Stuart A. Morgan , Darlene E. Berryman , Edward O. List , Gareth G. Lavery , Paul M. Stewart , John J. Kopchick
{"title":"GH/IGF-1在关键代谢组织中调控11β-HSD1可能有助于GH缺乏患者的代谢性疾病","authors":"Stuart A. Morgan , Darlene E. Berryman , Edward O. List , Gareth G. Lavery , Paul M. Stewart , John J. Kopchick","doi":"10.1016/j.ghir.2021.101440","DOIUrl":null,"url":null,"abstract":"<div><p><span><span>Patients with growth hormone deficiency<span> (GHD) have many clinical features in common with Cushing's syndrome (glucocorticoid excess) – notably visceral obesity, insulin resistance, muscle </span></span>myopathy<span><span> and increased vascular mortality. Within key metabolic tissues, 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) converts cortisone to the active </span>glucocorticoid<span>, cortisol (11-dehydrocorticosterone and </span></span></span>corticosterone in rodents respectively), and thus amplifies local glucocorticoid action.</p><p>We hypothesize that 11β-HSD1 expression is negatively regulated by growth hormone (GH), and that GHD patients have elevated 11β-HSD1 within key metabolic tissues (leading to increased intracellular cortisol generation) which contributes to the clinical features of this disease.</p><p>To identify the impact of GH excess/resistance on 11β-HSD1 <em>in vivo</em><span><span><span>, we measured mRNA expression in key metabolic tissues of giant mice expressing the bovine GH (bGH) gene, dwarf mice with a disrupted </span>GH receptor (GHRKO) gene and mice expressing a gene encoding a GH </span>receptor antagonist<span> (GHA). Additionally, we assessed urine steroid markers of 11β-HSD1 activity in both GHRKO and bGH animals.</span></span></p><p><span>11β-HSD1 expression was decreased in gastrocnemius muscle (0.43-fold, </span><em>p</em><span> < 0.05), subcutaneous adipose (0.53-fold, </span><em>p</em> < 0.05) and epididymal adipose tissue (0.40-fold, <em>p</em> < 0.05), but not liver, in bGH mice compared to WT controls. This was paralleled by an increased percentage of 11-DHC (inactive glucocorticoid) present in the urine of bGH mice compared to WT controls (2.5-fold, <em>p</em> < 0.01) - consistent with decreased systemic 11β-HSD1 activity. By contrast, expression of 11β-HSD1 was increased in the liver of GHRKO (2.7-fold, <em>p</em> < 0.05) and GHA mice (2.0-fold, <em>p</em> < 0.05) compared to WT controls, but not gastrocnemius muscle, subcutaneous adipose tissue or epididymal adipose tissue.</p><p>In summary, we have demonstrated a negative relationship between GH action and 11β-HSD1 expression which appears to be tissue specific. These data provide evidence that increased intracellular cortisol production within key tissues may contribute to metabolic disease in GHD patients.</p></div>","PeriodicalId":12803,"journal":{"name":"Growth Hormone & Igf Research","volume":"62 ","pages":"Article 101440"},"PeriodicalIF":1.6000,"publicationDate":"2022-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Regulation of 11β-HSD1 by GH/IGF-1 in key metabolic tissues may contribute to metabolic disease in GH deficient patients\",\"authors\":\"Stuart A. Morgan , Darlene E. Berryman , Edward O. List , Gareth G. Lavery , Paul M. Stewart , John J. Kopchick\",\"doi\":\"10.1016/j.ghir.2021.101440\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p><span><span>Patients with growth hormone deficiency<span> (GHD) have many clinical features in common with Cushing's syndrome (glucocorticoid excess) – notably visceral obesity, insulin resistance, muscle </span></span>myopathy<span><span> and increased vascular mortality. Within key metabolic tissues, 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) converts cortisone to the active </span>glucocorticoid<span>, cortisol (11-dehydrocorticosterone and </span></span></span>corticosterone in rodents respectively), and thus amplifies local glucocorticoid action.</p><p>We hypothesize that 11β-HSD1 expression is negatively regulated by growth hormone (GH), and that GHD patients have elevated 11β-HSD1 within key metabolic tissues (leading to increased intracellular cortisol generation) which contributes to the clinical features of this disease.</p><p>To identify the impact of GH excess/resistance on 11β-HSD1 <em>in vivo</em><span><span><span>, we measured mRNA expression in key metabolic tissues of giant mice expressing the bovine GH (bGH) gene, dwarf mice with a disrupted </span>GH receptor (GHRKO) gene and mice expressing a gene encoding a GH </span>receptor antagonist<span> (GHA). Additionally, we assessed urine steroid markers of 11β-HSD1 activity in both GHRKO and bGH animals.</span></span></p><p><span>11β-HSD1 expression was decreased in gastrocnemius muscle (0.43-fold, </span><em>p</em><span> < 0.05), subcutaneous adipose (0.53-fold, </span><em>p</em> < 0.05) and epididymal adipose tissue (0.40-fold, <em>p</em> < 0.05), but not liver, in bGH mice compared to WT controls. This was paralleled by an increased percentage of 11-DHC (inactive glucocorticoid) present in the urine of bGH mice compared to WT controls (2.5-fold, <em>p</em> < 0.01) - consistent with decreased systemic 11β-HSD1 activity. By contrast, expression of 11β-HSD1 was increased in the liver of GHRKO (2.7-fold, <em>p</em> < 0.05) and GHA mice (2.0-fold, <em>p</em> < 0.05) compared to WT controls, but not gastrocnemius muscle, subcutaneous adipose tissue or epididymal adipose tissue.</p><p>In summary, we have demonstrated a negative relationship between GH action and 11β-HSD1 expression which appears to be tissue specific. 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Regulation of 11β-HSD1 by GH/IGF-1 in key metabolic tissues may contribute to metabolic disease in GH deficient patients
Patients with growth hormone deficiency (GHD) have many clinical features in common with Cushing's syndrome (glucocorticoid excess) – notably visceral obesity, insulin resistance, muscle myopathy and increased vascular mortality. Within key metabolic tissues, 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) converts cortisone to the active glucocorticoid, cortisol (11-dehydrocorticosterone and corticosterone in rodents respectively), and thus amplifies local glucocorticoid action.
We hypothesize that 11β-HSD1 expression is negatively regulated by growth hormone (GH), and that GHD patients have elevated 11β-HSD1 within key metabolic tissues (leading to increased intracellular cortisol generation) which contributes to the clinical features of this disease.
To identify the impact of GH excess/resistance on 11β-HSD1 in vivo, we measured mRNA expression in key metabolic tissues of giant mice expressing the bovine GH (bGH) gene, dwarf mice with a disrupted GH receptor (GHRKO) gene and mice expressing a gene encoding a GH receptor antagonist (GHA). Additionally, we assessed urine steroid markers of 11β-HSD1 activity in both GHRKO and bGH animals.
11β-HSD1 expression was decreased in gastrocnemius muscle (0.43-fold, p < 0.05), subcutaneous adipose (0.53-fold, p < 0.05) and epididymal adipose tissue (0.40-fold, p < 0.05), but not liver, in bGH mice compared to WT controls. This was paralleled by an increased percentage of 11-DHC (inactive glucocorticoid) present in the urine of bGH mice compared to WT controls (2.5-fold, p < 0.01) - consistent with decreased systemic 11β-HSD1 activity. By contrast, expression of 11β-HSD1 was increased in the liver of GHRKO (2.7-fold, p < 0.05) and GHA mice (2.0-fold, p < 0.05) compared to WT controls, but not gastrocnemius muscle, subcutaneous adipose tissue or epididymal adipose tissue.
In summary, we have demonstrated a negative relationship between GH action and 11β-HSD1 expression which appears to be tissue specific. These data provide evidence that increased intracellular cortisol production within key tissues may contribute to metabolic disease in GHD patients.
期刊介绍:
Growth Hormone & IGF Research is a forum for research on the regulation of growth and metabolism in humans, animals, tissues and cells. It publishes articles on all aspects of growth-promoting and growth-inhibiting hormones and factors, with particular emphasis on insulin-like growth factors (IGFs) and growth hormone. This reflects the increasing importance of growth hormone and IGFs in clinical medicine and in the treatment of diseases.