Marlijn Waaijers scite author profile

Objective: Currently, there is no effective medical treatment for patients with pituitary-dependent Cushing's disease. A novel somatostatin (SS) analogue, named SOM230, with high binding affinity to SS receptor subtypes sst 1 , sst 2 , sst 3 and sst 5 was recently introduced. We compared the in vitro effects of the sst 2 -preferring SS analogue octreotide (OCT) and the multi-ligand SOM230 on ACTH release by human and mouse corticotroph tumour cells. Methods: By quantitative RT-PCR the sst subtype expression level was determined in human corticotroph adenomas. In vitro, the inhibitory effect of OCT and SOM230 on ACTH release by dispersed human corticotroph adenoma cells and mouse AtT20 corticotroph adenoma cells was determined. In addition, the influence of dexamethasone on the responsiveness to OCT and SOM230 was studied. Results: Corticotroph adenomas expressed predominantly sst 5 mRNA (six out of six adenomas), whereas sst 2 mRNA expression was detected at significantly lower levels. In a 72 h incubation with 10 nmol/l SOM230, ACTH release was inhibited in three out of five cultures (range 2 30 to 2 40%). Ten nmol/l OCT slightly inhibited ACTH release in only one of five cultures (2 28%). In AtT20 cells, expressing sst 2 , sst 3 and sst 5 , SOM230 inhibited ACTH secretion with high potency (IC 50 0.2 nmol/l). Dexamethasone (10 nmol/l) pre-treatment did not influence the sensitivity of the cells to the inhibitory effect of SOM230, suggesting that sst 5 is relatively resistant to negative control by glucocorticoids. Conclusions: The selective expression of sst 5 receptors in corticotroph adenomas and the preferential inhibition of ACTH release by human corticotroph adenoma cells by SOM230 in vitro, suggest that SOM230 may have potential in the treatment of patients with pituitary-dependent Cushing's disease.European Journal of Endocrinology 152 645-654

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The Novel Somatostatin Analog SOM230 Is a Potent Inhibitor of Hormone Release by Growth Hormone- and Prolactin-Secreting Pituitary Adenomasin Vitro

Hofland

Hoek

Koetsveld

et al. 2004

The Journal of Clinical Endocrinology & Metabolism

173

121

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To determine the inhibitory profile of the novel somatostatin (SRIF) analog SOM230 with broad SRIF receptor binding, we compared the in vitro effects of SOM230, octreotide (OCT), and SRIF-14 on hormone release by cultures of different types of secreting pituitary adenomas. OCT (10 nM) significantly inhibited GH release in seven of nine GH-secreting pituitary adenoma cultures (range, -26 to -73%), SOM230 (10 nM) in eight of nine cultures (range, -22 to -68%), and SRIF-14 (10 nM) in six of six cultures (range, -30 to -75%). The sst analysis showed predominant but variable levels of somatostatin receptor (sst)(2) and sst(5) mRNA expression. In one culture completely resistant to OCT, SOM230 and SRIF-14 significantly inhibited GH release in a dose-dependent manner with an IC(50) value in the low nanomolar range. In the other cultures, SOM230 showed a lower potency of GH release inhibition (IC(50), 0.5 nM), compared with OCT (IC(50), 0.02 nM) and SRIF-14 (IC(50), 0.02 nM). A positive correlation was found between sst(2) but not sst(5) mRNA levels in the adenoma cells and the inhibitory potency of OCT on GH release in vivo and in vitro, and the effects of SOM230 and SRIF-14 in vitro. In three prolactinoma cultures, 10 nM OCT weakly inhibited prolactin (PRL) release in only one (-28%), whereas 10 nM SOM230 significantly inhibited PRL release in three of three cultures (-23, -51, and -64.0%). The inhibition of PRL release by SOM230 was related to the expression level of sst(5) but not sst(2) mRNA. Several conclusions were reached. First, SOM230 has a broad profile of inhibition of tumoral pituitary hormone release in the low nanomolar range, probably mediated via both sst(2) and sst(5) receptors. The higher number of responders of GH-secreting pituitary adenoma cultures to SOM230, compared with OCT, suggest that SOM230 has the potency to increase the number of acromegalic patients which can be biochemically controlled. Second, compared with OCT, SOM230 is more potent in inhibiting PRL release by mixed GH/PRL-secreting adenoma and prolactinoma cells.

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Distinct functional properties of native somatostatin receptor subtype 5 compared with subtype 2 in the regulation of ACTH release by corticotroph tumor cells

Hoek¹,

Waaijers²,

Koetsveld³

et al. 2005

American Journal of Physiology-Endocrinology and Metabolism

136

114

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In a series of human corticotroph adenomas, we recently found predominant mRNA expression of somatostatin (SS) receptor subtype 5 (sst5). After 72 h, the multiligand SS analog SOM230, which has a very high sst5 binding affinity, but not Octreotide (OCT), significantly inhibited basal ACTH release. To further explore the role of sst5 in the regulation of ACTH release, we conducted additional studies with mouse AtT-20 cells. SOM230 showed a 7-fold higher ligand binding affinity and a 19-fold higher potency in stimulating guanosine 5'-O-(3-thiotriphosphate) binding in AtT-20 cell membranes compared with OCT. SOM230 potently suppressed CRH-induced ACTH release, which was not affected by 48-h dexamethasone (DEX) pretreatment. However, DEX attenuated the inhibitory effects of OCT on ACTH release, whereas it increased the inhibitory potency of BIM-23268, an sst5-specific analog, on ACTH release. Quantitative PCR analysis showed that DEX lowered sst(2A+2B) mRNA expression significantly after 24 and 48 h, whereas sst5 mRNA levels were not significantly affected by DEX treatment. Moreover, Scatchard analyses showed that DEX suppressed maximum binding capacity (B(max)) by 72% when 125I-Tyr3-labeled OCT was used as radioligand, whereas B(max) declined only by 17% when AtT-20 cells were treated with [125I-Tyr11]SS-14. These data suggest that the sst5 protein, compared with sst2, is more resistant to glucocorticoids. Finally, after SS analog preincubation, compared with OCT both SOM230 and BIM-23268 showed a significantly higher inhibitory effect on CRH-induced ACTH release. In conclusion, our data support the concept that the sst5 receptor might be a target for new therapeutic agents to treat Cushing's disease.

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Immunoreactivity Score Using an Anti-sst2A Receptor Monoclonal Antibody Strongly Predicts the Biochemical Response to Adjuvant Treatment with Somatostatin Analogs in Acromegaly

Gatto¹,

Feelders²,

Pas³

et al. 2013

The Journal of Clinical Endocrinology & Metabolism

143

104

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Dopamine Receptor Expression and Function in Human Normal Adrenal Gland and Adrenal Tumors

Pivonello

Ferone

Herder

et al. 2004

The Journal of Clinical Endocrinology & Metabolism

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Dopamine is known to play a role in the modulation of aldosterone and catecholamine secretion from the adrenal gland, where dopamine receptors (DR), in particular the DR type 2 (D 2 ), have been found to be expressed. DR expression has also been demonstrated in some types of benign adrenal tumors.The aims of the current study were to evaluate DR expression and D 2 localization in the normal adrenal gland and in different types of benign and malignant adrenal tumors, as well as to evaluate the in vitro effects of the dopamine agonists bromocriptine and cabergoline on hormone secretion in nontumoral adrenal cells.Adrenal tissues from 25 patients, subjected to adrenal surgery for different diseases, were studied. These included three normal adrenals; five adrenal hyperplasias; four aldosteronesecreting, two cortisol-secreting, and two clinically nonfunctioning adrenal adenomas; two aldosterone-secreting, two cortisol-secreting, and two androgen-secreting adrenal carcinomas; and three pheochromocytomas. The dopaminergic system is known to regulate the reninangiotensin-aldosterone system (2). D 1 -like receptors are expressed in the renal juxtaglomerular apparatus, where D 1 -selective dopamine agonists stimulate renin secretion (3, 4). Both D 1 -and D 2 -like receptors have been reported to be expressed in the adrenal medulla, where they modulate catecholamine release (5-7). Conversely, DR expression and function in the normal adrenal cortex are still a matter of debate. Indeed, the administration of the D 2 antagonist

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