Transmembrane protein TMEM184B is necessary for interleukin-31–induced itch : PAIN

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Research Paper

Transmembrane protein TMEM184B is necessary for interleukin-31–induced itch

Larsen, Erik G.a; Cho, Tiffany S.a; McBride, Matthew L.a; Feng, Jingb; Manivannan, Bhagyashreea; Madura, Cynthiac; Klein, Nathaniel E.a; Wright, Elizabeth B.a; Wickstead, Edward S.a; Garcia-Verdugo, Hector D.a; Jarvis, Chelseaa; Khanna, Rajeshc; Hu, Hongzhenb; Largent-Milnes, Tally M.c; Bhattacharya, Martha R.C.a,*

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PAIN 163(5):p e642-e653, May 2022. | DOI: 10.1097/j.pain.0000000000002452

Nociceptive and pruriceptive neurons in the dorsal root ganglia (DRG) convey sensations of pain and itch to the spinal cord, respectively. One subtype of mature DRG neurons, comprising 6% to 8% of neurons in the ganglia, is responsible for sensing mediators of acute itch and atopic dermatitis, including the cytokine IL-31. How itch-sensitive (pruriceptive) neurons are specified is unclear. Here, we show that transmembrane protein 184B (TMEM184B), a protein with roles in axon degeneration and nerve terminal maintenance, is required for the expression of a large cohort of itch receptors, including those for interleukin 31 (IL-31), leukotriene C4, and histamine. Male and female mice lacking TMEM184B show reduced responses to IL-31 but maintain normal responses to pain and mechanical force, indicating a specific behavioral defect in IL-31–induced pruriception. Calcium imaging experiments indicate that a reduction in IL-31–induced calcium entry is a likely contributor to this phenotype. We identified an early failure of proper Wnt-dependent transcriptional signatures and signaling components in Tmem184b mutant mice that may explain the improper DRG neuronal subtype specification. Accordingly, lentiviral re-expression of TMEM184B in mutant embryonic neurons restores Wnt signatures. Together, these data demonstrate that TMEM184B promotes adult somatosensation through developmental Wnt signaling and promotion of proper pruriceptive gene expression. Our data illuminate a new key regulatory step in the processes controlling the establishment of diversity in the somatosensory system.

© 2021 International Association for the Study of Pain

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