Structural and mechanistic insights into the neurotensin receptor

Grisshammer, Reinhard

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Introduction
Outline
Signaling pathways
GPCR conformations and dynamics
Neurotensin receptor NTSR1
Tools
Requirements for crystallization
Conformational thermostabilization
NTSR1-GW5 mutant with 6 mutations (1)
NTSR1-GW5 mutant with 6 mutations (2)
NTSR1-GW5 (1)
NTSR1-GW5 (2)
NTSR1-GW5 is in an active-like conformation
Rhodopsin
NTSR1/rhodopsin
Peptide agonist binding
NTSR1-GW5 & nucleotide exchange catalyzation
Stabilizing mutations
Active-like state stabilizing mutations
More mutants (1)
Behavior of LF and ELF mutants
NTSR1-ELF and NTSR1-LF
Regions important for NTSR1 signaling (1)
Prerequisites for G protein activation
F358 determines W321 side chain orientation
W321-6.48
Hydrophobic cascade (1)
L310 causes R167 side chain to re-orient (1)
L310 causes R167 side chain to re-orient (2)
More mutants (2)
Inositolphosphate (IP) production in mutants
Effect of neurotensin on IP production
Regions important for NTSR1 signaling (2)
NTSR1-EL
Hydrophobic cascade (2)
Connector (1)
Connector (2)
Packing of connector residues
Dynamics of the G protein coupling interface
G protein coupling interface
Agonist-induced constitutive signaling of NTSR1
Conclusions
Thank you
References

Topics Covered

G protein-coupled receptors
Neurotensin receptor
Peptide agonist neurotensin tools for crystallization of membrane proteins
Conformational thermostabilization
Crystal structure of NTSR1-GW5
Binding mode of neurotensin
Crystal structures of NTSR1-ELF & NTSR1-LF-prerequisites for G protein activation
Crystal structure of NTSR1-EL
Constitutive activity
Molecular dynamics simulations

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G Protein-Coupled Receptors (GPCRs) Signaling in Health and Disease

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Talk Citation

Grisshammer, R. (2019, July 31). Structural and mechanistic insights into the neurotensin receptor [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved April 11, 2025, from https://doi.org/10.69645/CQZX7842.
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Publication History

Published on July 31, 2019

Financial Disclosures

Dr. Reinhard Grisshammer has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.

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Structural and mechanistic insights into the neurotensin receptor

Dr. Reinhard Grisshammer – National Cancer Institute, USA

Published on July 31, 2019 55 min

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Transcript

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0:00

My name is Reinhard Grisshammer. I am at the National Cancer Institute, at the National Institutes of Health in Bethesda, Maryland. The title of my talk is structural and mechanistic insights into the neurotensin receptor.

0:20

The outline of my talk is as follows; I will give a brief introduction into GPCRs, G protein-coupled receptors and the neurotensin NTSR1. Then, I will talk about conformational thermostabilization, which is a technique to make proteins more amenable for crystallization. Then, I will present four neurotensin receptors structures. The first one is called NTSR1-GW5, which has an active-like conformation and provides insight into the neurotensin peptide binding mode. Two more structures called NTSR1-ELF and LF provide insight into the structural prerequisites of G protein activation. The last structure is of a construct called EL which shows constitutive activity, where we can learn about the structural features of a constitutively active receptor. In the end, I will summarize constitutive and agonist-induced signaling of the neurotensin receptor NTSR1.

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Structural and mechanistic insights into the neurotensin receptor

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Structural and mechanistic insights into the neurotensin receptor