A Sensory-labeled Line for Cold: TRPM8-expressing Sensory Neurons Define the Cellular Basis for Cold, Cold Pain, and Cooling-mediated Analgesia

Overview

Journal J Neurosci

Specialty Neurology

Date 2013 Feb 15

PMID 23407943

Citations 149

Authors

Wendy M Knowlton

Radhika Palkar

Erika K Lippoldt

Daniel D McCoy

Farhan Baluch

Jessica Chen

David D McKemy

Affiliations

Soon will be listed here.

Abstract

Many primary sensory neurons are polymodal, responding to multiple stimulus modalities (chemical, thermal, or mechanical), yet each modality is recognized differently. Although polymodality implies that stimulus encoding occurs in higher centers, such as the spinal cord or brain, recent sensory neuron ablation studies find that behavioral responses to different modalities require distinct subpopulations, suggesting the existence of modality-specific labeled lines at the level of the sensory afferent. Here we provide evidence that neurons expressing TRPM8, a cold- and menthol-gated channel required for normal cold responses in mammals, represents a labeled line solely for cold sensation. We examined the behavioral significance of conditionally ablating TRPM8-expressing neurons in adult mice, finding that, like animals lacking TRPM8 channels (Trpm8(-/-)), animals depleted of TRPM8 neurons ("ablated") are insensitive to cool to painfully cold temperatures. Ablated animals showed little aversion to noxious cold and did not distinguish between cold and a preferred warm temperature, a phenotype more profound than that of Trpm8(-/-) mice which exhibit only partial cold-avoidance and -preference behaviors. In addition to acute responses, cold pain associated with inflammation and nerve injury was significantly attenuated in ablated and Trpm8(-/-) mice. Moreover, cooling-induced analgesia after nerve injury was abolished in both genotypes. Last, heat, mechanical, and proprioceptive behaviors were normal in ablated mice, demonstrating that TRPM8 neurons are dispensable for other somatosensory modalities. Together, these data show that, although some limited cold sensitivity remains in Trpm8(-/-) mice, TRPM8 neurons are required for the breadth of behavioral responses evoked by cold temperatures.

Citing Articles

Transcriptomic Profile Analysis of Brain Tissue in the Absence of Functional TRPM8 Calcium Channel.

Saldes E, Erdmier A, Velpula J, Koeltzow T, Zhu M, Asuthkar S Biomedicines. 2025; 13(1).

PMID: 39857659 PMC: 11760472. DOI: 10.3390/biomedicines13010075.

A functional unbalance of TRPM8 and Kv1 channels underlies orofacial cold allodynia induced by peripheral nerve damage.

Pina R, Ugarte G, Guevara C, Pino R, Valdebenito K, Romero S Front Pharmacol. 2024; 15:1484387.

PMID: 39703391 PMC: 11655194. DOI: 10.3389/fphar.2024.1484387.

Navigating the Controversies: Role of TRPM Channels in Pain States.

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The neurotrophic factor artemin and its receptor GFRα3 mediate migraine-like pain via the ion channel TRPM8.

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Sensory Processing of Cutaneous Temperature in the Peripheral and Central Nervous System.

Eto K, Cheung D, Nabekura J Adv Exp Med Biol. 2024; 1461:127-137.

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