Kunal Bakshi scite author profile

Desensitization of the cannabinoid CB1 receptor is mediated by the interaction with arrestin. In this study, we report the structural changes of a synthetic diphosphorylated peptide corresponding to residues 419-439 of the CB1 C-terminus upon binding to arrestin-2. This segment is pivotal to the desensitization of CB1. Using high-resolution proton NMR, we observe two helical segments in the bound peptide that are separated by the presence a glycine residue. The binding we observe is with a diphoshorylated peptide, whereas a previous study reported binding of a highly phosphorylated rhodopsin fragment to visual arrestin. The arrestin bound conformations of the peptides are compared.

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Binding between a Distal C-Terminus Fragment of Cannabinoid Receptor 1 and Arrestin-2

Singh

Bakshi

Mercier

et al. 2011

Biochemistry

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Internalization of G-protein coupled receptors is mediated by phosphorylation of the C-terminus, followed by binding with the cytosolic protein arrestin. To explore structural factors that may play a role in internalization of cannabinoid receptor 1 (CB1), we utilize a phosphorylated peptide derived from the distal C-terminus of CB1 (CB15P454-473). Complexes formed between the peptide and human arrestin-2 (wt-arr21-418) were compared to those formed with a truncated arrestin-2 mutant (tr-arr21-382) using isothermal titration calorimetry and nuclear magnetic resonance spectroscopy. The penta-phosphopeptide CB15P454-473 adopts a helix-loop conformation, whether binding to full-length arrestin-2 or its truncated mutant. This structure is similar to that of a hepta-phosphopeptide, mimicking the distal segment of the rhodopsin C-tail (Rh7P330-348), binding to visual arrestin, suggesting that this adopted structure bears functional significance. Isothermal titration calorimetry (ITC) experiments show that the CB15P454-473 peptide binds to tr-arr21-382 with higher affinity than to the full-length wt-arr21-418. As the observed structure of the bound peptides is similar in either case, we attribute the increased affinity to a more exposed binding site on the N-domain of the truncated arrestin construct. The transferred nOe data from the bound phosphopeptides are used to predict a model describing the interaction with arrestin, using the data driven HADDOCK docking program. The truncation of arrestin-2 provides scope for positively charged residues in the polar core of the protein to interact with phosphates present in the loop of the CB15P454-473 peptide.

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Circular Dichroism of Peptides

Bakshi¹,

Liyanage²,

Volkin³

et al. 2013

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Circular dichroism measures the difference between the absorbance of left- and right-handed circularly polarized light, and can be used to monitor the secondary structure of peptides (far UV) and the tertiary structure of larger polypeptides (near UV). This technique is especially useful for helix-coil transitions and other aspects of structural alterations. Data from several low-resolution spectroscopic techniques, including CD, can be combined to generate an overall picture of peptide structure as a function of environmental conditions.

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Fourier Transform Infrared Spectroscopy of Peptides

Bakshi

Liyanage

Volkin

et al. 2013

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Ultraviolet Absorption Spectroscopy of Peptides

Liyanage

Bakshi

Volkin

et al. 2013

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UV absorption spectroscopy is commonly used with peptides for determining concentration and enzyme activity, but high-resolution UV spectra can also provide information on peptide secondary and tertiary structure and association behavior. New developments using temperature- and cation-dependent high-resolution second derivative absorption methods can also provide information concerning peptide dynamics. Data from several low-resolution spectroscopic techniques, including UV absorption, can be combined to generate an overall picture of peptide structure as a function of environmental conditions.

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Kunal Bakshi

Interaction of a fragment of the cannabinoid CB1 receptor C‐terminus with arrestin‐2

Binding between a Distal C-Terminus Fragment of Cannabinoid Receptor 1 and Arrestin-2

Circular Dichroism of Peptides

Fourier Transform Infrared Spectroscopy of Peptides

Ultraviolet Absorption Spectroscopy of Peptides

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