Jade S. Blakeney scite author profile

A significant challenge in chemistry is to rationally reproduce the functional potency of a protein in a small molecule, which is cheaper to manufacture, non-immunogenic, and also both stable and bioavailable. Synthetic peptides corresponding to small bioactive protein surfaces do not form stable structures in water and do not exhibit the functional potencies of proteins. Here we describe a novel approach to growing small molecules with protein-like potencies from a functionally important amino acid of a protein. A 77-residue human inflammatory protein (complement C3a) important in innate immunity is rationally transformed to equipotent small molecules, using peptide surrogates that incorporate a turninducing heterocycle with correctly positioned hydrogen-bond-accepting atoms. Small molecule agonists (molecular weight o500 Da) examined for receptor affinity and cellular responses have the same high potencies, functional profile and specificity of action as C3a protein, but greater plasma stability and bioavailability.

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Nonpeptidic Ligands for Peptide-Activated G Protein-Coupled Receptors

Blakeney

Reid

et al. 2007

Chem. Rev.

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constants (pK a 's 3.1-4.8 (tetrazoles), 9.8-10.2 (sulfonamides) 65 ). The different acidities might influence the success of compounds in ViVo, since those containing tetrazole but not sulfonamide substituents are presently used in the clinic.Compounds 2-14 were designed from 1 by aligning their imidazoles with that of His6 in the [Sar]-AII structure. 66 Subsequent modification gave the biphenylimidazole scaffold found in most of the antihypertensive 'sartans' (pharmacokinetic properties in Table 2). Structure-activity relationship Chart 1

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Selective Hexapeptide Agonists and Antagonists for Human Complement C3a Receptor

et al. 2010

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Human anaphylatoxin C3a, formed through cleavage of complement protein C3, is a potent effector of innate immunity via activation of its G protein coupled receptor, human C3aR. Previously reported short peptide ligands for this receptor either have low potency or lack receptor selectivity. Here we report the first small peptide agonists that are both potent and selective for human C3aR, derived from structure-activity relationships of peptides based on the C-terminus of C3a. Affinity for C3aR was examined by competitive binding with (125)I-labeled C3a to human PBMCs [corrected], agonist versus antagonist activity measured using fluorescence detection of intracellular calcium, and general selectivity monitored by C3a-induced receptor desensitization. An NMR structure for an agonist in DMSO showed a beta-turn motif that may be important for C3aR binding and activation. Derivatization produced a noncompetitive and insurmountable antagonist of C3aR. Small molecule C3a agonists and antagonists may be valuable probes of immunity and inflammatory diseases.

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Nonpeptidic Ligands for Peptide‐Activated G Protein‐Coupled Receptors

Blakeney

Reid

et al. 2007

ChemInform

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Nonpeptide Ligands That Target Peptide-Activated GPCRs In Inflammation

Blakeney¹,

Fairlie

2005

CMC

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The focus of this review is on G protein-coupled receptors (GPCRs) for which nonpeptidic ligands are known and have been evaluated for the treatment of inflammatory conditions. GPCRs are the most prevalent class of cell surface proteins in pharmaceutical research today, and GPCR-targeting drugs account for one tenth of worldwide pharmaceutical sales. Of over 800 human GPCRs identified to date, several hundred are activated by peptides/proteins and just over 30 of these have been identified so far as potential therapeutic targets for the treatment of inflammatory diseases. This review highlights those GPCRs and over 60 structurally diverse nonpeptidic compounds that interact with them and display pro- or anti- inflammatory properties. Among these GPCR targets are the receptors for peptides like bradykinin, chemokines, complement anaphylatoxins, corticotropin releasing factor, endothelins, melanocortins, tachykinins, urocortins, as well as the protease activated receptors (PARs). Other peptide activated GPCRs implicated in inflammation, like those that bind angiotensin II, N-formyl peptides, galanin, neuropeptide Y, opioids and oxytocin, are only briefly discussed because there is either less direct association with inflammation or few/no nonpeptidic antiinflammatory ligands known. While it is still very early in the development of antiinflammatory drugs that target GPCRs, there is already a wealth of information supporting their important roles as cellular sentries in inflammatory diseases. New opportunities are emerging to evaluate antiinflammatory activities of potent and selective GPCR-binding ligands, including those being developed for other disease indications. In summary, GPCRs deserve a great deal more attention as potential therapeutic targets in inflammatory diseases.

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Jade S. Blakeney

Downsizing a human inflammatory protein to a small molecule with equal potency and functionality

Nonpeptidic Ligands for Peptide-Activated G Protein-Coupled Receptors

Selective Hexapeptide Agonists and Antagonists for Human Complement C3a Receptor

Nonpeptidic Ligands for Peptide‐Activated G Protein‐Coupled Receptors

Nonpeptide Ligands That Target Peptide-Activated GPCRs In Inflammation

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