Your search keyword '"peptide GPCR"' showing total 8 results

1. Global analysis of neuropeptide receptor conservation across phylum Nematoda.

Author

Golinelli, Luca, Geens, Ellen, Irvine, Allister, McCoy, Ciaran J., Vandewyer, Elke, Atkinson, Louise E., Mousley, Angela, Temmerman, Liesbet, and Beets, Isabel

Subjects

*G protein coupled receptors, *PEPTIDES, *CAENORHABDITIS elegans, *LIGANDS (Biochemistry), *PROTEOMICS

Abstract

Background: The phylum Nematoda is incredibly diverse and includes many parasites of humans, livestock, and plants. Peptide-activated G protein-coupled receptors (GPCRs) are central to the regulation of physiology and numerous behaviors, and they represent appealing pharmacological targets for parasite control. Efforts are ongoing to characterize the functions and define the ligands of nematode GPCRs, with already most peptide GPCRs known or predicted in Caenorhabditis elegans. However, comparative analyses of peptide GPCR conservation between C. elegans and other nematode species are limited, and many nematode GPCRs remain orphan. A phylum-wide perspective on peptide GPCR profiles will benefit functional and applied studies of nematode peptide GPCRs. Results: We constructed a pan-phylum resource of C. elegans peptide GPCR orthologs in 125 nematode species using a semi-automated pipeline for analysis of predicted proteome datasets. The peptide GPCR profile varies between nematode species of different phylogenetic clades and multiple C. elegans peptide GPCRs have orthologs across the phylum Nematoda. We identified peptide ligands for two highly conserved orphan receptors, NPR-9 and NPR-16, that belong to the bilaterian galanin/allatostatin A (Gal/AstA) and somatostatin/allatostatin C (SST/AstC) receptor families. The AstA-like NLP-1 peptides activate NPR-9 in cultured cells and are cognate ligands of this receptor in vivo. In addition, we discovered an AstC-type peptide, NLP-99, that activates the AstC-type receptor NPR-16. In our pan-phylum resource, the phylum-wide representation of NPR-9 and NPR-16 resembles that of their cognate ligands more than those of allatostatin-like peptides that do not activate these receptors. Conclusions: The repertoire of C. elegans peptide GPCR orthologs varies across phylogenetic clades and several peptide GPCRs show broad conservation in the phylum Nematoda. Our work functionally characterizes the conserved receptors NPR-9 and NPR-16 as the respective GPCRs for the AstA-like NLP-1 peptides and the AstC-related peptide NLP-99. NLP-1 and NLP-99 are widely conserved in nematodes and their representation matches that of their receptor in most species. These findings demonstrate the conservation of a functional Gal/AstA and SST/AstC signaling system in nematodes. Our dataset of C. elegans peptide GPCR orthologs also lays a foundation for further functional studies of peptide GPCRs in the widely diverse nematode phylum. [ABSTRACT FROM AUTHOR]

Published

2024

2. Global analysis of neuropeptide receptor conservation across phylum Nematoda

Author

Luca Golinelli, Ellen Geens, Allister Irvine, Ciaran J. McCoy, Elke Vandewyer, Louise E. Atkinson, Angela Mousley, Liesbet Temmerman, and Isabel Beets

Subjects

Neuropeptide, Peptide GPCR, Phylogenetics, Nematodes, C. elegans, Biology (General), QH301-705.5

Abstract

Abstract Background The phylum Nematoda is incredibly diverse and includes many parasites of humans, livestock, and plants. Peptide-activated G protein-coupled receptors (GPCRs) are central to the regulation of physiology and numerous behaviors, and they represent appealing pharmacological targets for parasite control. Efforts are ongoing to characterize the functions and define the ligands of nematode GPCRs, with already most peptide GPCRs known or predicted in Caenorhabditis elegans. However, comparative analyses of peptide GPCR conservation between C. elegans and other nematode species are limited, and many nematode GPCRs remain orphan. A phylum-wide perspective on peptide GPCR profiles will benefit functional and applied studies of nematode peptide GPCRs. Results We constructed a pan-phylum resource of C. elegans peptide GPCR orthologs in 125 nematode species using a semi-automated pipeline for analysis of predicted proteome datasets. The peptide GPCR profile varies between nematode species of different phylogenetic clades and multiple C. elegans peptide GPCRs have orthologs across the phylum Nematoda. We identified peptide ligands for two highly conserved orphan receptors, NPR-9 and NPR-16, that belong to the bilaterian galanin/allatostatin A (Gal/AstA) and somatostatin/allatostatin C (SST/AstC) receptor families. The AstA-like NLP-1 peptides activate NPR-9 in cultured cells and are cognate ligands of this receptor in vivo. In addition, we discovered an AstC-type peptide, NLP-99, that activates the AstC-type receptor NPR-16. In our pan-phylum resource, the phylum-wide representation of NPR-9 and NPR-16 resembles that of their cognate ligands more than those of allatostatin-like peptides that do not activate these receptors. Conclusions The repertoire of C. elegans peptide GPCR orthologs varies across phylogenetic clades and several peptide GPCRs show broad conservation in the phylum Nematoda. Our work functionally characterizes the conserved receptors NPR-9 and NPR-16 as the respective GPCRs for the AstA-like NLP-1 peptides and the AstC-related peptide NLP-99. NLP-1 and NLP-99 are widely conserved in nematodes and their representation matches that of their receptor in most species. These findings demonstrate the conservation of a functional Gal/AstA and SST/AstC signaling system in nematodes. Our dataset of C. elegans peptide GPCR orthologs also lays a foundation for further functional studies of peptide GPCRs in the widely diverse nematode phylum.

Published

2024

3. Small Molecule Neuropeptide S and Melanocortin 4 Receptor Ligands as Potential Treatments for Substance Use Disorders

Author

Blough, Bruce, Namjoshi, Ojas, Barrett, James E., Editor-in-Chief, Flockerzi, Veit, Editorial Board Member, Frohman, Michael A., Editorial Board Member, Geppetti, Pierangelo, Editorial Board Member, Hofmann, Franz B., Editorial Board Member, Michel, Martin C., Editorial Board Member, Page, Clive P., Editorial Board Member, Wang, KeWei, Editorial Board Member, Nader, Michael A., editor, and Hurd, Yasmin L., editor

Published

2020

4. The Structural Basis of Peptide Binding at Class A G Protein-Coupled Receptors

Author

Oanh Vu, Brian Joseph Bender, Lisa Pankewitz, Daniel Huster, Annette G. Beck-Sickinger, and Jens Meiler

Subjects

peptide GPCR, class A GPCR, peptide docking, non-canonical amino acids, Organic chemistry, QD241-441

Abstract

G protein-coupled receptors (GPCRs) represent the largest membrane protein family and a significant target class for therapeutics. Receptors from GPCRs’ largest class, class A, influence virtually every aspect of human physiology. About 45% of the members of this family endogenously bind flexible peptides or peptides segments within larger protein ligands. While many of these peptides have been structurally characterized in their solution state, the few studies of peptides in their receptor-bound state suggest that these peptides interact with a shared set of residues and undergo significant conformational changes. For the purpose of understanding binding dynamics and the development of peptidomimetic drug compounds, further studies should investigate the peptide ligands that are complexed to their cognate receptor.

Published

2021

5. The Structural Basis of Peptide Binding at Class A G Protein-Coupled Receptors

Author

Oanh Vu, Brian Joseph Bender, Lisa Pankewitz, Daniel Huster, Annette G. Beck-Sickinger, and Jens Meiler

Subjects

Models, Molecular, Molecular Conformation, Pharmaceutical Science, Organic chemistry, non-canonical amino acids, Review, peptide GPCR, class A GPCR, peptide docking, Ligands, Analytical Chemistry, Receptors, G-Protein-Coupled, Structure-Activity Relationship, QD241-441, Drug Discovery, Humans, Protein Interaction Domains and Motifs, Amino Acid Sequence, Physical and Theoretical Chemistry, Conserved Sequence, Binding Sites, Chemistry (miscellaneous), ddc:540, Molecular Medicine, Peptides, Protein Binding

Abstract

G protein-coupled receptors (GPCRs) represent the largest membrane protein family and a significant target class for therapeutics. Receptors from GPCRs’ largest class, class A, influence virtually every aspect of human physiology. About 45% of the members of this family endogenously bind flexible peptides or peptides segments within larger protein ligands. While many of these peptides have been structurally characterized in their solution state, the few studies of peptides in their receptor-bound state suggest that these peptides interact with a shared set of residues and undergo significant conformational changes. For the purpose of understanding binding dynamics and the development of peptidomimetic drug compounds, further studies should investigate the peptide ligands that are complexed to their cognate receptor.

Published

2022

6. Optimisation of pharmacokinetic properties to afford an orally bioavailable and selective V1A receptor antagonist

Author

Arbuckle, William, Baker, James, Barn, David, Bingham, Matilda, Brown, Angus, Buchanan, Kirsteen, Craighead, Mark, Goodwin, Richard, Goutcher, Susan, Kiczun, Michael, Lyons, Amanda, Milne, Rachel, Montgomery, Brian, Napier, Susan, Presland, Jeremy, Sloan, Hazel, Turnbull, Zara, and Wishart, Grant

Subjects

*PHARMACOKINETICS, *DRUG bioavailability, *DRUG synergism, *DRUG development, *VASOPRESSIN, *GLYCOPROTEINS, *LABORATORY rats

Abstract

Abstract: The previously described lead compound 5 is a potent and selective V1A antagonist with affinity at both the rat and human receptor, but displays poor oral bioavailability and moderate clearance. We report herein the successful optimisation of the pharmacokinetic (PK) properties to afford the potent, selective, orally bioavailable and CNS penetrant compound 15f. A custom optimisation approach was required which demonstrated the value of using early, rapid in vivo PK studies to show improvements in oral exposure. Such assays may be of particular value where low oral bioavailability is anticipated to be multifactorial (e.g., permeability, gut wall metabolism and/or transport) where satisfactory modelling of in vitro data is likely to be difficult within a drug discovery context. [Copyright &y& Elsevier]

Published

2011

7. The Structural Basis of Peptide Binding at Class A G Protein-Coupled Receptors.

Author

Vu, Oanh, Bender, Brian Joseph, Pankewitz, Lisa, Huster, Daniel, Beck-Sickinger, Annette G., and Meiler, Jens

Subjects

*PEPTIDES, *G protein coupled receptors, *MEMBRANE proteins, *HUMAN physiology

Abstract

G protein-coupled receptors (GPCRs) represent the largest membrane protein family and a significant target class for therapeutics. Receptors from GPCRs' largest class, class A, influence virtually every aspect of human physiology. About 45% of the members of this family endogenously bind flexible peptides or peptides segments within larger protein ligands. While many of these peptides have been structurally characterized in their solution state, the few studies of peptides in their receptor-bound state suggest that these peptides interact with a shared set of residues and undergo significant conformational changes. For the purpose of understanding binding dynamics and the development of peptidomimetic drug compounds, further studies should investigate the peptide ligands that are complexed to their cognate receptor. [ABSTRACT FROM AUTHOR]

Published

2022

8. The Structural Basis of Peptide Binding at Class A G Protein-Coupled Receptors.

Author

Vu O, Bender BJ, Pankewitz L, Huster D, Beck-Sickinger AG, and Meiler J

Subjects

Amino Acid Sequence, Binding Sites, Conserved Sequence, Humans, Ligands, Models, Molecular, Molecular Conformation, Peptides metabolism, Protein Binding, Protein Interaction Domains and Motifs, Structure-Activity Relationship, Peptides chemistry, Receptors, G-Protein-Coupled chemistry, Receptors, G-Protein-Coupled metabolism

Abstract

G protein-coupled receptors (GPCRs) represent the largest membrane protein family and a significant target class for therapeutics. Receptors from GPCRs' largest class, class A, influence virtually every aspect of human physiology. About 45% of the members of this family endogenously bind flexible peptides or peptides segments within larger protein ligands. While many of these peptides have been structurally characterized in their solution state, the few studies of peptides in their receptor-bound state suggest that these peptides interact with a shared set of residues and undergo significant conformational changes. For the purpose of understanding binding dynamics and the development of peptidomimetic drug compounds, further studies should investigate the peptide ligands that are complexed to their cognate receptor.

Published

2021