Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 42-year-old woman had acromegaly and a large macroadenoma with supra- and parasellar extension. Her GH levels (median 85 ng/ml, range 63-170 ng/ml) were not responsive to TRH (200 micrograms iv), GHRH (100 micrograms iv) and bromocriptine (Br 2.5 mg po) acute tests; Sm-C level was 8 U/ml. She was treated with octreotide (SMS) (up to 1500 micrograms daily) for 3 months. No changes of clinical, biochemical and radiological findings were seen, therefore she underwent transsphenoidal surgery. After surgery, hypopituitarism and diabetes insipidus appeared: GH levels remained high (median 45 ng/ml; range 37-56 ng/ml), but became responsive to Br acute test. The patient was given SMS again, and this resulted in clinical improvement, marked reduction of GH and Sm-C levels and slight shrinkage of the residual tumor. Speculative hypotheses about this previously unreported phenomenon might be either an excess of both GHRH and somatostatin, caused by a primary increase of dopaminergic tone, or a primary excess only of GHRH; in both cases the surgical lesion of the hypothalamic-pituitary region might have impaired the neurohormones inflow to the residual pituitary and so let SMS and Br exert their inhibitory actions on GH secretion.
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PMID:Resistance to a long-acting somatostatin analog (SMS 201-995) reversed by surgery in acromegaly. 227 11

Acute and chronic hypopituitarism is associated with severe envenoming by the Burmese Russell's viper. We have demonstrated that in vitro, Burmese Russell's viper venom (0.1-10 micrograms/ml) causes a dose-dependent release of GH, TSH and ACTH from dispersed rat anterior pituitary cells in culture. At 10 micrograms/ml, venom causes a significant increase in the release of GH (344%, P less than 0.001), TSH (168%, P less than 0.005) and ACTH (greater than 700%, P less than 0.001). We have also shown that the component (or components) responsible for this stimulatory effect is stable to heat (60 degrees C, 1 h) and mild trypsinization. Repeated addition of venom (1 microgram/ml) to pituitary cells in a perifusion column system demonstrated attenuation of GH release. This reduced response was not due to depletion of the GH pool since the pituitary cells were subsequently able to respond to both GH-releasing factor (GRF) stimulation and KCl depolarization. Somatostatin in a dose which abolished GRF-stimulated GH release failed to affect venom-stimulated GH release, implying that venom acts in a cyclic AMP-independent manner. We conclude that Burmese Russell's viper venom has direct effects on pituitary hormone release in vitro. Whether these effects contribute to its known actions in vivo on the function of the pituitary remains to be established.
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PMID:Burmese Russell's viper venom causes hormone release from rat pituitary cells in vitro. 254 60

Acromegaly is caused by GH-secreting pituitary adenomas and, in rare cases, by ectopic production of GRH with resultant hypersecretion of GH. Important systemic manifestations include acral enlargement, swelling, disfigurement, glucose intolerance and diabetes, hypertension, nerve entrapment, arthropathy, and cardiac disease. Tumor-related major manifestations are visual impairment, oculomotor paralysis, and hypopituitarism. Morbidity is substantial, and mortality is increased. Diagnosis should be made as early as possible by measuring plasma GH after an oral glucose load and plasma somatomedin C levels. Assessment of a pituitary lesion is best made by CT scanning in the coronal plane. Therapy is mandatory and consists of surgical removal of the pituitary adenoma (usually by the transsphenoidal route) or of the ectopic source of GRH (carcinoids or islet cell tumors). Adjunctive radiation and/or drug therapy is often necessary if complete surgical ablation of the adenoma is not possible. Radiation therapy can be administered as conventional supervoltage x-ray treatment or in the form of heavy particle beams. Drugs effective in partially lowering GH levels are bromocriptine and (not yet released) somatostatin analogues. Long-term follow-up of treated patients is important to guard against recurrence, progression, or development of hypopituitarism.
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PMID:Acromegaly. 331 99

Acromegaly is a rare endocrine disorder characterized by growth hormone hypersecretion and is usually caused by a pituitary macroadenoma. It is associated with significantly increased patient morbidity and mortality. Molecular biological studies have implicated a causative role for oncogenic mutations (activating Gs alpha mutations and/or chromosomal 11q13 deletions) in less than 50% of cases. The cause(s) in the remaining 50% is speculative. Epidemiological evidence indicates that biochemical cure is achieved when mean GH levels are 5mU/l or less during a day-profile. This GH value correlates well with that required to normalize the serum IGF-1 concentration, a GH-dependent peptide which can be used to monitor the disease activity in acromegaly. Treatment must be carried out under the supervision of a dedicated endocrinologist and tailored to patients needs. The success of any treatment modality (surgery/pituitary irradiation/medical) depends on adenoma size and the extent of pretreatment GH hypersecretion. A combination of therapies is usually required to achieve satisfactory control of adenoma growth and GH hypersecretion. Octreotide, a synthetic analogue of native somatostatin, is particularly effective in controlling GH hypersecretion in this condition and the widespread introduction of a long-acting depot preparation is eagerly awaited. The development of true GH deficiency as a result of treatment is potentially worrying in view of its possible contribution to the increased incidence of cardiovascular mortality associated with hypopituitarism.
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PMID:Acromegaly: unravelling a complex disease. 758 Aug 62

In the past, pituitary tumours that produce one or more of the glycoproteins (TSH, LH, FSH and alpha subunit) were thought to be rare. However, using modern immunocytochemical and molecular biology techniques, these tumours are being recognized with increasing frequency. Many of these tumours produce glycoprotein alpha and beta subunits in addition to intact glycoproteins. Hormone production is often low compared with tumour size, and serum hormone levels may not be elevated in these patients. Tumours that produce the gonadotrophins (LH or FSH) or alpha subunit account for the majority of clinically non-functioning pituitary adenomas. They do not cause a specific clinical syndrome, and usually present with symptoms of a large mass lesion and/or hypopituitarism. Optimal treatment of these tumours is often difficult. The initial approach is usually transsphenoidal surgery, followed by radiation therapy if there are symptoms due to residual tumour. Medical therapy of gonadotrophin and alpha subunit tumours may include the use of dopamine agonists or somatostatin analogues, although neither has been shown to consistently decrease tumour size. Preliminary trials with experimental GnRH antagonists suggest that these agents may be useful as adjuvant therapy of gonadotrophin tumours. Tumours that produce TSH are rare. Patients present with hyperthyroidism, which is often misdiagnosed as Graves' disease, as well as with symptoms of a pituitary mass lesion. Almost all TSH tumours secrete excess amounts of free alpha subunit. Optimal treatment of these tumours includes transsphenoidal surgery, followed by radiation therapy for residual tumour. The somatostatin analogue octreotide is effective in reducing excess TSH secretion from these tumours, and causes a reduction in tumour volume in a significant minority of patients.
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PMID:Glycoprotein-secreting pituitary adenomas. 762 88

Two recent developments in the medical treatment of patients with pituitary disease are discussed. Conventional treatment for patients with acromegaly has been surgery and/or radiotherapy. Dopamine agonist therapy may be useful. Somatostatin is a naturally occurring neuropeptide that inhibits growth hormone (GH) secretion. The development of long-acting preparations has resulted in a considerable advance in the medical treatment of acromegaly, though some caution remains about the long-term side-effects of such therapy (e.g. cholelithiasis) and its cost/benefit analysis. Although further epidemiological studies are required, hypopituitarism appears to be associated with an increased mortality rate, and this has largely been attributed to GH deficiency. With the widespread availability of recombinant GH (thereby circumventing any risks from cadaveric GH) many adult GH-deficient patients are now being treated. Beneficial effects on body composition, nitrogen and calcium balance and bone mass have already emerged, although studies on 'well being' have been conflicting. The debate continues concerning the minimum effective dose and who exactly should be treated, in view of the costs incurred. The endocrinologists' use of long-acting somatostatin analogues and recombinant GH will undoubtedly increase over the next few years. Whilst it is clear that many patients with both acromegaly and hypopituitarism will benefit, long-term controlled trials are still required to establish firmly the benefit in terms of major morbidity.
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PMID:Advances in medical therapy for pituitary disease: treating patients with growth hormone excess and deficiency. 810 42

Somatotropin- and thyrotropin-secreting adenomas are well known for positive uptake of radio-labeled octreotide in vivo, this fact is not so well assessed for gonadotropin-secreting adenomas (GSA). We report one case of positive somatostatin receptor scintigraphy in a woman suffering from histologically proven GSA. This 63 year old patient has been suffering for two years of akinetic syndrome when the outcome of diplopia led to the discovery of a large hypophyseal tumor spreading till V3 floor and in left cavernous sinus by resonance magnetic imaging (RMI). Clinical examination showed anterior hypopituitarism and bitemporal hemianopsia. Biologically, blood gonadotropins were decreased more on LH (0.6 UI/l, N > 15) than on FSH (10 UI/l; N > 20). A lack of response of gonadotropins to LHRH with low blood estradiol concentration (< 10 pg/ml) was noticed. Basal blood measurement of alpha subunit was at 0.17 microgram/l (N = 0.10-1.6) and increased at 0.39 microgram/l after stimulation by LHRH. Although in low range of normal values, other hypophyseal hormones were normal except prolactinemia (45 mg/L; N < 20), however stimulated by TRH and related to dopaminergic deconnection; Indium 111 labeled octreotide scintigraphy showed an over uptake of the tumor. Three month treatment by octreotide (100 micrograms x 3/day subcutaneously) did not allow to decrease significantly FSH concentration or to reduce the tumoral mass. Incomplete removal of the tumor was performed by transphenoidal route. Immunohistochemical analysis revealed positive immunostaining for alpha subunit and FSH beta on numerous cells while the labeling was slightly less strong for LH beta. These data evoked a GSA. This case record depicts the possibility of detection of GSA by somatostatin receptor imaging. However a positive result does not preclude of somatostatin analog therapeutic efficiency.
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PMID:[Gonadotropi adenoma linking labeled somatostatin analogs. Lack of relationship with therapeutic effect]. 894 16

We present our experience in the treatment of growth hormone (GH)-producing pituitary adenomas using irradiation alone. Between 1983 and 1991, 21 patients suffering from GH-secreting pituitary adenomas were treated with radiotherapy alone. Two bilateral opposing coaxial fields were used in 10 patients and in the remaining 11 a third frontovertex field was added. Treatment was given in 1.8-2 Gy daily fractions and total dose ranged between 45 and 54 Gy. Treatment was given using a cobalt unit. Four patients treated with somatostatin prior to and 14 patients treated after the end of radiotherapy experienced symptom relief for 6-28 weeks. The 5-year actuarial rate of disease control was 72%. Five out of six failed patients had macroadenomas. Hypopituitarism was observed in 5/21 (24%) patients. Whereas RT alone is effective in the treatment of microadenomas, this is not true for large infiltrative macroadenomas.
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PMID:Radiation therapy alone for growth hormone-producing pituitary adenomas. 957 61

We are fortunate to have multiple safe and effective therapeutic options available for the treatment of pituitary tumors. These options include medical therapy, transsphenoidal surgery and radiotherapy. The treatment of choice depends on the type of pituitary tumor. The majority, of PRL-secreting tumors can be effectively treated with dopamine agonists. Transsphenoidal surgery is also an effective option for patients who are resistant to or intolerant of these drugs. Transsphenoidal surgery remains the treatment of choice for the majority of patients with GH, ACTH, and TSH-secreting tumors and for large nonsecreting tumors. Medical therapy with somatostatin analogs and/or dopamine agonists should be undertaken in patients with persistent elevations of GH and IGF-I levels; radiotherapy should be considered for patients with significant residual tumor in whom medical therapy is unsuccessful. Radiotherapy is also indicated for ACTH-secreting tumors not cured by surgery; medical therapy with ketoconazole and other adrenal enzyme inhibitors can be used as adjunctive therapy to lower cortisol levels. Postoperative radiotherapy for nonsecreting tumors is also an option if there is considerable residual tumor or evidence of tumor growth on follow-up MRI. Evaluation and treatment of hypopituitarism is an important part of the management of all patients with pituitary tumors. Patients also should be monitored for the development of new deficits, particularly after radiotherapy. The development of new medical therapies, such as GH antagonists, as well as refinements of surgical, radiotherapy, and imaging techniques should continue to improve our management of pituitary tumors.
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PMID:Clinical review 110: Diagnosis and treatment of pituitary tumors. 1056 20

Pituitary diseases are relatively common entities in the general population. They include pituitary adenomas and hypopituitarism. Pituitary tumours can cause symptoms of mass effect and hormonal hypersecretion that can be reversed with surgical resection or debulking of the adenoma, radiotherapy, or medical treatment. Transsphenoidal adenomectomy is the treatment of choice for acromegaly, Cushing's disease, gonadotropin-secreting tumours; and thyrotropin (TSH)-secreting adenomas. Pituitary irradiation and medical therapy are secondary options. Conversely, medical treatment is the primary choice for prolactinomas. Dopamine agonists are very effective in the treatment of prolactin (PRL)-secreting tumours, with rates of control as high as 80 to 90% for microprolactinomas (< 10 mm) and 60 to 75% for macroprolactinomas (> or = 10 mm). Somatostatin analogues have also shown efficacy in patients with acromegaly who have not responded to surgery or in patients with TSH-secreting adenomas who have not improved with surgery and radiotherapy. In patients with Cushing's disease, who are not cured surgically or who relapse after pituitary adenomectomy and irradiation, steroidogenic inhibitors can be an efficient method of controlling the hypercortisolism. Pituitary insufficiency is the partial or complete loss of the anterior hypophyseal function, which is due to hypothalamic or pituitary disease. Although the classic sequence of loss of pituitary secretion is growth hormone (GH), gonadotropins, TSH, and corticotropin (ACTH), the order to begin the replacement therapy of the deficient hormone(s) is cortisol, thyroxine, androgens/estrogens and, if necessary, GH. There are multiple preparations that can be used to achieve clinical and biochemical improvement. In general, the hormone replacement therapy is lifelong.
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PMID:Pituitary disorders. Drug treatment options. 1071 1


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