Intra- and Interregional Coregulation of Opioid Genes: Broken Symmetry in Spinal Circuits

Overview

Journal FASEB J

Specialties Biology
Physiology

Date 2017 Jan 27

PMID 28122917

Citations 13

Authors

Olga Kononenko

Vladimir Galatenko

Malin Andersson

Igor Bazov

Hiroyuki Watanabe

Xing Wu Zhou

Anna Iatsyshyna

Irina Mityakina

Tatiana Yakovleva

Daniil Sarkisyan

Igor Ponomarev

Oleg Krishtal

Niklas Marklund

Alex Tonevitsky

DeAnna L Adkins

Georgy Bakalkin

Affiliations

Soon will be listed here.

Abstract

Regulation of the formation and rewiring of neural circuits by neuropeptides may require coordinated production of these signaling molecules and their receptors that may be established at the transcriptional level. Here, we address this hypothesis by comparing absolute expression levels of opioid peptides with their receptors, the largest neuropeptide family, and by characterizing coexpression (transcriptionally coordinated) patterns of these genes. We demonstrated that expression patterns of opioid genes highly correlate within and across functionally and anatomically different areas. Opioid peptide genes, compared with their receptor genes, are transcribed at much greater absolute levels, which suggests formation of a neuropeptide cloud that covers the receptor-expressed circuits. Surprisingly, we found that both expression levels and the proportion of opioid receptors are strongly lateralized in the spinal cord, interregional coexpression patterns are side specific, and intraregional coexpression profiles are affected differently by left- and right-side unilateral body injury. We propose that opioid genes are regulated as interconnected components of the same molecular system distributed between distinct anatomic regions. The striking feature of this system is its asymmetric coexpression patterns, which suggest side-specific regulation of selective neural circuits by opioid neurohormones.-Kononenko, O., Galatenko, V., Andersson, M., Bazov, I., Watanabe, H., Zhou, X. W., Iatsyshyna, A., Mityakina, I., Yakovleva, T., Sarkisyan, D., Ponomarev, I., Krishtal, O., Marklund, N., Tonevitsky, A., Adkins, D. L., Bakalkin, G. Intra- and interregional coregulation of opioid genes: broken symmetry in spinal circuits.

Citing Articles

The Left-Right Side-Specific Neuroendocrine Signaling from Injured Brain: An Organizational Principle.

Watanabe H, Kobikov Y, Nosova O, Sarkisyan D, Galatenko V, Carvalho L Function (Oxf). 2024; 5(4).

PMID: 38985004 PMC: 11237900. DOI: 10.1093/function/zqae013.

A118G polymorphism modulating motor pathway for pain adaptability in women with primary dysmenorrhea.

Hsu P, Cheng C, Chao H, Lin M, Li W, Lee L Front Neurosci. 2023; 17:1179851.

PMID: 37378013 PMC: 10291086. DOI: 10.3389/fnins.2023.1179851.

The left-right side-specific endocrine signaling in the effects of brain lesions: questioning of the neurological dogma.

Bakalkin G Cell Mol Life Sci. 2022; 79(11):545.

PMID: 36219330 PMC: 9553812. DOI: 10.1007/s00018-022-04576-9.

The Development of Hindlimb Postural Asymmetry Induced by Focal Traumatic Brain Injury Is Not Related to Serotonin 2A/C Receptor Expression in the Spinal Cord.

Andersen M, Guler D, Larsen J, Rich K, Fex Svenningsen A, Zhang M Int J Mol Sci. 2022; 23(10).

PMID: 35628167 PMC: 9140651. DOI: 10.3390/ijms23105358.

The left-right side-specific endocrine signaling: implications for neurological deficits in stroke and neurodevelopmental disorders.

Bakalkin G, Lukoyanov N, Lavrov I, Zhang M Neural Regen Res. 2022; 17(11):2431-2433.

PMID: 35535887 PMC: 9120682. DOI: 10.4103/1673-5374.335811.

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