 cites W2061428250 @default.
W1976116529 cites W2066543791 @default.
W1976116529 cites W2067638995 @default.
W1976116529 cites W2069513152 @default.
W1976116529 cites W2070587923 @default.
W1976116529 cites W2088098926 @default.
W1976116529 cites W2095406777 @default.
W1976116529 cites W2098977265 @default.
W1976116529 cites W2104839725 @default.
W1976116529 cites W2113936903 @default.
W1976116529 cites W2119060239 @default.
W1976116529 cites W2127969574 @default.
W1976116529 cites W2130509253 @default.
W1976116529 cites W2133314499 @default.
W1976116529 cites W2135414391 @default.
W1976116529 cites W2137645986 @default.
W1976116529 cites W2142156434 @default.
W1976116529 cites W2156793318 @default.
W1976116529 cites W2158930864 @default.
W1976116529 cites W2162620929 @default.
W1976116529 cites W2171977523 @default.
W1976116529 cites W4234788074 @default.
W1976116529 doi "https://doi.org/10.1016/j.jsbmb.2014.10.009" @default.
W1976116529 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25460300" @default.
W1976116529 hasPublicationYear "2016" @default.
W1976116529 type Work @default.
W1976116529 sameAs 1976116529 @default.
W1976116529 citedByCount "44" @default.
W1976116529 countsByYear W19761165292015 @default.
W1976116529 countsByYear W19761165292016 @default.
W1976116529 countsByYear W19761165292017 @default.
W1976116529 countsByYear W19761165292018 @default.
W1976116529 countsByYear W19761165292019 @default.
W1976116529 countsByYear W19761165292020 @default.
W1976116529 countsByYear W19761165292021 @default.
W1976116529 countsByYear W19761165292022 @default.
W1976116529 countsByYear W19761165292023 @default.
W1976116529 crossrefType "journal-article" @default.
W1976116529 hasAuthorship W1976116529A5028550415 @default.
W1976116529 hasConcept C104317684 @default.
W1976116529 hasConcept C105580179 @default.
W1976116529 hasConcept C121608353 @default.
W1976116529 hasConcept C126322002 @default.
W1976116529 hasConcept C134018914 @default.
W1976116529 hasConcept C155392382 @default.
W1976116529 hasConcept C2775976807 @default.
W1976116529 hasConcept C2776069600 @default.
W1976116529 hasConcept C2776166826 @default.
W1976116529 hasConcept C2777977426 @default.
W1976116529 hasConcept C2778129406 @default.
W1976116529 hasConcept C2778525890 @default.
W1976116529 hasConcept C2778808452 @default.
W1976116529 hasConcept C2779670467 @default.
W1976116529 hasConcept C2780902042 @default.
W1976116529 hasConcept C2909972456 @default.
W1976116529 hasConcept C46699223 @default.
W1976116529 hasConcept C530470458 @default.
W1976116529 hasConcept C55493867 @default.
W1976116529 hasConcept C71315377 @default.
W1976116529 hasConcept C71924100 @default.
W1976116529 hasConcept C86803240 @default.
W1976116529 hasConceptScore W1976116529C104317684 @default.
W1976116529 hasConceptScore W1976116529C105580179 @default.
W1976116529 hasConceptScore W1976116529C121608353 @default.
W1976116529 hasConceptScore W1976116529C126322002 @default.
W1976116529 hasConceptScore W1976116529C134018914 @default.
W1976116529 hasConceptScore W1976116529C155392382 @default.
W1976116529 hasConceptScore W1976116529C2775976807 @default.
W1976116529 hasConceptScore W1976116529C2776069600 @default.
W1976116529 hasConceptScore W1976116529C2776166826 @default.
W1976116529 hasConceptScore W1976116529C2777977426 @default.
W1976116529 hasConceptScore W1976116529C2778129406 @default.