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Tmem160 contributes to the establishment of discrete nerve injury-induced pain behaviors in male mice

Daniel Segelcke, Hanna K. Fischer, Meike Hütte, Sven Dennerlein, Fritz Benseler, Nils Brose, Esther Pogatzki‐Zahn, Manuela Schmidt

2021Cell Reports35 citationsDOIOpen Access PDF

Abstract

Chronic pain is a prevalent medical problem, and its molecular basis remains poorly understood. Here, we demonstrate the significance of the transmembrane protein (Tmem) 160 for nerve injury-induced neuropathic pain. An extensive behavioral assessment suggests a pain modality- and entity-specific phenotype in male Tmem160 global knockout (KO) mice: delayed establishment of tactile hypersensitivity and alterations in self-grooming after nerve injury. In contrast, Tmem160 seems to be dispensable for other nerve injury-induced pain modalities, such as non-evoked and movement-evoked pain, and for other pain entities. Mechanistically, we show that global KO males exhibit dampened neuroimmune signaling and diminished TRPA1-mediated activity in cultured dorsal root ganglia. Neither these changes nor altered pain-related behaviors are observed in global KO female and male peripheral sensory neuron-specific KO mice. Our findings reveal Tmem160 as a sexually dimorphic factor contributing to the establishment, but not maintenance, of discrete nerve injury-induced pain behaviors in male mice.

Topics & Concepts

Nerve injuryNeuropathic painStimulus modalityNeuroscienceKnockout mouseMedicinePeripheral nerve injuryPhenotypeChronic painSensory systemPeripheral nerveBiologyInternal medicineReceptorAnatomyGeneBiochemistryPain Mechanisms and TreatmentsIon channel regulation and functionNeuroscience and Neuropharmacology Research
Tmem160 contributes to the establishment of discrete nerve injury-induced pain behaviors in male mice | Litcius