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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Proliferative retinopathies account for the majority of cases of vision loss throughout the world. Currently accepted therapy for retinopathy consists of retinal ablation by panretinal laser photocoagulation or cryotherapy. This technique is not without deleterious effects to patients, including diminished night vision, reduced peripheral vision and loss of precise vision, decreasing visual acuity by one to two lines in magnitude. One promising area of research into pharmacotherapeutics for retinopathies, especially proliferative diabetic retinopathy, involves the use of synthetic analogues of
somatostatin
. The rationale for
somatostatin
as a therapeutic agent for retinal neovascularization is discussed.
Somatostatin
analogues such as octreotide have shown promise as a safe and effective treatment for severe proliferative diabetic retinopathy by blocking the local and systemic production of growth hormone and insulin-like growth factor type 1 associated with angiogenesis and endothelial cell proliferation. There are also observations suggesting an autocrine and paracrine effect of
somatostatin
, perhaps directly on retinal cells, which are known to express
somatostatin
receptors (SSTR). SSTR2 and SSTR3 are the most important receptor subtypes mediating growth hormone secretion and endothelial cell cycle arrest, retinal endothelial cell apoptosis and release of insulin. Thus, analogues that target these receptor subtypes may prove more useful. Long-acting
somatostatin
analogues are currently being tested for treatment of diabetic retinopathy and are, in fact, the only therapeutic alternative for patients who fail panretinal photocoagulation. Whether such a therapy may also prove effective for other retinal vascular proliferative diseases such as
retinopathy of prematurity
and age-related macular degeneration remains an open question that deserves attention, given our new understanding of the cellular and molecular mechanisms by which
somatostatin
may exert its antiangiogenic effects.
...
PMID:Somatostatin analogues as drug therapies for retinopathies. 1258 62
Neovascularization stimulated by IGF-1 mediated induction of vascular endothelial growth factor (VEGF) is one of the leading causes of blindness in humans. It plays a central role in the pathogenesis of proliferative diabetic retinopathy (DR), neovascular glaucoma, exudative age-related macular degeneration (AMD) and
retinopathy of prematurity
. Neovascularization is a multi-step process that involves complex interactions of a variety of mitogenic factors such as VEGF and IGF-I which are produced locally in the human eye by a variety of cells including retinal pigment epithelial (RPE) cells, retinal capillary pericytes, endothelial cells, Mueller cells and ganglion cells. We hypothesized that
somatostatin
would inhibit the IGF-1 signal transduction pathway in RPE cells, resulting in decreased VEGF production. We have observed expression of somatostatin receptor protein in retinal pigment epithelial (RPE) cells of the human eye using immunohistochemistry and have confirmed expression of
somatostatin
receptors in cultured human RPE cells using reverse transcriptase-PCR. IGF-1 induced a dose dependent increase in IGF-1R phosphorylation and in VEGF mRNA levels in cultured human RPE cells.
Somatostatin
and octreotide, a
somatostatin
analogue, inhibited IGF-1 receptor (IGF-1R) phosphorylation and decreased VEGF production. Both IGF-1R phosphorylation and accumulation of VEGF mRNA were inhibited by physiological levels of
somatostatin
and octreotide (1 nM). These results demonstrate
somatostatin
and octreotide mediated attenuation of both IGF-1R signal transduction and VEGF mRNA accumulation via somatostatin receptor type 2 (sst2). Furthermore, these data suggest a rationale for the use of octreotide as a prophylactic and therapeutic option in disease states that cause ocular neovascularization.
...
PMID:Somatostatin inhibits IGF-1 mediated induction of VEGF in human retinal pigment epithelial cells. 1538 Oct 31
We previously documented protein kinase CK2 involvement in retinal neovascularization. Here we describe retinal CK2 expression and combined effects of CK2 inhibitors with the
somatostatin
analog octreotide in a mouse model of oxygen-induced retinopathy (OIR). CK2 expression in human and rodent retinas with and without retinopathy and in astrocytic and endothelial cultures was examined by immunohistochemistry, Western blotting, and reverse transcriptase-polymerase chain reaction. A combination of CK2 inhibitors, emodin or 4,5,6,7-tetrabromobenzotriazole, with octreotide was injected intraperitoneally from postnatal (P) day P11 to P17 to block mouse OIR. All CK2 subunits (alpha, alpha', beta) were expressed in retina, and a novel CK2alpha splice variant was detected by reverse transcriptase-polymerase chain reaction. CK2 antibodies primarily reacted with retinal astrocytes, and staining was increased around new intraretinal vessels in mouse OIR and rat
retinopathy of prematurity
, whereas preretinal vessels were negative. Cultured astrocytes showed increased perinuclear CK2 staining compared to endothelial cells. In the OIR model, CK2 mRNA expression increased modestly on P13 but not on P17. Octreotide combined with emodin or 4,5,6,7-tetrabromobenzotriazole blocked mouse retinal neovascularization more efficiently than either compound alone. Based on its retinal localization, CK2 may be considered a new immunohistochemical astrocytic marker, and combination of CK2 inhibitors and octreotide may be a promising future treatment for proliferative retinopathies.
...
PMID:Expression of protein kinase CK2 in astroglial cells of normal and neovascularized retina. 1665 37
In mouse retinal explants, octreotide, a
somatostatin
[somatotropin release-inhibiting factor (SRIF)] receptor 2 (sst(2)) agonist, prevents the hypoxia-induced vascular endothelial growth factor upregulation. In mice with oxygen-induced retinopathy (OIR), a model of
retinopathy of prematurity
, either sst(2) overexpression or octreotide have been found to limit hypoxia-induced angiogenic processes. Here, we investigated whether sst(2) influences retinal degeneration in response to hypoxia in wild-type (WT), sst(1)- and sst(2)-knockout (KO) mice. In retinal explants, we determined the role of sst(2) on apoptotic signals. In control condition, caspase-3 activity and the Bax/Bcl-2 ratio were lower in sst(1)-KO than in WT, but higher in sst(2)-KO than in WT retinas. In all strains, a comparable increase in caspase-3 activity and the Bax/Bcl-2 ratio was observed after hypoxia. The hypoxia-induced increase in apoptotic signals was recovered by octreotide in both WT and sst(1)-KO retinas. To investigate the role of sst(2) on retinal function, we recorded electroretinogram (ERG) in response to light flashes in OIR mice. ERG responses did not differ between WT and KO mice with the exception of oscillatory potentials (OPs) which, in sst(1)-KO mice, displayed much larger amplitude. In all strains, hypoxia drastically reduced a-, b-waves and OPs. In both WT and sst(1)-KO mice, octreotide recovered a- and b-waves, but did not recover OPs in sst(1)-KO mice. Neither apoptotic signals nor ERG was affected by octreotide in sst(2)-KO mice. These results show that sst(2) may protect retinal cells from hypoxia, thus implementing the background to establish potential pharmacological targets based on sst(2) pharmacology.
...
PMID:Protective role of somatostatin receptor 2 against retinal degeneration in response to hypoxia. 2231 50
