Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Breakdown of the blood aqueous barrier in the rabbit eye induces a protein leakage into the aqueous humor, seen as a flare in the anterior chamber. A barrier damage was induced by topical prostaglandin E2(PGE2), infrared irradiation of the iris, or alpha-melanocyte-stimulating hormone (alpha-MSH) given subcutaneously. The aqueous flare was measured quantitatively by means of a photoelectric instrument. The interference of adrenergic antagonists and agonists on the breakdown of the barrier was tested. The alpha-adrenergic antagonist phentolamine and the beta-adrenergic antagonist propranolol, given intravenously, had no effect on exogenously administered PGE2, but both antagonists reduced the flare response to infrared irradiation which is supposed to exert its effect via endogenous prostaglandin release. The alpha-MSH response was unaffected by phentolamine, whereas propranolol abolished the flare response to alpha-MSH totally. The PGE1 response was unaffected both by the alpha-adrenergic agonist noradrenaline and the beta-adrenergic agonist terbutalin sulfate, administered topically. Noradrenaline, however, inhibited the flare response to infrared irradiation and facilitated the flare response to alpha-MSH. Terbutalin sulfate worked synergistically with both infrared irradiation and alpha-MSH. It is assumed that alpha-MSH exerts its effect on the barrier via enhanced beta-adrenergic activity, whereas the effects caused by infrared irradiation seem conditioned by intact alpha- as well as beta-adrnergic receptor sites.
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PMID:Interaction of adrenergic agents with alpha-melanocyte-stimulating hormone and infrared irradiation of the iris in the rabbit eye. 19 23

The effects of somatostatin, cyclo(D-Trp-Lys-Thr-Phe-Pro-Phe) acetate, a somatostatin analog, neurotensin, and met-enkephalin were studied in the rabbit eye by measuring the intraocular pressure (IOP), aqueous humor protein concentration, ocular blood flow and the pupil diameter. Somatostatin or the analog injected intracamerally (10 micrograms/eye) and infused intra-arterially (0.6-4 micrograms/min) had no significant effect on the parameters studied in normal eyes. However, somatostatin and, particularly, the analog attenuated the miotic response to a standard nociceptive stimulus consisting of topical application of 1% neutral formaldehyde. The other component parts of the irritative response were not attenuated. Intracameral injection of 1-2 micrograms neurotensin caused vasodilation in the anterior segment of the eye, a slight increase in aqueous humor protein concentration, and some decrease in IOP. Intracameral injection of 1-50 micrograms met-enkephalin had no effect on the blood-aqueous barrier, IOP or the pupil diameter. Neither did this dose of met-enkephalin attenuate the miotic response to exogenous substance P. It seems likely that somatostatin and the somatostatin analog attenuate the miotic response to nociceptive stimuli by preventing the release of a substance, presumably substance P, from sensory nerves.
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PMID:Effects of somatostatin, a somatostatin analog, neurotensin and met-enkephalin in the eye with special reference to the irritative response. 290 80

The present investigation was designed to evaluate the effect of selected peptides on pupillary diameter and intraocular pressure (IOP) in rabbits. Intracameral (IC) administration of neurotensin (NT) in doses of 5-100 micrograms produced a significant, long lasting and dose-dependent decrease in pupillary diameter without affecting IOP. NT-induced miosis appears to be relatively specific because a variety of peptides including Gn-RH, somatostatin, met-enkephalin, bombesin, leu-enkephalin or NT1-6, (a biologically inactive N-terminal fragment of NT), produced no effect on pupillary diameter; only substance P produced miosis similar to NT when tested in a dose equimolar to 30 micrograms of NT. In addition, peripheral (intravenous) administration of NT (100 micrograms/kg) was equally ineffective. Inhibition of prostaglandin synthesis with indomethacin, did not prevent subsequent NT-induced miosis. Finally, IC administration of an effective dose of NT (30 micrograms) did not alter the protein concentration in the aqueous humor. These results indicate that NT-induced miosis is not mediated by endogenous prostaglandins and that this effect of NT does not appear to involve disruption of the blood-aqueous barrier, suggesting that NT may play a role in regulation of pupillary diameter.
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PMID:Intracameral administration of neurotensin induces miosis in the rabbit. 619 87

Suppression of immune-mediated inflammation within the normal anterior chamber (AC) of the eye is in part the result of active suppression of effector T cell activities by immunosuppressive cytokines found in aqueous humor (AqH), the fluid filling the AC. There are immunosuppressive factors found in the low m.w. fraction (< 5 kDa) of AqH, including the neuropeptide alpha-melanocyte-stimulating hormone (alpha-MSH). In seeking other factors, we now report that the neuropeptide vasoactive intestinal peptide (VIP) is also present in normal AqH. VIP immunoreactivity was found in normal rabbit eyes at a concentration of 12 +/- 1 nM. At this intraocular concentration, VIP suppressed Ag-stimulated lymph node cell (LNC) proliferation and IFN-gamma production in vitro. Although suppression of LNC proliferation was not neutralized by absorption of VIP from the low m.w. fraction of AqH, removal of VIP did neutralize suppression of IFN-gamma production by this fraction of AqH. Absorption of both VIP and alpha-MSH from this fraction of AqH permitted production of IFN-gamma by Ag-stimulated LNC that was no different than absorbing VIP alone. The low m.w. fraction of AqH absorbed of either alpha-MSH and VIP lost its ability to suppress local adoptive transfer of delayed-type hypersensitivity. The results suggest that VIP is an important immunosuppressive neuropeptide in AqH. Neuropeptides play an important role in ocular immune privilege and creation of an intraocular immunosuppressive microenvironment.
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PMID:Immunoreactive vasoactive intestinal peptide contributes to the immunosuppressive activity of normal aqueous humor. 802 41

Tetra-O-acetylgalactopyranosylamine and tetra-O-acetylglucopyranosylamine of D-Met2, Pro5 enkephalin were designed and synthesized to enhance their membrane penetration, biological activity and resistance to proteolytic hydrolysis. Three approaches to the synthesis were attempted, which lead to a new synthetic scheme with a higher yield and enhanced ease of purification. The improved procedure involved attaching the tetra-O-acetylglycopyranosylamine to a t-Boc-Gly-Phe-Pro-OH peptide, removing the t-Boc, and condensing it with t-Boc-Tyr-D-Met-OH. Biological evaluation in vivo showed that these acetylglycopyranosylamine derivatives bind to mu and delta opioid receptors in homogenate binding assays and possess analgesic activity. The analgesic potency was less than that of the parent compound D-Met2, Pro5 enkephalin. These acetylglycopyranosylamine derivatives showed enhanced lipophilicity compared to their parent compound by a partition coefficient study and they also showed greater membrane permeability, using the rabbit cornea as a model system. These derivatives also are resistant to hydrolytic enzymes as compared to the endogenous met-enkephalin when evaluated in homogenized iris-ciliary body and aqueous humor from rabbit eyes.
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PMID:Synthesis and antinociceptive activity of [D-Met2, Pro5] enkephalin [N1,5-beta-D-2,3,4,6-O-tetraacetylglycosyl]--amide and [D-Met2, Pro5] enkephalinamide. 934 51

Immune privilege in the eye is believed to originate from the eye's need to avoid the sight-destroying consequences of inflammation. Over the past 25 years, many of the anatomical, cellular, and molecular mechanisms by which the eye avoids inflammation secondary to adaptive immune responses have been elucidated. In the recent past, it has become increasingly clear that innate immune responses play a critical role in activating the adaptive immune response. Moreover, innate immunity itself carries a heavy burden of inflammation, thereby posing a threat to vision if it should occur intraocularly. Ocular immunologists have now begun to inquire into the extent to which the eye regulates the expression of innate immunity in oculi. Evidence is presented which indicates that factors found in normal aqueous humor (1) prevent NK cells from lysing their targets, (2) inhibit neutrophil activation by CD95 ligand, (3) suppress nitric oxide production by activated macrophages, and (4) interfere with complement activation via the alternative pathway. These factors include transforming growth factor-beta2, alpha-melanocyte-stimulating hormone, calcitonin gene-related peptide, and migration inhibitory factor. The ability of the eye to prevent intraocular activation of innate immune effectors spares the corneal endothelium (which expresses CD95 ligand constitutively, but low levels of MHC class I molecules) from destruction by NK cells and neutrophils, and protects the visual axis from distortion by macrophage and complement-mediated inflammation. Thus, privilege exists in the eye for both adaptive and innate immunity.
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PMID:Does innate immune privilege exist? 1077 Feb 79

Ocular immune privilege arises from interactions between the immune apparatus and the eye itself, thereby providing immune protection for the eye that is devoid of sight-threatening inflammation. On the one hand, antigens injected intraocularly elicit deviant systemic immune responses that are devoid of immunogenic inflammation (Anterior Chamber-Associated Immune Deviation, ACAID). On the other hand, the ocular microenvironment (aqueous humor, secreted by cells that surround this chamber) suppresses intraocular expression of immunogenic inflammation. Several lines of evidence indicate that ocular immune privilege is under neural control. First, aqueous humor contains neuropeptides (alpha-MSH, VIP, CGRP) that inhibit and alter the functional properties of T lymphocytes and macrophages. Second, when corneal nerves are severed, the tissues surrounding the anterior chamber cease secreting immunosuppressive factors and ACAID fails--until the nerves regrow. Third, light deprivation abolishes the capacity of the anterior chamber to support ACAID induction, a process that is sensitive to neuropeptides and melatonin. The photoreceptor(s) responsible for ACAID are connected to the nervous system and may reside in the anterior segment and/or the retina. Thus, neural elements from the central nervous system and within the eye help to shape both the induction and the expression of ocular immunity, thereby promoting immune privilege.
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PMID:Neural control of ocular immune privilege. 1126 57

We measured the concentration of beta-endorphin (beta-End) in plasma, as well as in aqueous humor and crystalline lens removed during cataract surgery. beta-End was detected both in the aqueous humor and in the crystalline lens. The concentration of beta-End in the aqueous humor corresponded to almost the half of the plasma level (2.18 fmol/l and 4.55 fmol/l). Endogenous beta-End is presumed to enter the intraocular structures by passive diffusion.
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PMID:Beta endorphin-like immunoreactivity in human aqueous humor and crystalline lens. 1131 40

Iris melanomas are less likely to metastasize than posterior compartment melanomas. The anterior chamber of the eye is an immunosuppressed microenvironment where a wide range of immunosuppressive factors in aqueous humor contribute to the immune privilege. One such factor is alpha-melanocyte-stimulating hormone, a potent anti-inflammatory neuropeptide that exhibits efficacy in many studies of acute and chronic inflammation. The aim of this study was to investigate whether the different metastatic behavior of iris melanomas versus posterior compartment melanomas might be explained by the differing immunosuppressive/anti-inflammatory environments of these tumors in vivo. To investigate this hypothesis, we studied the effect of human aqueous and vitreous fluids, of the proinflammatory cytokine tumor necrosis factor alpha, and of the anti-inflammatory peptides alpha-melanocyte-stimulating hormone and melanocyte-stimulating hormone 11-13 (KP-D-V) on the invasion of three human uveal melanoma cell lines through human fibronectin. Fresh aqueous humor samples significantly decreased the invasion in two out of three uveal melanoma cell lines. In contrast, vitreous humor did not reduce invasion. Tumor necrosis factor alpha significantly increased the invasiveness of uveal melanoma cell lines by approximately 50%-80% over 20 h. Full-length alpha-melanocyte-stimulating hormone, at concentrations present in the aqueous humor (10-9 M), as well as melanocyte-stimulating hormone 11-13 (KP-D-V) reduced the invasion of cells through human fibronectin by 45%-50% and also protected uveal melanoma cells from the pro-invasive actions of tumor necrosis factor alpha. These data are consistent with inflammation playing a major role in affecting the metastatic ability of uveal melanomas. Thus, ocular microenvironments that differ in their immunosuppressive/anti-inflammatory properties may influence the invasiveness of developing tumors.
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PMID:Tumor necrosis factor alpha increases and alpha-melanocyte-stimulating hormone reduces uveal melanoma invasion through fibronectin. 1292 15

Regulation of immunity within the immune-privileged ocular microenvironment is a dynamic interaction of anatomical features, factors, and cells that work toward suppressing the induction inflammation. Immunosuppressive neuropeptides found in aqueous humor are central to this immunoregulation. These neuropeptides are alpha-melanocyte-stimulating hormone, vasoactive intestinal peptide, calcitonin gene-related peptide, and somatostatin. Along with transforming growth factor-beta2, the neuropeptides target specific cells and pathways in innate and adaptive immunity. These aqueous humor factors prevent pathogen-induced inflammation and activation of Th1 cells, while promoting induction of regulatory T cells. Therefore, the ocular microenvironment, through the constitutive production of immunosuppressive factors found in aqueous humor, maintains immune privilege by manipulating regional innate and adaptive immunity away from inflammatory responses.
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PMID:A review of the influence of aqueous humor on immunity. 1470 95


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