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dc.contributor.authorPerogamvros, Ilias
dc.contributor.authorKayahara, M
dc.contributor.authorTrainer, Peter J
dc.contributor.authorRay, D W
dc.date.accessioned2012-05-22T17:52:01Z
dc.date.available2012-05-22T17:52:01Z
dc.date.issued2011-02-21
dc.identifier.citationSerum regulates cortisol bioactivity by corticosteroid-binding globulin dependent and independent mechanisms, as revealed by combined bioassay and physicochemical assay approaches. 2011, 75(1) : 31-38 Clin Endocrinolen_GB
dc.identifier.issn1365-2265
dc.identifier.pmid21521274
dc.identifier.doi10.1111/j.1365-2265.2011.04003.x
dc.identifier.urihttp://hdl.handle.net/10541/225396
dc.description.abstractContext:  Corticosteroid-binding globulin (CBG) is the principal carrier of natural glucocorticoids in the circulation and we hypothesized that it modulates glucocorticoid bioactivity. Alterations in CBG, the presence of non-cortisol, naturally occurring glucocorticoids and the use of potent, synthetic glucocorticoids, all make it difficult to assess adrenal activity in-vivo; these problems can be addressed by a glucocorticoid bioassay. Design and subjects:  A bioassay was developed for serum glucocorticoid bioactivity (GBA) and a physicochemical ultrafiltration-liquid chromatography-tandem mass spectrometry assay for free serum cortisol (FreeF). We studied individuals homozygous and heterozygous for a non-functioning CBG variant (CBG G237V) and healthy controls. Results:  FreeF concentrations were similar in healthy controls, and those with absent functional CBG, but surprisingly we found low GBA in CBG null individuals. This may suggest that CBG delivers cortisol to target cells. However, further experiments revealed that dilution of serum in the bioassay caused release of cortisol from CBG, resulting in elevated GBA measurements in all but the CBG G237V homozygotes. Furthermore, we identified a specific and potent inhibitory effect of high concentration serum on glucocorticoid sensitivity of the recipient cells used in the bioassay. Analysis of inflammatory synovial fluid, a filtrate of serum with lower CBG concentration, revealed elevated free cortisol compared to non-inflammatory synovial fluid, a change not attributable to interconversion between cortisol and cortisone. Conclusions:  Our findings reveal that dilution of CBG enhances cortisol release, and so bioactivity, and also that serum potently induces glucocorticoid resistance in target cells.
dc.languageENG
dc.language.isoenen
dc.rightsArchived with thanks to Clinical endocrinologyen_GB
dc.titleSerum regulates cortisol bioactivity by corticosteroid-binding globulin dependent and independent mechanisms, as revealed by combined bioassay and physicochemical assay approaches.en
dc.typeArticleen
dc.contributor.departmentDepartment of Endocrinology, Christie Hospital, Manchester, UK Endocrine Sciences Research Group, University of Manchester, Manchester, UK.en_GB
dc.identifier.journalClinical Endocrinologyen_GB
html.description.abstractContext:  Corticosteroid-binding globulin (CBG) is the principal carrier of natural glucocorticoids in the circulation and we hypothesized that it modulates glucocorticoid bioactivity. Alterations in CBG, the presence of non-cortisol, naturally occurring glucocorticoids and the use of potent, synthetic glucocorticoids, all make it difficult to assess adrenal activity in-vivo; these problems can be addressed by a glucocorticoid bioassay. Design and subjects:  A bioassay was developed for serum glucocorticoid bioactivity (GBA) and a physicochemical ultrafiltration-liquid chromatography-tandem mass spectrometry assay for free serum cortisol (FreeF). We studied individuals homozygous and heterozygous for a non-functioning CBG variant (CBG G237V) and healthy controls. Results:  FreeF concentrations were similar in healthy controls, and those with absent functional CBG, but surprisingly we found low GBA in CBG null individuals. This may suggest that CBG delivers cortisol to target cells. However, further experiments revealed that dilution of serum in the bioassay caused release of cortisol from CBG, resulting in elevated GBA measurements in all but the CBG G237V homozygotes. Furthermore, we identified a specific and potent inhibitory effect of high concentration serum on glucocorticoid sensitivity of the recipient cells used in the bioassay. Analysis of inflammatory synovial fluid, a filtrate of serum with lower CBG concentration, revealed elevated free cortisol compared to non-inflammatory synovial fluid, a change not attributable to interconversion between cortisol and cortisone. Conclusions:  Our findings reveal that dilution of CBG enhances cortisol release, and so bioactivity, and also that serum potently induces glucocorticoid resistance in target cells.


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