Peptide/Receptor Co-evolution Explains the Lipolytic Function of the Neuropeptide TLQP-21

Bhavani S. Sahu; Pedro Rodriguez; Megin E. Nguyen; Ruijun Han; Cheryl Cero; Maria Razzoli; Paolo Piaggi; Lauren J. Laskowski; Mihaela Pavlicev; Louis Muglia; Sushil K. Mahata; Scott O'Grady; John D. McCorvy; Leslie J. Baier; Yuk Y. Sham; Alessandro Bartolomucci

doi:10.1016/j.celrep.2019.07.101

Peptide/Receptor Co-evolution Explains the Lipolytic Function of the Neuropeptide TLQP-21

Bhavani S. Sahu, Pedro Rodriguez, Megin E. Nguyen, Ruijun Han, Cheryl Cero, Maria Razzoli, Paolo Piaggi, Lauren J. Laskowski, Mihaela Pavlicev, Louis Muglia, Sushil K. Mahata, Scott O'Grady, John D. McCorvy, Leslie J. Baier, Yuk Y. Sham, Alessandro Bartolomucci

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Abstract

Structural and functional diversity of peptides and GPCR result from long evolutionary processes. Even small changes in sequence can alter receptor activation, affecting therapeutic efficacy. We conducted a structure-function relationship study on the neuropeptide TLQP-21, a promising target for obesity, and its complement 3a receptor (C3aR1). After having characterized the TLQP-21/C3aR1 lipolytic mechanism, a homology modeling and molecular dynamics simulation identified the TLQP-21 binding motif and C3aR1 binding site for the human (h) and mouse (m) molecules. mTLQP-21 showed enhanced binding affinity and potency for hC3aR1 compared with hTLQP-21. Consistently, mTLQP-21, but not hTLQP-21, potentiates lipolysis in human adipocytes. These findings led us to uncover five mutations in the C3aR1 binding pocket of the rodent Murinae subfamily that are causal for enhanced calculated affinity and measured potency of TLQP-21. Identifying functionally relevant peptide/receptor co-evolution mechanisms can facilitate the development of innovative pharmacotherapies for obesity and other diseases implicating GPCRs.

Original language	English (US)
Pages (from-to)	2567-2580.e6
Journal	Cell reports
Volume	28
Issue number	10
DOIs	https://doi.org/10.1016/j.celrep.2019.07.101
State	Published - Sep 3 2019

Bibliographical note

Publisher Copyright:
© 2019 The Author(s)

Keywords

VGF
drug discovery
granin peptides
innate immunity
lipolytic catecholamine resistance
obesity
transient receptor potential channel

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Sahu, B. S., Rodriguez, P., Nguyen, M. E., Han, R., Cero, C., Razzoli, M., Piaggi, P., Laskowski, L. J., Pavlicev, M., Muglia, L., Mahata, S. K., O'Grady, S., McCorvy, J. D., Baier, L. J., Sham, Y. Y., & Bartolomucci, A. (2019). Peptide/Receptor Co-evolution Explains the Lipolytic Function of the Neuropeptide TLQP-21. Cell reports, 28(10), 2567-2580.e6. https://doi.org/10.1016/j.celrep.2019.07.101

Sahu, BS, Rodriguez, P, Nguyen, ME, Han, R, Cero, C, Razzoli, M, Piaggi, P, Laskowski, LJ, Pavlicev, M, Muglia, L, Mahata, SK, O'Grady, S, McCorvy, JD, Baier, LJ, Sham, YY & Bartolomucci, A 2019, 'Peptide/Receptor Co-evolution Explains the Lipolytic Function of the Neuropeptide TLQP-21', Cell reports, vol. 28, no. 10, pp. 2567-2580.e6. https://doi.org/10.1016/j.celrep.2019.07.101

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AU - Muglia, Louis

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AB - Structural and functional diversity of peptides and GPCR result from long evolutionary processes. Even small changes in sequence can alter receptor activation, affecting therapeutic efficacy. We conducted a structure-function relationship study on the neuropeptide TLQP-21, a promising target for obesity, and its complement 3a receptor (C3aR1). After having characterized the TLQP-21/C3aR1 lipolytic mechanism, a homology modeling and molecular dynamics simulation identified the TLQP-21 binding motif and C3aR1 binding site for the human (h) and mouse (m) molecules. mTLQP-21 showed enhanced binding affinity and potency for hC3aR1 compared with hTLQP-21. Consistently, mTLQP-21, but not hTLQP-21, potentiates lipolysis in human adipocytes. These findings led us to uncover five mutations in the C3aR1 binding pocket of the rodent Murinae subfamily that are causal for enhanced calculated affinity and measured potency of TLQP-21. Identifying functionally relevant peptide/receptor co-evolution mechanisms can facilitate the development of innovative pharmacotherapies for obesity and other diseases implicating GPCRs.

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Peptide/Receptor Co-evolution Explains the Lipolytic Function of the Neuropeptide TLQP-21

Abstract

Bibliographical note

Keywords

UN SDGs

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