It is not understood why some adrenal adenomas are nonfunctional and others with similar histopathology cause preclinical or overt Cushing's syndrome. Two isozymes of 11 beta-hydroxysteroid dehydrogenase, types 1 and 2 (HSD11B1 and HSD11B2), are known to modulate glucocorticoid levels in other tissues and might influence circulating levels of active and inactive glucocorticoids if they were expressed in adrenal adenomas. We determined levels of expression of these isozymes in normal adrenals and 61 adrenal adenomas by quantitative competitive RT-PCR and immunohistochemistry. There were no differences in HSD11B1 mRNA levels among adrenal tumor groups. HSD11B2 mRNA levels were high in nonfunctioning adenomas and preclinical Cushing's adenomas compared with levels in control adrenals or in adenomas causing overt Cushing's syndrome. HSD11B2 immunoreactivity was not detected in control adrenals, but was observed in more than half of these tumors. When nonfunctioning adenomas and those causing preclinical and overt Cushing's syndrome were considered as a single group, HSD11B2 mRNA levels were strongly correlated with the ratio of plasma cortisone to cortisol, and a simple model incorporating adrenal HSD11B2 expression and tumor size as variables could predict more than 50% of the interindividual variation in plasma cortisol levels (r(2) = 0.54; P < 0.0001). Adrenal HSD11B2 may regulate levels of active and inactive glucocorticoids in the systemic circulation under these conditions, presumably by acting in an autocrine or paracrine manner. Nonfunctioning adenomas and those causing preclinical and overt Cushing's syndrome may represent a continuum with clinical manifestations depending mainly on tumor size and HSD11B2 expression levels.
Abstract. Type 2 11β-hydroxysteroid dehydrogenase encoded by the HSD11B2 gene converts cortisol to inactive cortisone, and alteration in this enzymatic activity might affect glucose homeostasis by affecting circulating levels or tissue availability of glucocorticoids. We investigated the association of HSD11B2 variant with glucose homeostasis. Subjects with normal glucose tolerance (n=585), impaired glucose tolerance (n=202) and type 2 diabetes (n=355) were genotyped for a highly polymorphic CA-repeat polymorphism in the first intron of HSD11B2. Allele and genotype frequencies differed between normal and impaired glucose tolerance (P = 0.0014 and 0.0407, respectively; 4 degree of freedom) or type 2 diabetes (P = 0.0053 and 0.0078), with significant linear trends between the repeat length and the phenotype fraction. In normal subjects, total CA-repeat length was negatively correlated with fasting insulin and HOMA-β. Thus, subjects having more CA repeats are susceptible to developing abnormal glucose tolerance, whereas normal subjects carrying more CA repeats appeared to have frugal characteristics in insulin secretion.
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