Systems Biology of the Vasopressin V2 Receptor: New Tools for Discovery of Molecular Actions of a GPCR

Lihe Chen; Hyun Jun Jung; Arnab Datta; Euijung Park; Brian G. Poll; Hiroaki Kikuchi; Kirby T. Leo; Yash Mehta; Spencer Lewis; Syed J. Khundmiri; Shaza Khan; Chung Lin Chou; Viswanathan Raghuram; Chin Rang Yang; Mark A. Knepper

doi:10.1146/annurev-pharmtox-052120-011012

Systems Biology of the Vasopressin V2 Receptor: New Tools for Discovery of Molecular Actions of a GPCR

Lihe Chen, Hyun Jun Jung, Arnab Datta, Euijung Park, Brian G. Poll, Hiroaki Kikuchi, Kirby T. Leo, Yash Mehta, Spencer Lewis, Syed J. Khundmiri, Shaza Khan, Chung Lin Chou, Viswanathan Raghuram, Chin Rang Yang, Mark A. Knepper

School of Medicine

Research output: Contribution to journal › Review article › peer-review

Abstract

Systems biology can be defined as the study of a biological process in which all of the relevant components are investigated together in parallel to discover the mechanism. Although the approach is not new, it has come to the forefront as a result of genome sequencing projects completed in the first few years of the current century. It has elements of large-scale data acquisition (chiefly next-generation sequencing-based methods and protein mass spectrometry) and large-scale data analysis (big data integration and Bayesian modeling). Here we discuss these methodologies and show how they can be applied to understand the downstream effects of GPCR signaling, specifically looking at how the neurohypophyseal peptide hormone vasopressin, working through the V2 receptor and PKA activation, regulates the water channel aquaporin-2. The emerging picture provides a detailedframework for understanding the molecular mechanisms involved in water balance disorders, pointing the way to improved treatment of both polyuric disorders and water-retention disorders causing dilutional hyponatremia.

Original language	English (US)
Pages (from-to)	595-616
Number of pages	22
Journal	Annual Review of Pharmacology and Toxicology
Volume	62
DOIs	https://doi.org/10.1146/annurev-pharmtox-052120-011012
State	Published - Jan 6 2022

Keywords

diabetes insipidus
hyponatremia
kidney
next-generation DNA sequencing
protein mass spectrometry
syndrome of inappropriate antidiuresis

ASJC Scopus subject areas

Toxicology
Pharmacology

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10.1146/annurev-pharmtox-052120-011012

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Chen, L., Jung, H. J., Datta, A., Park, E., Poll, B. G., Kikuchi, H., Leo, K. T., Mehta, Y., Lewis, S., Khundmiri, S. J., Khan, S., Chou, C. L., Raghuram, V., Yang, C. R., & Knepper, M. A. (2022). Systems Biology of the Vasopressin V2 Receptor: New Tools for Discovery of Molecular Actions of a GPCR. Annual Review of Pharmacology and Toxicology, 62, 595-616. https://doi.org/10.1146/annurev-pharmtox-052120-011012

Chen, L, Jung, HJ, Datta, A, Park, E, Poll, BG, Kikuchi, H, Leo, KT, Mehta, Y, Lewis, S, Khundmiri, SJ, Khan, S, Chou, CL, Raghuram, V, Yang, CR & Knepper, MA 2022, 'Systems Biology of the Vasopressin V2 Receptor: New Tools for Discovery of Molecular Actions of a GPCR', Annual Review of Pharmacology and Toxicology, vol. 62, pp. 595-616. https://doi.org/10.1146/annurev-pharmtox-052120-011012

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abstract = "Systems biology can be defined as the study of a biological process in which all of the relevant components are investigated together in parallel to discover the mechanism. Although the approach is not new, it has come to the forefront as a result of genome sequencing projects completed in the first few years of the current century. It has elements of large-scale data acquisition (chiefly next-generation sequencing-based methods and protein mass spectrometry) and large-scale data analysis (big data integration and Bayesian modeling). Here we discuss these methodologies and show how they can be applied to understand the downstream effects of GPCR signaling, specifically looking at how the neurohypophyseal peptide hormone vasopressin, working through the V2 receptor and PKA activation, regulates the water channel aquaporin-2. The emerging picture provides a detailedframework for understanding the molecular mechanisms involved in water balance disorders, pointing the way to improved treatment of both polyuric disorders and water-retention disorders causing dilutional hyponatremia.",

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author = "Lihe Chen and Jung, {Hyun Jun} and Arnab Datta and Euijung Park and Poll, {Brian G.} and Hiroaki Kikuchi and Leo, {Kirby T.} and Yash Mehta and Spencer Lewis and Khundmiri, {Syed J.} and Shaza Khan and Chou, {Chung Lin} and Viswanathan Raghuram and Yang, {Chin Rang} and Knepper, {Mark A.}",

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AU - Poll, Brian G.

AU - Kikuchi, Hiroaki

AU - Leo, Kirby T.

AU - Mehta, Yash

AU - Lewis, Spencer

AU - Khundmiri, Syed J.

AU - Khan, Shaza

AU - Chou, Chung Lin

AU - Raghuram, Viswanathan

AU - Yang, Chin Rang

AU - Knepper, Mark A.

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AB - Systems biology can be defined as the study of a biological process in which all of the relevant components are investigated together in parallel to discover the mechanism. Although the approach is not new, it has come to the forefront as a result of genome sequencing projects completed in the first few years of the current century. It has elements of large-scale data acquisition (chiefly next-generation sequencing-based methods and protein mass spectrometry) and large-scale data analysis (big data integration and Bayesian modeling). Here we discuss these methodologies and show how they can be applied to understand the downstream effects of GPCR signaling, specifically looking at how the neurohypophyseal peptide hormone vasopressin, working through the V2 receptor and PKA activation, regulates the water channel aquaporin-2. The emerging picture provides a detailedframework for understanding the molecular mechanisms involved in water balance disorders, pointing the way to improved treatment of both polyuric disorders and water-retention disorders causing dilutional hyponatremia.

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Systems Biology of the Vasopressin V2 Receptor: New Tools for Discovery of Molecular Actions of a GPCR

Abstract

Keywords

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