Satellite glial GPR37L1 and its ligand maresin 1 regulate potassium channel signaling and pain homeostasis
Sangsu Bang, … , Luda Diatchenko, Ru-Rong Ji
Sangsu Bang, … , Luda Diatchenko, Ru-Rong Ji
Published March 26, 2024
Citation Information: J Clin Invest. 2024;134(9):e173537. https://doi.org/10.1172/JCI173537.
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Research Article Neuroscience

Satellite glial GPR37L1 and its ligand maresin 1 regulate potassium channel signaling and pain homeostasis

Abstract

G protein–coupled receptor 37-like 1 (GPR37L1) is an orphan GPCR with largely unknown functions. Here, we report that Gpr37l1/GRP37L1 ranks among the most highly expressed GPCR transcripts in mouse and human dorsal root ganglia (DRGs) and is selectively expressed in satellite glial cells (SGCs). Peripheral neuropathy induced by streptozotoxin (STZ) and paclitaxel (PTX) led to reduced GPR37L1 expression on the plasma membrane in mouse and human DRGs. Transgenic mice with Gpr37l1 deficiency exhibited impaired resolution of neuropathic pain symptoms following PTX- and STZ-induced pain, whereas overexpression of Gpr37l1 in mouse DRGs reversed pain. GPR37L1 is coexpressed with potassium channels, including KCNJ10 (Kir4.1) in mouse SGCs and both KCNJ3 (Kir3.1) and KCNJ10 in human SGCs. GPR37L1 regulates the surface expression and function of the potassium channels. Notably, the proresolving lipid mediator maresin 1 (MaR1) serves as a ligand of GPR37L1 and enhances KCNJ10- or KCNJ3-mediated potassium influx in SGCs through GPR37L1. Chemotherapy suppressed KCNJ10 expression and function in SGCs, which MaR1 rescued through GPR37L1. Finally, genetic analysis revealed that the GPR37L1-E296K variant increased chronic pain risk by destabilizing the protein and impairing the protein’s function. Thus, GPR37L1 in SGCs offers a therapeutic target for the protection of neuropathy and chronic pain.

Authors

Sangsu Bang, Changyu Jiang, Jing Xu, Sharat Chandra, Aidan McGinnis, Xin Luo, Qianru He, Yize Li, Zilong Wang, Xiang Ao, Marc Parisien, Lorenna Oliveira Fernandes de Araujo, Sahel Jahangiri Esfahani, Qin Zhang, Raquel Tonello, Temugin Berta, Luda Diatchenko, Ru-Rong Ji

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Figure 2

Mouse and human SGCs express Gpr37l1/GPR37L1 mRNA and GPR37L1 protein.

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Mouse and human SGCs express Gpr37l1/GPR37L1 mRNA and GPR37L1 protein. (...
(A) Double staining of RNAscope ISH (for Gpr37l1) and IHC (for Tuj1) show nonoverlapping expression of Gpr37l1 mRNA (red) and Tuj1 (white) in mouse DRGs. Right, enlarged image from the box in the left panel. Yellow arrows indicate Gpr37l1+ cells surrounding DRG neurons. Scale bars: 25 μm. (B) Double IHC staining shows colocalization of GPR37L1 (red) with FABP7 (white). Scale bar: 25 μm. (C) Western blot showing GPR37L1 expression in DRGs of Gpr37l1+/+, Gpr37l1+/–, and Gpr37l1–/– mice. GAPDH was included as a loading control from the same gel. (D) Double staining of ISH (GPR37L1, red) and IHC (GS green) shows colocalization of GPR37L1 mRNA and GS in human SGCs. (E) Double staining of IHC for GPR37L1 (red) and FABP7 (green) shows heavy colocalization of GPR37L1 and FABP7 in human SGCs. Note that GPR37L1 is enriched on the inner side of SGCs in close contact with neurons. Asterisks indicate neurons, and arrows indicate SGCs surrounding the neurons. Scale bars: 25 μm. (F) Top, Western blots showing PM and intracellular cytosol (IC) fractions of GPR37L1 and GAPDH loading control (from the same gel) in human DRGs of neuropathic pain patients and controls (Con) (n = 3). Bottom, the ratio of PM/IC GPR37L1 expression in human DRGs of control and neuropathic pain patients. Data are represented as means ± SEM and analyzed by t test. **P < 0.05, unpaired Student’s t test. n = 3.