UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Somatostatin (SRIF) receptors are present in a variety of human tumors such as pituitary and endocrine pancreatic tumors, brain tumors, small cell lung cancers and malignant breast tumors. The 111In-labeled SRIF analog SDZ 215-811 (OctreoScan 111) binds with a high affinity to somatostatin receptors and exhibits SRIF-like biological properties, as demonstrated by the inhibition of growth hormone release from pituitary cells. We report here the in vitro characterization of SDZ 215-811 and the in vivo imaging of an islet cell tumor grown in rats using [111In]SDZ 215-811. In vitro autoradiographies revealed a high density of SRIF receptors on the pancreatic tumor tissue. As early as 5 min after intravenous injection of [111In]SDZ 215-811 into tumor-bearing rats, the tumors were clearly localized by gamma-camera scintigraphy. Even 24 h post injection, the islet cell tumor was still detectable. The radioligand was mainly cleared from the circulation via the kidneys, with a rapid alpha-phase (t1/2 = 5.6 min) and a slow elimination phase (t1/2 = 7.3 h). Biodistribution studies revealed a relatively high accumulation of radioactivity in the kidneys, but low uptake into the liver and the intestine. High uptake of [111In]SDZ 215-811 was observed for the tumor tissue (0.92 +/- 0.07% ID/g; 1 h post injection). Interestingly, a tumor load of 0.14 +/- 0.01% ID/g was still measured after 24 h. The tumor/blood ratio was 4.93 after 24 h, indicating specific accumulation of radioactivity in the islet cell tumor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:OctreoScan 111 for imaging of a somatostatin receptor-positive islet cell tumor in rat. 839 88

Carcinoids may express Somatostatin receptors. Therefore, a Somatostatin-analogue, In-111 Octreotide (OctreoScan), was used for their demonstration. A total of 6 patients who presented with radiologically verified carcinoid-metastases was examined. In order to control tumor progress, 4 of these patients were reexamined within a period of 3 to 11 months. All of the radiological findings were confirmed scintigraphically, except some small retroperitoneally located lymph nodes. The follow-up examinations of 2 patients revealed additional metastases by scintigraphy only. There were no false positive results. The results of OctreoScan scintigraphy may be used for predicting the success of receptor-specific therapies and therefore, permit the rational and efficient application of Sandostatin.
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PMID:[Primary and follow-up studies of patients with carcinoid metastases using indium 111 octreotide--rational use of Sandostatin]. 847 79

Somatostatin analogue scintigraphy represents a new technique employing radiolabelled peptides to detect specific receptor-bearing lesions. 111Indium diethylene-triaminopentaacetic acid-linked octreotide (111In-DTPA-D-Phe1-octreotide), also known as [111In]pentetreotide or OctreoScan, is now established in the management of patients with neueroendocrine gastrointestinal tract and pancreatic tumours, and has proved effective in localizing disease sites in lung, breast and medullary thyroid carcinomas, lymphomas, meningiomas and others. In these conditions (a) the imaging of all disease sites at a single sitting (in a proportion of patients) thereby making further investigations unnecessary, (b) the localization of otherwise unexpected metastatic deposits and (c) the detection of residual disease not found by other means suggest that [111In]pentetreotide may be a useful adjunct in the diagnostic evaluation of patients with somatostatin receptor-bearing tumours.
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PMID:Radiolabelled somatostatin analogue scintigraphy in oncology. 882 83

Somatostatin receptors (SR) are surface markers characterizing not only APUDomas associated with neuroendocrine identities but also malignancies without neuroendocrine expression. Recently, the somatostatin analog pentetreotide was labeled with In-111 (OctreoScan 111, Mallinckrodt Medical BV, Petten, Holland) and introduced for the in vivo visualization in man of SR-positive tissues. In the present report, SR-specific scintigraphy is evaluated as a clinical tool for tissue characterization in correlation with histological and radiological examinations. Scintigraphy was focused and performed in cancer types without neuroendocrine tissue expression such as brain (n = 6) and breast tumors (n = 9) and lymphomas (n = 5). Scintigraphy was performed for comparison at 6 and 22 h after i.v. application of 111 MBq (3 mCi) of In-111-Pentetreotide. In the breast cancer group, the primary tumor was visualized in all 9 women as well as in all 4 cases with palpable axillary lymph nodes. Three women with a negative axillary node scan and impalpable nodes had positive biopsy. In two cases, mediastinal lymph node involvement was observed. So far the role of SR-positive breast cancer (BC) scans remains unknown. It is tempting to speculate that in resected women who are histologically and scintigraphically SR positive, it might be of value in the early detection of symptom-free recurrences. High densities of SR were present within both meningiomas, the high-grade astrocytoma and the craniopharyngioma. Differentiation of low- and high-grade astrocytomas could not be successfully achieved because both grades showed intense radioactivity uptake, even though high-grade tumors lack SR. The latter might be due to the damaged blood-brain barrier and the poor radioactivity washout observed in high-grade astrocytomas. All five lymphomas could be detected due to the presence of activated lymphocytes and macrophages that express SR at a sufficient density. In conclusion, SR scintigraphy in non-neuroendocrine malignancies does not seem to be reliable for an initial tumor staging but rather more suitable for a tissue characterization and extremely useful for monitoring changes of SR expression after treatment.
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PMID:Receptor scintigraphy of non-neuroendocrine cancers with In-111 pentetreotide. 908 40

Thyroid associated ophthalmopathy (TAO) is a disorder involving the soft tissues and extraocular muscles of the orbit seen mainly in cases of Graves' disease. Although an immunogenic pathogenesis has been proposed, the actual mechanisms of the in vivo retrobulbar involvement are not well defined. The recent introduction of the 111In-labeled somatostatin analog, octreotide, which can bind in vivo to the cell membrane of activated lymphocytes expressing somatostatin receptors, has provided a new investigational tool for diseases with a presumed immunological background. Based on this property, octreotide scans can be expected to be positive in cases of immunological disease showing tracer accumulation within affected sites. The aim of this study was to evaluate the utility of scintigraphic imaging with octreotide of the retrobulbar space in cases of TAO, including sequential studies of patients undergoing immunosuppressive therapy. We studied a series of 51 patients who had Graves' disease with varying degrees of TAO. Nine patients had received immunosuppressive therapy. The degree of orbital inflammation was classified according to the clinical activity score of Mourits. Both planar and tomographic imaging of the orbit were carried out using 111 MBq of the 111In-labeled octreotide (OctreoScan) 2 h after tracer injection. A significant tracer accumulation in the retrobulbar space was seen in all 20 patients with a high activity score, in 8 of 16 cases with a negative score, and in 11 of 20 cases with an intermediate Mourits' score. In cases of persistent eye disease in spite of immunosuppressive therapy, the octreotide scan remained positive. Successful therapy either with prednisolone, external radiation, or i.v. immunoglobulins showed a significant diminution of tracer uptake after finishing the therapeutic regime. Three-dimensional reconstruction of the images also revealed a significant tracer accumulation in the areas of the lacrimal gland, the nasal region, and the pituitary. Controls cases (n = 30) showed no uptake in the orbital region. We conclude that 111In octreotide scintigraphy is an objective method that identifies patients with active inflammatory eye disease, i.e., having significant tracer uptake in the retrobulbar space. This uptake appears to reflect an immunological process, since immunosuppressive therapy will significantly decrease tracer accumulation.
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PMID:Evaluation of immunological mechanisms mediating thyroid-associated ophthalmopathy by radionuclide imaging using the somatostatin analog 111In-octreotide. 934 89

In-111 pentetreotide is a new radiolabelled [OctreoScan 111, Mallinckrodt Medical BV, Petten] somatostatin analog with high affinity to somatostatin receptors (SR). introduced for the in vivo imaging of SR positive tissues. In an attempt to evaluate its clinical usefulness for tissue characterization in malignancies without neuroendocrine expression in parallel with histological and radiological examinations, specific scintigraphy was performed on brain (6 cases), thyroid (6 cases) and breast (9 cases) tumors, and in lymphomas (9 cases) and melanomas (6 cases). A dose of 111MBq of In-111 pentetreotide was injected i.v. to each patient and scintimages at 6 and 22 hours (for comparison) p.i. were obtained. The primary lesion of the breast cancer population was imaged in all 9 cases as well as all the palpable axillary nodes in 4 cases. Three women with impalpable axillary lymph nodes scanned negative but had a positive biopsy. Both meningiomas were positive for SR scans: positive results were also obtained for the high grade astrocytoma and the craniopharyngioma: Two out of 6 patients with papillary thyroid cancer showed a marked radiotracer accumulation. Scintigraphy in all 5 lymphomas was positive for SR but did not detect the Tc-99m sulphur microcolloid [Lymphoscint, Solco, Basel, Suitzerland] imaged lymph nodes in 5 melanomectomized patients. When judging the imaging results of these non-neuroendocrine malignancies definite conclusions should not be drawn since the number of studied cases polymorph, was small for every cancer histotype; nevertheless SR scintigraphy does not seem to be reliable for tumor staging in non-neuroendocrine malignancies, but is more suitable for a tissue characterization and monitoring changes of SR expression during and after therapy.
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PMID:Somatostatin receptor scintigraphy of non-neuroendocrine malignancies with 111In-pentetreotide. 917

An investigation into the in vitro behaviour of two yttrium-90-labelled somatostatin analogues was performed. Further in vivo characterisation was performed with the most promising agent. A new DTPA-octreotide analogue (Bz-DTPA-oct) was synthesised by coupling a bifunctional DTPA chelator to the N-terminal amine of the D-Phe1 of Tyr3-octreotide. This new SRIF analogue and DTPA-octreotide (OctreoScan) were radiolabelled with 90Y prior to serum stability being evaluated. Receptor binding assays were also performed on the two radioligands using rat cortex membranes. The [90Y]-Bz-DTPA-oct was further evaluated in vivo using tumour-bearing rats. The first conjugate (DTPA-octreotide) bound with a high affinity to SRIF receptors and the 90Y complex was relatively stable in human serum (t1/2 3.8 d for 90Y lost to serum proteins). The second conjugate (Bz-DTPA-oct) also exhibited a high binding affinity to SRIF receptors, but it demonstrated an even slower loss of 90Y to serum proteins (t1/2 12.1 d). The in vivo evaluation of the more stable [90Y]-Bz-DTPA-oct showed a very rapid and high accumulation in somatostatin receptor-positive tumours, which after 1 h resulted in tumour/nontumour ratios of 3.8, 21, and 4.9 (for blood, muscle, and liver, respectively). These tumour/nontumour ratios increased, and were by 24 h postinjection 138, 285, and 6.1 (for blood, muscle, and liver). Yttrium-90-labelled Bz-DTPa-oct is rapidly and selectively accumulated in somatostatin receptor-positive tissue. Octadentate Bz-DTPA-oct could be ligand for 90Y radiotherapy of somatostatin receptor-positive tumours and their metastases.
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PMID:Synthesis and characterisation of [90Y]-Bz-DTPA-oct: a yttrium-90-labelled octreotide analogue for radiotherapy of somatostatin receptor-positive tumours. 962 Jun 21

On the basis that melanomas are of neural crest origin and might contain somatostatin receptors, the authors utilized 111In Pentetreotide (OctreoScan) to image 16 melanoma patients with known sites of disease. Twelve of 16 patients were positive with 38 percent imaging all sites. No lesion less than 1.5 cm imaged nor did one ocular and one amelanotic melanoma. Of the five described somatostatin receptors, OctreoScan binds only 2 and 5 suggesting that not all melanomas contain those receptors. It is concluded that melanomas contain somatostatin receptors and that this property might be used for imaging, tumor suppression with Octreotide, and/or as a target for Octreotide labelled with therapeutic agents such as immune complexes, chemotherapeutic agents or high energy radioisotopes.
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PMID:The current status of somatostatin receptors in malignant melanoma. 982 84

The clinical importance of somatostatin type-2 receptors (SSTR2) and the study of novel analogues of somatostatin such as OctreoScan or [Tyr3]-octreotide containing DOTA (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) as metal chelator led us to develop a methodology to monitor the expression of SSTR2 on tumours of pancreatic origin (e.g. rat AR4-2J cancer cells). Usual binding assay protocols using the commercial [125I][Tyr1]-somatostatin radioligand failed, even in the presence of a cocktail of protease inhibitors with a broad spectrum of activity, possibly due to the high susceptibility of this tracer to proteases expressed in pancreatic cells. We prepared our own radioligand [125I][Tyr2]-octreotide which was shown to be much more resistant to degradation after incubation with AR4-2J plasma membranes. As expected, the increased stability of [125I][Tyr3]-octreotide was associated with good binding to SSTR2. Addition of appropriate protease inhibitors further increased the specific binding of [125I][Tyr3]-octreotide to AR4-2J plasma membranes without affecting the stability of the tracer, suggesting that the protease inhibitors also protect the integrity of SSTR2. Optimal conditions (time, temperature, medium) were developed for a binding assay in 96-well plates using AR4-2J plasma membranes in order to make the assay suitable for high-throughput analysis. This protocol was the basis for studying the in vivo regulation of SSTR2 expression in AR4-2J cells implanted into scid mice after exposure to different compounds.
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PMID:A microplate binding assay for the somatostatin type-2 receptor (SSTR2). 1007 56

Receptor targeting with radiolabeled peptides has become very important in nuclear oncology in the past few years. The most frequently used peptides in the clinic are analogs of somatostatin (SRIF), e.g. OctreoScan, which contain chelators for the radioisotopes 111In, 86Y, 90Y, 67Ga, 68Ga and 64Cu or for 99mTc and 188Re. and were labelled with the halogens 123I and 18F. Radiolabeled analogs of &alpha-melanocyte-stimulating hormone (&alpha-MSH), neurotensin, vasoactive intestinal peptide (VIP), bombesin (BN), substance P (SP) and gastrin/cholecystokinin (CCK) are also being developed, evaluated in vitro and in vivo and tested for clinical application. This review focuses on the expression in tumors and the regulation of receptors for these neuropeptides as well as the development of novel chelator-peptide conjugates suitable for in vivo scintigraphy or internal radiotherapy. The state of the art of radiopeptide pharmaceuticals is illustrated with four SRIF analogs, modified with the macrocyclic chelator 1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid (DOTA): [D-Phe1]-octreotide (DOTAOC), [D-Phe1, Tyr3]-octreotide (DOTATOC), vapreotide (DOTAVAP) and lanreotide (DOTALAN). DOTA is almost a universal chelator capable of strongly encapsulating hard metals such as 111In and 67Ga for Single Photon Emission Tomography (SPET), 68Ga, 86Y and 64Cu for Positron Emission Tomography (PET) as well as 90Y for receptor-mediated radionuclide therapy and radiolanthanides which exhibit different interesting decay schemes. From biodistribution studies in experimental animals and from clinical data it is concluded that DOTATOC is currently the most suitable SRIF radiopeptide with the best potential in the clinic.
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PMID:Receptor targeting for tumor localisation and therapy with radiopeptides. 1091 Oct 25

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