Navjeet Jolly scite author profile

Navjeet Jolly

3Publications

87Citation Statements Received

115Citation Statements Given

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109

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King's College London

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Peptide Modifications Differentially Alter G Protein‐Coupled Receptor Internalization and Signaling Bias

et al. 2014

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Although G protein-coupled receptors (GPCRs) are targeted by more clinically used drugs than any other type of protein, their ligand development is particularly challenging. Humans have four neuropeptide Y receptors: hY1R and hY5R are orexigenic, while hY2R and hY4R are anorexigenic, and represent important anti-obesity drug targets. We show for the first time that PEGylation and lipidation, chemical modifications that prolong the plasma half-lives of peptides, confer additional benefits. Both modifications enhance pancreatic polypeptide preference for hY2R/hY4R over hY1R/hY5R. Lipidation biases the ligand towards arrestin recruitment and internalization, whereas PEGylation confers the opposite bias. These effects were independent of the cell system and modified residue. We thus provide novel insights into the mode of action of peptide modifications and open innovative venues for generating peptide agonists with extended therapeutic potential.

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High molecular weight PEGylation of human pancreatic polypeptide at position 22 improves stability and reduces food intake in mice

Thieme

Jolly

Madsen

et al. 2016

British J Pharmacology

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Peptide Modifications Differentially Alter G Protein‐Coupled Receptor Internalization and Signaling Bias

et al. 2014

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Although G protein‐coupled receptors (GPCRs) are targeted by more clinically used drugs than any other type of protein, their ligand development is particularly challenging. Humans have four neuropeptide Y receptors: hY1R and hY5R are orexigenic, while hY2R and hY4R are anorexigenic, and represent important anti‐obesity drug targets. We show for the first time that PEGylation and lipidation, chemical modifications that prolong the plasma half‐lives of peptides, confer additional benefits. Both modifications enhance pancreatic polypeptide preference for hY2R/hY4R over hY1R/hY5R. Lipidation biases the ligand towards arrestin recruitment and internalization, whereas PEGylation confers the opposite bias. These effects were independent of the cell system and modified residue. We thus provide novel insights into the mode of action of peptide modifications and open innovative venues for generating peptide agonists with extended therapeutic potential.

show abstract

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Navjeet Jolly

Peptide Modifications Differentially Alter G Protein‐Coupled Receptor Internalization and Signaling Bias

High molecular weight PEGylation of human pancreatic polypeptide at position 22 improves stability and reduces food intake in mice

Peptide Modifications Differentially Alter G Protein‐Coupled Receptor Internalization and Signaling Bias

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