Aromatase P450 expression in human pituitary adenomas.

Estrogen has been shown to play an important role in pituitary tumor pathogenesis. In humans, this biosynthesis is mediated by aromatase, an enzyme that converts androgens to estrogens. Just a few studies about aromatase expression in human pituitary gland, both in normal and pathological ones, are found in the literature. This study aimed to assess aromatase enzyme expression in human pituitary adenomas and associate it with gender, tumor size and tumor subtype. We conducted a cross-sectional study, reviewed clinical data and surgical specimens of consecutive 65 patients (35 women and 30 men) with anatomopathologic diagnosis of pituitary adenoma who underwent adenomectomy at a neurosurgical referral center in southern Brazil. Immunohistochemistry was performed to assess aromatase expression and define tumor subtype, and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) to estimate aromatase gene expression. Mean patient age was 45.6 (±13.3) years (range, 18 to 73 years), 86.2% of our samples were macroadenomas while 13.8% were classified as microadenomas. Based on clinical and immunohistochemical data, 23 (35.4%) patients had non-functioning adenomas, 19 (29.2%) had somatotroph adenomas (acromegaly), 12 (18.5%) had lactotroph adenomas (hyperprolactinemic syndrome), and 11 (16.9%) had corticotroph adenomas (Cushing's disease). Immunohistochemical analysis was performed in 59 cases, and 58 (98.3%) showed no aromatase expression. Quantification by qRT-PCR was performed in 43 samples, and 36 (83.7%) revealed no gene expression. Among tumor specimens examined by both techniques (37 cases), 30 showed no gene or protein expression (concordance index, 0.81). It is possible to mention that aromatase expression was lost in most pituitary adenomas, regardless of gender, tumor subtype, or tumor size.

High incidence of low O(6)-methylguanine DNA methyltransferase expression in invasive macroadenomas of Cushing's disease.

CONTEXT: Crooke's cell adenoma (CCA), characterized by massive Crooke's hyaline change in corticotroph adenoma, causes a rare subtype of Cushing's disease. In contrast to ordinary corticotroph adenomas, CCAs are generally aggressive and present as invasive macroadenomas, which are refractory to both surgery and radiotherapy and have a high-recurrence rate. Moreover, some patients with CCA present with distant or craniospinal metastases. Currently, there are no effective standard therapies for CCA. OBJECTIVE: We report a patient with Crooke's cell carcinoma who presented with local invasion and liver metastases, which was refractory to conventional therapeutic modalities including transsphenoidal surgery, radiosurgery, medications, and hepatic transcatheter arterial embolization. After all these treatments failed, the patient had monthly temozolomide administrations, resulting in gradual clinical improvement and biochemical data that were consistent with tumor shrinkage. In glioblastoma, low O(6)-methylguanine DNA methyltransferase (MGMT) expression is associated with epigenetic gene silencing and predicts a better response to temozolomide. METHODS: We thus investigated MGMT expression, immunohistochemically, in seven CCAs (five invasive macroadenomas and two invasive microadenomas) and 17 ordinary-type adenomas (OTAs; three noninvasive macroadenomas, 12 noninvasive microadenomas, and two invasive microadenomas) from patients with Cushing's disease. RESULTS: In seven CCAs, all five invasive macroadenomas exhibited low MGMT expression, defined as <5% nuclear MGMT staining. In 17 OTAs, only one adenoma showed low MGMT expression. CONCLUSION: In Cushing's disease, invasive macroadenomas including CCA usually have low-MGMT expression. Temozolomide thus may be a new therapeutic option for invasive macroadenomas such as CCA particularly when conventional treatments are ineffective.

Adipose tissue 11beta-hydroxysteroid dehydrogenase type 1 expression in obesity and Cushing's syndrome.

OBJECTIVE: To evaluate the expression of 11beta-hydrxysteroid dehydrogenase type 1 (11beta-HSD1) in omental adipose tissue of patients with Cushing's syndrome and simple obesity, compared with normal weight controls. DESIGN AND METHODS: We have performed a case-control study and studied omental adipose tissue from a total of 24 subjects (eight obese subjects, ten patients with Cushing's syndrome due to adrenal adenoma, and six normal weight controls). Body mass index, blood pressure, plasma glucose, plasma insulin, plasma cortisol, urinary free cortisol and post dexamethasone plasma cortisol were measured with standard methods. 11beta-HSD1 mRNA and protein expression were evaluated in real-time PCR and western blot analysis respectively. RESULTS: 11beta-HSD1 mRNA was 13-fold higher in obese subjects compared with controls (P=0.001). No differences were found between Cushing's patients and controls. Western blot analysis supported the mRNA expression results. CONCLUSIONS: Our data show the involvement of 11beta-HSD1 enzyme invisceral obesity, which is more evident in severely obese patients than in Cushing's syndrome patients. The lack of increase of 11beta-HSD1 expression in Cushing's syndrome could suggest downregulation of the enzyme as a result of long-term overstimulation.

Inhibition of 11beta-hydroxysteroid dehydrogenase eliminates impaired glucocorticoid suppression and induces apoptosis in corticotroph tumor cells.

Cushing's disease is characterized by persistent ACTH secretion under hypercortisolemia. In an attempt to clarify the molecular mechanism, we examined the effect of 11beta-hydroxysteroid dehydrogenase (HSD) inhibition on glucocorticoid suppression of ACTH release using murine corticotroph tumor cells. We found that 11beta-HSD2, as well as -HSD1, was expressed in the cells and that its inhibition by carbenoxolone significantly improved the negative feedback effect of glucocorticoid. Carbenoxolone also enhanced apoptosis induced by cortisol. These effects are most likely attributable to inhibition of 11beta-HSD2 because only cortisol, a substrate of 11beta-HSD2, was present in these experimental conditions. We conclude that ectopic expression of 11beta-HSD2 is, at least in part, responsible for the impaired glucocorticoid suppression in corticotroph adenoma. Inhibition of 11beta-HSD2 may be applicable to the medical therapy for Cushing's disease.