Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine

Jin Xu; Zhigang Lu; Ankita Narayan; Valerie P. Le Rouzic; Mingming Xu; Amanda Hunkele; Taylor G. Brown; William F. Hoefer; Grace C. Rossi; Richard C. Rice; Arlene Martínez-Rivera; Anjali M. Rajadhyaksha; Luca Cartegni; Daniel L. Bassoni; Gavril W. Pasternak; Ying Xian Pan

doi:10.1172/JCI88760

Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine

Jin Xu, Zhigang Lu, Ankita Narayan, Valerie P. Le Rouzic, Mingming Xu, Amanda Hunkele, Taylor G. Brown, William F. Hoefer, Grace C. Rossi, Richard C. Rice, Arlene Martínez-Rivera, Anjali M. Rajadhyaksha, Luca Cartegni, Daniel L. Bassoni, Gavril W. Pasternak, Ying Xian Pan

Ernest Mario School of Pharmacy, Chemical Biology

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

56 Scopus citations

Abstract

Extensive 3? alternative splicing of the mu opioid receptor gene OPRM1 creates multiple C-terminal splice variants. However, their behavioral relevance remains unknown. The present study generated 3 mutant mouse models with truncated C termini in 2 different mouse strains, C57BL/6J (B6) and 129/SvEv (129). One mouse truncated all C termini downstream of Oprm1 exon 3 (mE3M mice), while the other two selectively truncated C-terminal tails encoded by either exon 4 (mE4M mice) or exon 7 (mE7M mice). Studies of these mice revealed divergent roles for the C termini in morphine-induced behaviors, highlighting the importance of C-terminal variants in complex morphine actions. In mE7M-B6 mice, the exon 7-associated truncation diminished morphine tolerance and reward without altering physical dependence, whereas the exon 4-associated truncation in mE4M-B6 mice facilitated morphine tolerance and reduced morphine dependence without affecting morphine reward. mE7M-B6 mutant mice lost morphine-induced receptor desensitization in the brain stem and hypothalamus, consistent with exon 7 involvement in morphine tolerance. In cell-based studies, exon 7-associated variants shifted the bias of several mu opioids toward ?-arrestin 2 over G protein activation compared with the exon 4-associated variant, suggesting an interaction of exon 7-associated C-terminal tails with ?-arrestin 2 in morphine-induced desensitization and tolerance. Together, the differential effects of C-terminal truncation illustrate the pharmacological importance of OPRM1 3? alternative splicing.

Original language	English (US)
Pages (from-to)	1561-1573
Number of pages	13
Journal	Journal of Clinical Investigation
Volume	127
Issue number	4
DOIs	https://doi.org/10.1172/JCI88760
State	Published - Apr 3 2017

All Science Journal Classification (ASJC) codes

General Medicine

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10.1172/JCI88760

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Xu, J., Lu, Z., Narayan, A., Le Rouzic, V. P., Xu, M., Hunkele, A., Brown, T. G., Hoefer, W. F., Rossi, G. C., Rice, R. C., Martínez-Rivera, A., Rajadhyaksha, A. M., Cartegni, L., Bassoni, D. L., Pasternak, G. W., & Pan, Y. X. (2017). Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine. Journal of Clinical Investigation, 127(4), 1561-1573. https://doi.org/10.1172/JCI88760

@article{6bc09af47fff494287ec5209ac1c74f7,

title = "Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine",

abstract = "Extensive 3? alternative splicing of the mu opioid receptor gene OPRM1 creates multiple C-terminal splice variants. However, their behavioral relevance remains unknown. The present study generated 3 mutant mouse models with truncated C termini in 2 different mouse strains, C57BL/6J (B6) and 129/SvEv (129). One mouse truncated all C termini downstream of Oprm1 exon 3 (mE3M mice), while the other two selectively truncated C-terminal tails encoded by either exon 4 (mE4M mice) or exon 7 (mE7M mice). Studies of these mice revealed divergent roles for the C termini in morphine-induced behaviors, highlighting the importance of C-terminal variants in complex morphine actions. In mE7M-B6 mice, the exon 7-associated truncation diminished morphine tolerance and reward without altering physical dependence, whereas the exon 4-associated truncation in mE4M-B6 mice facilitated morphine tolerance and reduced morphine dependence without affecting morphine reward. mE7M-B6 mutant mice lost morphine-induced receptor desensitization in the brain stem and hypothalamus, consistent with exon 7 involvement in morphine tolerance. In cell-based studies, exon 7-associated variants shifted the bias of several mu opioids toward ?-arrestin 2 over G protein activation compared with the exon 4-associated variant, suggesting an interaction of exon 7-associated C-terminal tails with ?-arrestin 2 in morphine-induced desensitization and tolerance. Together, the differential effects of C-terminal truncation illustrate the pharmacological importance of OPRM1 3? alternative splicing.",

author = "Jin Xu and Zhigang Lu and Ankita Narayan and {Le Rouzic}, {Valerie P.} and Mingming Xu and Amanda Hunkele and Brown, {Taylor G.} and Hoefer, {William F.} and Rossi, {Grace C.} and Rice, {Richard C.} and Arlene Mart{\'i}nez-Rivera and Rajadhyaksha, {Anjali M.} and Luca Cartegni and Bassoni, {Daniel L.} and Pasternak, {Gavril W.} and Pan, {Ying Xian}",

note = "Funding Information: Acknowledgments This work was supported by the NIH (DA013997 and DA029244 to YXP, DA06241 and DA07242 to GWP, DA029122 to AM Rajadhyaksha, and DA029122S2 to A Mart{\'i}nez-Rivera, and a core grant from the National Cancer Institute to Memorial Sloan Kettering Cancer Center, CA08748). We thank Chingwen Yang (Gene Targeting Resource Center, The Rockefeller University) for providing the DTA plasmid and generating targeted ES cells, Connie Zhao (Genomics Resource Center, The Rockefeller University) for help genotyping SNPs using a Mouse Medium Density Linkage SNP panel (Illumina) in speed congenic breeding, Margaret Leversha (Molecular Cytogenetics Core, Memorial Sloan Kettering Cancer Center) for help karyotyping ES clones, Willie Mark (Mouse Genetics Core, Memorial Sloan Kettering Cancer Center) for help generating targeted mice, and DiscoverX Corporation for assisting {\ss}-arrestin 2 recruitment assay.",

year = "2017",

month = apr,

day = "3",

doi = "10.1172/JCI88760",

language = "English (US)",

volume = "127",

pages = "1561--1573",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "American Society for Clinical Investigation",

number = "4",

}

Xu, J, Lu, Z, Narayan, A, Le Rouzic, VP, Xu, M, Hunkele, A, Brown, TG, Hoefer, WF, Rossi, GC, Rice, RC, Martínez-Rivera, A, Rajadhyaksha, AM, Cartegni, L, Bassoni, DL, Pasternak, GW & Pan, YX 2017, 'Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine', Journal of Clinical Investigation, vol. 127, no. 4, pp. 1561-1573. https://doi.org/10.1172/JCI88760

TY - JOUR

T1 - Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine

AU - Xu, Jin

AU - Lu, Zhigang

AU - Narayan, Ankita

AU - Le Rouzic, Valerie P.

AU - Xu, Mingming

AU - Hunkele, Amanda

AU - Brown, Taylor G.

AU - Hoefer, William F.

AU - Rossi, Grace C.

AU - Rice, Richard C.

AU - Martínez-Rivera, Arlene

AU - Rajadhyaksha, Anjali M.

AU - Cartegni, Luca

AU - Bassoni, Daniel L.

AU - Pasternak, Gavril W.

AU - Pan, Ying Xian

N1 - Funding Information: Acknowledgments This work was supported by the NIH (DA013997 and DA029244 to YXP, DA06241 and DA07242 to GWP, DA029122 to AM Rajadhyaksha, and DA029122S2 to A Martínez-Rivera, and a core grant from the National Cancer Institute to Memorial Sloan Kettering Cancer Center, CA08748). We thank Chingwen Yang (Gene Targeting Resource Center, The Rockefeller University) for providing the DTA plasmid and generating targeted ES cells, Connie Zhao (Genomics Resource Center, The Rockefeller University) for help genotyping SNPs using a Mouse Medium Density Linkage SNP panel (Illumina) in speed congenic breeding, Margaret Leversha (Molecular Cytogenetics Core, Memorial Sloan Kettering Cancer Center) for help karyotyping ES clones, Willie Mark (Mouse Genetics Core, Memorial Sloan Kettering Cancer Center) for help generating targeted mice, and DiscoverX Corporation for assisting ß-arrestin 2 recruitment assay.

PY - 2017/4/3

Y1 - 2017/4/3

N2 - Extensive 3? alternative splicing of the mu opioid receptor gene OPRM1 creates multiple C-terminal splice variants. However, their behavioral relevance remains unknown. The present study generated 3 mutant mouse models with truncated C termini in 2 different mouse strains, C57BL/6J (B6) and 129/SvEv (129). One mouse truncated all C termini downstream of Oprm1 exon 3 (mE3M mice), while the other two selectively truncated C-terminal tails encoded by either exon 4 (mE4M mice) or exon 7 (mE7M mice). Studies of these mice revealed divergent roles for the C termini in morphine-induced behaviors, highlighting the importance of C-terminal variants in complex morphine actions. In mE7M-B6 mice, the exon 7-associated truncation diminished morphine tolerance and reward without altering physical dependence, whereas the exon 4-associated truncation in mE4M-B6 mice facilitated morphine tolerance and reduced morphine dependence without affecting morphine reward. mE7M-B6 mutant mice lost morphine-induced receptor desensitization in the brain stem and hypothalamus, consistent with exon 7 involvement in morphine tolerance. In cell-based studies, exon 7-associated variants shifted the bias of several mu opioids toward ?-arrestin 2 over G protein activation compared with the exon 4-associated variant, suggesting an interaction of exon 7-associated C-terminal tails with ?-arrestin 2 in morphine-induced desensitization and tolerance. Together, the differential effects of C-terminal truncation illustrate the pharmacological importance of OPRM1 3? alternative splicing.

AB - Extensive 3? alternative splicing of the mu opioid receptor gene OPRM1 creates multiple C-terminal splice variants. However, their behavioral relevance remains unknown. The present study generated 3 mutant mouse models with truncated C termini in 2 different mouse strains, C57BL/6J (B6) and 129/SvEv (129). One mouse truncated all C termini downstream of Oprm1 exon 3 (mE3M mice), while the other two selectively truncated C-terminal tails encoded by either exon 4 (mE4M mice) or exon 7 (mE7M mice). Studies of these mice revealed divergent roles for the C termini in morphine-induced behaviors, highlighting the importance of C-terminal variants in complex morphine actions. In mE7M-B6 mice, the exon 7-associated truncation diminished morphine tolerance and reward without altering physical dependence, whereas the exon 4-associated truncation in mE4M-B6 mice facilitated morphine tolerance and reduced morphine dependence without affecting morphine reward. mE7M-B6 mutant mice lost morphine-induced receptor desensitization in the brain stem and hypothalamus, consistent with exon 7 involvement in morphine tolerance. In cell-based studies, exon 7-associated variants shifted the bias of several mu opioids toward ?-arrestin 2 over G protein activation compared with the exon 4-associated variant, suggesting an interaction of exon 7-associated C-terminal tails with ?-arrestin 2 in morphine-induced desensitization and tolerance. Together, the differential effects of C-terminal truncation illustrate the pharmacological importance of OPRM1 3? alternative splicing.

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U2 - 10.1172/JCI88760

DO - 10.1172/JCI88760

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SN - 0021-9738

VL - 127

SP - 1561

EP - 1573

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 4

ER -

Alternatively spliced mu opioid receptor C termini impact the diverse actions of morphine

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