1,721,022 research outputs found
Monitoring opioid receptor dimerization in living cells by bioluminescence resonance energy transfer (BRET)
No full textBioluminescence resonance energy transfer (BRET) is a natural phenomenon that has been successfully applied for the study of protein–protein interactions, including opioid receptor oligomers. The discovery of opioid receptor homomers and heteromers has brought to the fi nding of new functions and new way of signaling and traffi cking; therefore, opioid receptor oligomers may be considered as novel drug targets. Fusing receptors of interest with Renilla luciferase and with a fl uorescent protein (such as EYFP), it is possible to study opioid receptor dimerization using BRET
Mapracorat, a novel non-steroidal selective glucocorticoid receptor agonist for the treatment of allergic conjunctivitis
No full textGlucocorticoids are used to treat chronic and severe forms of allergic conjunctivitis. Although they exert a rapid and powerful therapeutic activity, relevant side effects may limit their ocular use: increase of intraocular pressure, cataract formation and reduced resistance to infections. New glucocorticoids displaying the same potency of classical glucocorticoids but with fewer adverse effects are needed for the treatment of ocular disorders. Mapracorat (also known as ZK245186 or BOL-303242-X) is a novel non-steroidal selective glucocorticoid receptor agonist that is in the first phases of clinical evaluation (Phase II Clinical trials) for topical treatment of inflammatory skin and ocular disorders. Mapracorat binds selectively to human glucocorticoid receptor and displays powerful anti-inflammatory effects. In experimental models of ocular diseases, mapracorat reduces clinical symptoms, eosinophil recruitment, chemokines and pro-inflammatory cytokines production at ocular level, confirming that it acts preventing both the early and late phase of allergic response. Interestingly, mapracorat induces a lower increase of intraocular pressure in comparison to the classical glucocorticoid dexamethasone. Several clinical trials are ongoing to investigate the efficacy and safety of mapracorat for the treatment of several ocular diseases. Transrepressive mechanisms are thought to account for the majority of mapracorat's antiinflammatory effects; however, the induction of anti-inflammatory proteins likely involved in transactivation events may contribute to mapracorat-mediated anti-inflammatory properties and deserve to be further investigated in suitable in vivo and in vitro models. These observations may influence how novel "differential" ligands are discovered, identified and evaluated
Role of nociceptin/orphanin FQ in thermoregulation
No full textNociceptin/Orphanin FQ (N/OFQ) is a 17-amino acid peptide that binds to the nociceptin receptor (NOP). N/OFQ and NOP receptors are expressed in numerous brain areas. The generation of specific agonists, antagonists and receptor-deficient mice or rats has enabled progress in elucidating the biological functions of N/OFQ. These tools have been employed to identify the biological significance of the N/OFQ system and how it interacts with other endogenous systems to regulate several body functions. The present review focuses on the role of N/OFQ in the regulation of body temperature and its relationship with energy balance. Critical evaluation of the literature data suggests that N/OFQ, acting through the NOP receptor, may cause hypothermia by influencing the complex thermoregulatory system that operates as a federation of independent thermoeffector loops to control body temperature at the hypothalamic level. Furthermore, N/OFQ counteracts hyperthermia elicited by cannabinoids or μ-opioid agonists. N/OFQ-induced hypothermia is prevented by ω-conotoxin GVIA, an N-type calcium channel blocker. Hypothermia induced by N/OFQ is considered within the framework of the complex action that this neuropeptide exerts on energy balance. Energy stores are regulated through the complex neural controls exerted on both food intake and energy expenditure. In laboratory rodents, N/OFQ stimulates consummatory behavior and decreases energy expenditure. Taken together, these studies support the idea that N/OFQ contributes to the regulation of energy balance by acting as an “anabolic” neuropeptide as it elicits effects similar to those produced in the hypothalamus by other neuropeptides such as orexins and neuropeptide
Evaluation of New β -Lactam Derivatives’ Effects on α4β1 and αMβ2 Leukocyte Integrin-Mediated Immune Cells Activation and Migration
No full textα4β1 integrin targeting ligands for selective antineoplastic drug delivery in cancer cells
No full textEditorial: Integrin Ligands and Their Bioconjugate Systems: Synthesis, Conformation, and Biological Activity
Full text linkCan integrin agonists have cards to play against cancer? A literature survey of small molecules integrin activators.
Full text linkThe ability of integrins to activate and integrate intracellular communication illustrates the potential of these receptors to serve as functional distribution hubs in a bi-directional signal transfer outside-in and inside-out the cells. A tight regulation of the integrin signalling is paramount for normal physiological functions such as migration, proliferation, and differentiation and a misregulated integrin activity could be associated with several pathological conditions. Because of the important roles of integrins and their ligands in biological development, immune responses, leukocyte traffic, haemostasis, and cancer, their potential as therapeutic tools is now widely recognized. Nowadays extensive efforts have been made to discover and develop small molecule ligands as integrin antagonists whereas less attention has been payed to agonists. In recent years, it has been recognized that integrin agonists could open up novel opportunities for therapeutics, which gain benefits to increase rather than decrease integrin-dependent adhesion and transductional events. For instance, a significant factor in chemo-resistance in melanoma is a loss of integrin-mediated adhesion; in this case, stimulation of integrin signalling by agonists significantly improved the response to chemotherapy. In this review, we overview results about small molecules which revealed an activating action on some integrins, especially those involved in cancer, and to examine from a medicinal chemistry point of view their structure and behavior
Conjecturing about Small-Molecule Agonists and Antagonists of α4β1 Integrin: From Mechanistic Insight to Potential Therapeutic Applications
Full text linkIntegrins are heterodimeric cell-surface receptors that regulate cell–cell adhesion and cellular functions through bidirectional signaling. On the other hand, anomalous trafficking of integrins is also implicated in severe pathologies as cancer, thrombosis, inflammation, allergies, and multiple sclerosis. For this reason, they are attractive candidates as drug targets. However, despite promising preclinical data, several anti-integrin drugs failed in late-stage clinical trials for chronic indications, with paradoxical side effects. One possible reason is that, at low concentration, ligands proposed as antagonists may also act as partial agonists. Hence, the comprehension of the specific structural features for ligands’ agonism or antagonism is currently of the utmost interest. For α4β1 integrin, the situation is particularly obscure because neither the crystallographic nor the cryo-EM structures are known. In addition, very few potent and selective agonists are available for investigating the mechanism at the basis of the receptor activation. In this account, we discuss the physiological role of α4β1 integrin and the related pathologies, and review the few agonists. Finally, we speculate on plausible models to explain agonism vs. antagonism by comparison with RGD-binding integrins and by analysis of computational simulations performed with homology or hybrid receptor structures
Design and Pharmacological Characterization of α4β1 Integrin Cyclopeptide Agonists: Computational Investigation of Ligand Determinants for Agonism versus Antagonism
Full text linkalpha 4 beta 1 integrin is a cell adhesion receptor deeply involved in the migration and accumulation of leukocytes. Therefore, integrin antagonists that inhibit leukocytes recruitment are currently regarded as a therapeutic opportunity for the treatment of inflammatory disorder, including leukocyte-related autoimmune diseases. Recently, it has been suggested that integrin agonists capable to prevent the release of adherent leukocytes might serve as therapeutic agents as well. However, very few alpha 4 beta 1 integrin agonists have been discovered so far, thus precluding the investigation of their potential therapeutic efficacy. In this perspective, we synthesized cyclopeptides containing the LDV recognition motif found in the native ligand fibronectin. This approach led to the discovery of potent agonists capable to increase the adhesion of alpha 4 integrin-expressing cells. Conformational and quantum mechanics computations predicted distinct ligand-receptor interactions for antagonists or agonists, plausibly referable to receptor inhibition or activation
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