Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Suramin, a polycyclic and polyanionic drug, has been successfully used in the therapy of inoperable adrenocortical cancer. The present study was undertaken to investigate the effects of suramin on normal human adrenocortical cells in primary monolayer cultures. The proliferation and the basal, as well as the adrenocorticotropin (ACTH)-stimulated, cortisol secretion of these cells were studied. The data show that suramin decreases basal, as well as ACTH-stimulated, cortisol secretion in a dose-dependent manner (P less than .05 from 300 mumol/L upward). At a suramin concentration of 3 mmol/L, cortisol secretion was inhibited by 70% +/- 4% in ACTH-stimulated cells and by 42% +/- 6% in unstimulated cells. The proliferation of adrenocortical cells in response to fetal calf serum was also inhibited by suramin at concentrations from 300 mumol/L upward, maximal suppression (71% +/- 6%, P less than .01) being observed at a concentration of 10 mmol/L. Both inhibition of cortisol secretion and inhibition of adrenocortical cell proliferation were not due to toxicity of the compound, as could be shown by restimulation of cortisol secretion in suramin-treated cells with ACTH. Our results indicate that suramin exerts an inhibitory influence on the cortisol secretion and on the proliferation of normal human adrenocortical cells. Suramin may not only be useful in the treatment of adrenocortical cancer, but may also have an ameliorative effect on other malignant conditions with augmented steroid hormone production, resistant to conventional forms of therapy.
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PMID:The effects of suramin on human adrenocortical cells in vitro: suramin inhibits cortisol secretion and adrenocortical cell growth. 165 42

Suramin, a sulfonated drug, has been used successfully in the treatment of inoperable adrenocortical cancer. This study was undertaken to investigate the effects of suramin on the basal and the adrenocorticotropin-stimulated cortisol and pregnenolone secretion and on the proliferation of primary monolayer cultures of normal human adrenocortical cells. Suramin decreases basal and adrenocorticotropin-stimulated cortisol secretion in a dose-dependent manner (p less than 0.05 from 0.3 mmol/L upward). At a suramin concentration of 3 mmol/L cortisol, secretion was inhibited by 70% +/- 4% in adrenocorticotropin-stimulated cells and by 42% +/- 6% in unstimulated cells. The proliferation of adrenocortical cells in response to fetal calf serum was inhibited by suramin at concentrations from 0.3 mmol/L upward, maximal suppression (71% +/- 6%; p less than 0.05) being observed at a concentration of 10 mmol/L. Neither down-regulation of cortisol secretion nor inhibition of adrenocortical cell proliferation was caused by toxicity of the compound, as could be shown by adrenocorticotropin-restimulating cortisol secretion in suramin-treated cells. The results indicate that suramin exerts an inhibitory influence on the cortisol secretion and the proliferation of normal human adrenocortical cells and may be useful in treating adrenocortical cancer.
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PMID:Suramin and the human adrenocortex: results of experimental and clinical studies. 166 Jun 27

Interleukin-6 (IL-6) is the end-product of a cytokine signaling cascade and is secreted by specialized immune cells during inflammation. It has a great influence on many functions, including differentiation, stimulation, and activation of immune cells, or other cells of neuroendocrine origin. Thus, IL-6 serves as a key messenger in its communication with the neuroendocrine system, and serves as a potent activator of the hypothalamic-pituitary-adrenal axis at all levels. Changes in the levels of expression of this cytokine and its receptor have been observed during chronic inflammatory disease, and have been associated with tumorigenesis. Therefore, we studied the effect of IL-6 on normal and adenomatous human adrenal cells in vitro. The expression of IL-6 receptor mRNA was quantified within the same tissue. IL-6 potently stimulated cortisol secretion from dispersed normal human adrenal cells. We found immunoreactivity for the IL-6 receptor on cultured cells and paraffin-embedded sections of adrenal tissues. Further, there was a more pronounced expression of IL-6 mRNA in adrenal adenomas of patients with Cushing's syndrome, compared to normal human adrenals. Despite this fact, the sensitivity of cells of adenomatous adrenal glands to IL-6 was significantly decreased relative to cells from normal controls. These results were confirmed employing the permanent adrenocortical cancer cell line model NCI-H295. We infer that the loss of responsivity of tumorous adrenal cells to IL-6, and in part corticotropin, is an important step in the process of adrenal tumorigenesis by which regulation by differentiating proteins is bypassed.
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PMID:Role of interleukin-6 in stress response in normal and tumorous adrenal cells and during chronic inflammation. 1211 87

The cyclic AMP (cAMP) pathway plays a major role in the development of endocrine tissues and various molecular defects of key components of this pathway (G protein, receptors, PKA, ...) have been observed in endocrine tumors. Hypersecretion of adrenocorticotropin hormone (ACTH), the key activator of the cAMP pathway in adrenal cortex, is associated with adrenocortical hyperplasia and cortisol oversecretion (Cushing's syndrome). The best example of "illegitimate" membrane receptors expression reported is the abnormal expression of the adenylyl cyclase activating gastric inhibitory peptide receptor (GIP-R) in ACTH-independent Cushing's syndrome (ACS). We have observed that ectopic expression of the GIP-R is frequent in ACTH-Independent Macronodular Adrenal Hyperplasia (AIMAH), rare in benign adrenal adenoma (AA), but seems absent in Adrenal Cancer (AC). In vivo systematic screening of AIMAH shows at least one abnormal response of cortisol (suggesting "illegitimate" membrane receptor expression) in almost all patients. Somatic and germ line inactivating mutations of PRKAR1 (regulatory subunit R1A of PKA) can be observed in patient with isolated primary pigmented nodular adrenocortical disease (PPNAD) and AA responsible for ACS. At the nuclear level, the cAMP pathway regulates transcription mainly by PKA-dependent phosphorylation of the cyclic AMP response element binding (CREB) family of transcription factors (CREB, CREM, and ATF-1). Cyclic AMP response element binding protein (CREB) is expressed in normal adrenal cortex. Alterations of CRE binding proteins with loss of CREB expression and compensatory overexpression of CREMtau is observed in the human adrenocortical cancer cell line H295R. Similar alterations are found at the protein level in human malignant adrenocortical tumors. In conclusion, various alterations leading to activation or inactivation of key components of the cAMP signaling pathway can be observed in adrenocortical tumorigenesis.
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PMID:cAMP pathway alterations from the cell surface to the nucleus in adrenocortical tumors. 1253 Jun 96

Corticotropin (ACTH)-independent macronodular adrenal hyperplasia (AIMAH) is a heterogeneous condition in which cortisol secretion may be mediated by gastrointestinal peptide (GIP), vasopressin, catecholamines and other hormones. We studied the expression profile of AIMAH by genomic cDNA microarray analysis. Total RNA was extracted from eight tissues (three GIP-dependent) and compared to total RNA obtained from adrenal glands from 62 normal subjects. Genes had to be altered in 75% of the patients, and be up- or downregulated at a cutoff ratio of at least 2.0; 82 and 31 genes were found to be consistently up- and downregulated, respectively. Among the former were regulators of transcription, chromatin remodeling, and cell cycle and adhesion. Downregulated sequences included genes involved in immune responses and insulin signaling. Hierarchical clustering correlated with the two main AIMAH diagnostic groups: GIP-dependent and non-GIP-dependent. The genes encoding the 7B2 protein (SGNE1) and WNT1-inducible signaling pathway protein 2 (WISP2) were specifically overexpressed in the GIP-dependent AIMAH. For these, and six more genes, the data were validated by semiquantitative amplification in samples from a total of 32 patients (the original eight, six more cases of AIMAH, and 18 other adrenocortical hyperplasias and tumors) and the H295R adrenocortical cancer cell line. In conclusion, our data confirmed AIMAH's clinical heterogeneity by identifying molecularly distinct diagnostic subgroups. Several candidate genes that may be responsible for AIMAH formation and/or progression were also identified, suggesting pathways that affect the cell cycle, adhesion and transcription as possible mediators of adrenocortical hyperplasia.
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PMID:Gene array analysis of macronodular adrenal hyperplasia confirms clinical heterogeneity and identifies several candidate genes as molecular mediators. 1476 69

Cushing's syndrome results from sustained pathologic hypercortisolism caused by excessive corticotropin (ACTH) secretion by tumors in the pituitary gland (Cushing's disease, 70%) or elsewhere (15%), or by ACTH-independent cortisol secretion from adrenal tumors (15%). The clinical features are variable, and no single pattern is seen in all patients. Those features most specific for Cushing's syndrome include abnormal fat distribution, particularly in the supraclavicular and temporal fossae, proximal muscle weakness, wide purple striae, and decreased linear growth with continued weight gain in a child. Patients with characteristics of glucocorticoid excess should be screened with measurements of saliva or urine cortisol or dexamethasone suppression testing. The diagnosis of Cushing's syndrome should be followed by the measurement of plasma ACTH concentration to determine whether the hypercortisolism is ACTH-independent. In ACTH-dependent patients, bilateral inferior petrosal sinus sampling with measurement of ACTH before and after administration of ACTH-releasing hormone most accurately distinguishes pituitary from ectopic ACTH secretion. Surgical resection of tumor is the optimal treatment for all forms of Cushing's syndrome; bilateral adrenalectomy, medical treatment, or radiotherapy are sought in inoperable or recurrent cases. The medical treatment of choice is ketoconazole. The prognosis is better for Cushing's disease and benign adrenal causes of Cushing's syndrome than adrenocortical cancer and malignant ACTH-producing tumors.
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PMID:Evaluation and treatment of Cushing's syndrome. 1637 74

Endogenous Cushing syndrome (CS) is caused by excess adrenal glucocorticoid secretion that is adrenocorticotropin (ACTH)-dependent or independent; ACTH-independent adrenocortical causes of CS account for up to 20% of CS in adults, and 15% in children over age 7 years. In younger children, ACTH-independent CS may account for as many as half of the CS cases. In both adults and children, adrenocortical lesions causing CS include the common, isolated and sporadic, solitary cortisol-producing adenoma, the rare adrenocortical cancer, and a spectrum of recently recognized, bilateral hyperplasias (bilateral adrenocortical hyperplasias, BAHs): micronodular adrenal disease and its pigmented variant, primary pigmented nodular adrenocortical disease are mostly genetic processes. Macronodular BAHs, ACTH-independent macronodular hyperplasia or massive macronodular adrenocortical disease are less frequently genetic and almost never present in children (except in McCune-Albright syndrome); they present often with atypical CS in middle-aged or elderly adults. The majority of benign adrenocortical tumors associated with CS are associated with defects of the cAMP signaling pathway, whereas adrenal cancer is linked to aberrant expression of growth factors and germline or somatic mutations of tumor suppressor genes such as TP53. Adrenalectomy is the preferred mode of treatment for all adrenocortical causes of CS.
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PMID:Cushing syndrome caused by adrenocortical tumors and hyperplasias (corticotropin- independent Cushing syndrome). 1849 37

Cushing's syndrome is a rare disease with significant morbidity and mortality. Surgical intervention represents the most effective treatment option in both adrenocorticotropin-dependent and -independent forms of hypercortisolism. It is not uncommon, however, that surgery fails to cure or control the disease. Pharmacotherapy with drugs inhibiting steroid biosynthesis can be effectively used in these cases in order to alleviate symptoms or even to induce chemical adrenalectomy. A few drugs inhibiting single or multiple steps in adrenal steroid biosynthesis can be used in clinical practice. Drugs predominantly inhibiting single enzymatic steps include the 11beta-hydroxylase inhibitor metyrapone and the 3beta-hydroxysteroid dehydrogenase inhibitor trilostane, whereas mitotane, aminoglutethimide, ketoconazole and etomidate block multiple enzymatic reactions. Etomidate is the only agent available for parenteral administration that renders it as a treatment of choice in critically ill patients requiring a rapid control of hypercortisolemia. Ketoconazole, metyrapone and aminoglutethimide can be used alone or in combination for the treatment of hypercortisolism caused by benign adrenocorticotropin- or cortisol-secreting tumors. The clinical utility of trilostane is variable. Besides blocking multiple steps in adrenal steroid biosynthesis, the DDT (insecticide) analogue mitotane also has adrenolytic properties by inducing mitochondrial degeneration that renders it superior to other drugs in the treatment of adrenocortical cancer. Severe side effects may develop during therapy with each aforementioned drug that include hepatic, endocrine and neurological toxicity. After summarizing the chemical and biological properties of steroid biosynthetic inhibitors, the authors describe their possible clinical applications and limitations.
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PMID:Steroid biosynthesis inhibitors in the therapy of hypercortisolism: theory and practice. 1899 33

Steroidogenic factor 1 (SF-1) is an orphan nuclear receptor selectively expressed in the adrenal cortex and gonads, where it mediates the hormonal stimulation of multiple genes involved in steroid hormone biosynthesis. SF-1 is the target of both phosphorylation and SUMOylation, but how these modifications interact or contribute to SF-1 regulation of endogenous genes remains poorly defined. We found that SF-1 is selectively SUMOylated at K194 in Y1 adrenocarcinoma cells and that although SUMOylation does not alter the subcellular localization of SF-1, the modification inhibits the ability of SF-1 to activate target genes. Notably, whereas SF-1 SUMOylation is independent of S203 phosphorylation and is unaffected by adrenocorticotropin (ACTH) treatment, loss of SUMOylation leads to enhanced SF-1 phosphorylation at serine 203. Furthermore, preventing SF-1 SUMOylation increases the mRNA and protein levels of multiple steroidogenic enzyme genes. Analysis of the StAR promoter indicates that blockade of SF-1 SUMOylation leads to an increase in overall promoter occupancy but does not alter the oscillatory recruitment dynamics in response to ACTH. Notably, we find that CDK7 binds preferentially to the SUMOylation-deficient form of SF-1 and that CDK7 inhibition reduces phosphorylation of SF-1. Based on these observations, we propose a coordinated modification model in which inhibition of SF-1-mediated transcription by SUMOylation in adrenocortical cancer cells is mediated through reduced CDK7-induced phosphorylation of SF-1.
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PMID:SUMOylation inhibits SF-1 activity by reducing CDK7-mediated serine 203 phosphorylation. 1901 34