Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity

Robert E. Sorge; Tuan Trang; Ruslan Dorfman; Shad B. Smith; Simon Beggs; Jennifer Ritchie; Jean Sebastien Austin; Dmitri V. Zaykin; Heather Vander Meulen; Michael Costigan; Teri A. Herbert; Merav Yarkoni-Abitbul; David Tichauer; Jessica Livneh; Edith Gershon; Ming Zheng; Keith Tan; Sally L. John; Gary D. Slade; Joanne Jordan; Clifford J. Woolf; Gary Peltz; William Maixner; Luda Diatchenko; Ze'Ev Seltzer; Michael W. Salter; Jeffrey S. Mogil

doi:10.1038/nm.2710

Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity

Robert E. Sorge, Tuan Trang, Ruslan Dorfman, Shad B. Smith, Simon Beggs, Jennifer Ritchie, Jean Sebastien Austin, Dmitri V. Zaykin, Heather Vander Meulen, Michael Costigan, Teri A. Herbert, Merav Yarkoni-Abitbul, David Tichauer, Jessica Livneh, Edith Gershon, Ming Zheng, Keith Tan, Sally L. John, Gary D. Slade, Joanne JordanClifford J. Woolf, Gary Peltz, William Maixner, Luda Diatchenko, Ze'Ev Seltzer, Michael W. Salter^*, Jeffrey S. Mogil

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

314 Scopus citations

Abstract

Chronic pain is highly variable between individuals, as is the response to analgesics. Although much of the variability in chronic pain and analgesic response is heritable, an understanding of the genetic determinants underlying this variability is rudimentary. Here we show that variation within the coding sequence of the gene encoding the P2X7 receptor (P2X7R) affects chronic pain sensitivity in both mice and humans. P2X7Rs, which are members of the family of ionotropic ATP-gated receptors, have two distinct modes of function: they can function through their intrinsic cationic channel or by forming nonselective pores that are permeable to molecules with a mass of up to 900 Da. Using genome-wide linkage analyses, we discovered an association between nerve-injury-induced pain behavior (mechanical allodynia) and the P451L mutation of the mouse P2rx7 gene, such that mice in which P2X7Rs have impaired pore formation as a result of this mutation showed less allodynia than mice with the pore-forming P2rx7 allele. Administration of a peptide corresponding to the P2X7R C-terminal domain, which blocked pore formation but not cation channel activity, selectively reduced nerve injury and inflammatory allodynia only in mice with the pore-forming P2rx7 allele. Moreover, in two independent human chronic pain cohorts, a cohort with pain after mastectomy and a cohort with osteoarthritis, we observed a genetic association between lower pain intensity and the hypofunctional His270 (rs7958311) allele of P2RX7. Our findings suggest that selectively targeting P2X7R pore formation may be a new strategy for individualizing the treatment of chronic pain.

Original language	English
Pages (from-to)	595-599
Number of pages	5
Journal	Nature Medicine
Volume	18
Issue number	4
DOIs	https://doi.org/10.1038/nm.2710
State	Published - Apr 2012
Externally published	Yes

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Sorge, R. E., Trang, T., Dorfman, R., Smith, S. B., Beggs, S., Ritchie, J., Austin, J. S., Zaykin, D. V., Meulen, H. V., Costigan, M., Herbert, T. A., Yarkoni-Abitbul, M., Tichauer, D., Livneh, J., Gershon, E., Zheng, M., Tan, K., John, S. L., Slade, G. D., ... Mogil, J. S. (2012). Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity. Nature Medicine, 18(4), 595-599. https://doi.org/10.1038/nm.2710

@article{e04fb74ffbc84e1aaa393148eb36bc02,

title = "Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity",

abstract = "Chronic pain is highly variable between individuals, as is the response to analgesics. Although much of the variability in chronic pain and analgesic response is heritable, an understanding of the genetic determinants underlying this variability is rudimentary. Here we show that variation within the coding sequence of the gene encoding the P2X7 receptor (P2X7R) affects chronic pain sensitivity in both mice and humans. P2X7Rs, which are members of the family of ionotropic ATP-gated receptors, have two distinct modes of function: they can function through their intrinsic cationic channel or by forming nonselective pores that are permeable to molecules with a mass of up to 900 Da. Using genome-wide linkage analyses, we discovered an association between nerve-injury-induced pain behavior (mechanical allodynia) and the P451L mutation of the mouse P2rx7 gene, such that mice in which P2X7Rs have impaired pore formation as a result of this mutation showed less allodynia than mice with the pore-forming P2rx7 allele. Administration of a peptide corresponding to the P2X7R C-terminal domain, which blocked pore formation but not cation channel activity, selectively reduced nerve injury and inflammatory allodynia only in mice with the pore-forming P2rx7 allele. Moreover, in two independent human chronic pain cohorts, a cohort with pain after mastectomy and a cohort with osteoarthritis, we observed a genetic association between lower pain intensity and the hypofunctional His270 (rs7958311) allele of P2RX7. Our findings suggest that selectively targeting P2X7R pore formation may be a new strategy for individualizing the treatment of chronic pain.",

author = "Sorge, {Robert E.} and Tuan Trang and Ruslan Dorfman and Smith, {Shad B.} and Simon Beggs and Jennifer Ritchie and Austin, {Jean Sebastien} and Zaykin, {Dmitri V.} and Meulen, {Heather Vander} and Michael Costigan and Herbert, {Teri A.} and Merav Yarkoni-Abitbul and David Tichauer and Jessica Livneh and Edith Gershon and Ming Zheng and Keith Tan and John, {Sally L.} and Slade, {Gary D.} and Joanne Jordan and Woolf, {Clifford J.} and Gary Peltz and William Maixner and Luda Diatchenko and Ze'Ev Seltzer and Salter, {Michael W.} and Mogil, {Jeffrey S.}",

year = "2012",

month = apr,

doi = "10.1038/nm.2710",

language = "אנגלית",

volume = "18",

pages = "595--599",

journal = "Nature Medicine",

issn = "1078-8956",

publisher = "Nature Research",

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Sorge, RE, Trang, T, Dorfman, R, Smith, SB, Beggs, S, Ritchie, J, Austin, JS, Zaykin, DV, Meulen, HV, Costigan, M, Herbert, TA, Yarkoni-Abitbul, M, Tichauer, D, Livneh, J, Gershon, E, Zheng, M, Tan, K, John, SL, Slade, GD, Jordan, J, Woolf, CJ, Peltz, G, Maixner, W, Diatchenko, L, Seltzer, ZE, Salter, MW & Mogil, JS 2012, 'Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity', Nature Medicine, vol. 18, no. 4, pp. 595-599. https://doi.org/10.1038/nm.2710

TY - JOUR

T1 - Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity

AU - Sorge, Robert E.

AU - Trang, Tuan

AU - Dorfman, Ruslan

AU - Smith, Shad B.

AU - Beggs, Simon

AU - Ritchie, Jennifer

AU - Austin, Jean Sebastien

AU - Zaykin, Dmitri V.

AU - Meulen, Heather Vander

AU - Costigan, Michael

AU - Herbert, Teri A.

AU - Yarkoni-Abitbul, Merav

AU - Tichauer, David

AU - Livneh, Jessica

AU - Gershon, Edith

AU - Zheng, Ming

AU - Tan, Keith

AU - John, Sally L.

AU - Slade, Gary D.

AU - Jordan, Joanne

AU - Woolf, Clifford J.

AU - Peltz, Gary

AU - Maixner, William

AU - Diatchenko, Luda

AU - Seltzer, Ze'Ev

AU - Salter, Michael W.

AU - Mogil, Jeffrey S.

PY - 2012/4

Y1 - 2012/4

N2 - Chronic pain is highly variable between individuals, as is the response to analgesics. Although much of the variability in chronic pain and analgesic response is heritable, an understanding of the genetic determinants underlying this variability is rudimentary. Here we show that variation within the coding sequence of the gene encoding the P2X7 receptor (P2X7R) affects chronic pain sensitivity in both mice and humans. P2X7Rs, which are members of the family of ionotropic ATP-gated receptors, have two distinct modes of function: they can function through their intrinsic cationic channel or by forming nonselective pores that are permeable to molecules with a mass of up to 900 Da. Using genome-wide linkage analyses, we discovered an association between nerve-injury-induced pain behavior (mechanical allodynia) and the P451L mutation of the mouse P2rx7 gene, such that mice in which P2X7Rs have impaired pore formation as a result of this mutation showed less allodynia than mice with the pore-forming P2rx7 allele. Administration of a peptide corresponding to the P2X7R C-terminal domain, which blocked pore formation but not cation channel activity, selectively reduced nerve injury and inflammatory allodynia only in mice with the pore-forming P2rx7 allele. Moreover, in two independent human chronic pain cohorts, a cohort with pain after mastectomy and a cohort with osteoarthritis, we observed a genetic association between lower pain intensity and the hypofunctional His270 (rs7958311) allele of P2RX7. Our findings suggest that selectively targeting P2X7R pore formation may be a new strategy for individualizing the treatment of chronic pain.

AB - Chronic pain is highly variable between individuals, as is the response to analgesics. Although much of the variability in chronic pain and analgesic response is heritable, an understanding of the genetic determinants underlying this variability is rudimentary. Here we show that variation within the coding sequence of the gene encoding the P2X7 receptor (P2X7R) affects chronic pain sensitivity in both mice and humans. P2X7Rs, which are members of the family of ionotropic ATP-gated receptors, have two distinct modes of function: they can function through their intrinsic cationic channel or by forming nonselective pores that are permeable to molecules with a mass of up to 900 Da. Using genome-wide linkage analyses, we discovered an association between nerve-injury-induced pain behavior (mechanical allodynia) and the P451L mutation of the mouse P2rx7 gene, such that mice in which P2X7Rs have impaired pore formation as a result of this mutation showed less allodynia than mice with the pore-forming P2rx7 allele. Administration of a peptide corresponding to the P2X7R C-terminal domain, which blocked pore formation but not cation channel activity, selectively reduced nerve injury and inflammatory allodynia only in mice with the pore-forming P2rx7 allele. Moreover, in two independent human chronic pain cohorts, a cohort with pain after mastectomy and a cohort with osteoarthritis, we observed a genetic association between lower pain intensity and the hypofunctional His270 (rs7958311) allele of P2RX7. Our findings suggest that selectively targeting P2X7R pore formation may be a new strategy for individualizing the treatment of chronic pain.

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JO - Nature Medicine

JF - Nature Medicine

IS - 4

ER -

Genetically determined P2X7 receptor pore formation regulates variability in chronic pain sensitivity

Abstract

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