Hyaluronan modulates TRPV1 channel opening, reducing peripheral nociceptor activity and pain

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Abstract

Hyaluronan (HA) is present in the extracellular matrix of all body tissues, including synovial fluid in joints, in which it behaves as a filter that buffers transmission of mechanical forces to nociceptor nerve endings thereby reducing pain. Using recombinant systems, mouse-cultured dorsal root ganglia (DRG) neurons and in vivo experiments, we found that HA also modulates polymodal transient receptor potential vanilloid subtype 1 (TRPV1) channels. HA diminishes heat, pH and capsaicin (CAP) responses, thus reducing the opening probability of the channel by stabilizing its closed state. Accordingly, in DRG neurons, HA decreases TRPV1-mediated impulse firing and channel sensitization by bradykinin. Moreover, subcutaneous HA injection in mice reduces heat and capsaicin nocifensive responses, whereas the intra-articular injection of HA in rats decreases capsaicin joint nociceptor fibres discharge. Collectively, these results indicate that extracellular HA reduces the excitability of the ubiquitous TRPV1 channel, thereby lowering impulse activity in the peripheral nociceptor endings underlying pain.

Abstract

Hyaluronan is a major component of the extracellular matrix, and is used to treat joint pain in osteoarthritis. In this study, Caires et al. show hyaluronan achieves its analgesic effects by targeting TRPV1 and stabilising the channel in its closed state.

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Most cited references 51

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TRPV1 structures in distinct conformations reveal mechanisms of activation

Erhu Cao, Maofu Liao, Yifan Cheng … (2013)

TRP channels are polymodal signal detectors that respond to a wide range of physical and chemical stimuli. Elucidating how these channels integrate and convert physiological signals into channel opening is essential to understanding how they regulate cell excitability under normal and pathophysiological conditions. Here we exploit pharmacological probes (a peptide toxin and small vanilloid agonists) to determine structures of two activated states of the capsaicin receptor, TRPV1. A domain (S1-S4) that moves during activation of voltage-gated channels remains stationary in TRPV1, highlighting differences in gating mechanisms for these structurally related channel superfamilies. TRPV1 opening is associated with major structural rearrangements in the outer pore, including the pore helix and selectivity filter, as well as pronounced dilation of a hydrophobic constriction at the lower gate, suggesting a dual gating mechanism. Allosteric coupling between upper and lower gates may account for rich physiologic modulation exhibited by TRPV1 and other TRP channels.

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The menthol receptor TRPM8 is the principal detector of environmental cold.

Diana Bautista, Jan Siemens, Joshua Glazer … (2007)

Sensory nerve fibres can detect changes in temperature over a remarkably wide range, a process that has been proposed to involve direct activation of thermosensitive excitatory transient receptor potential (TRP) ion channels. One such channel--TRP melastatin 8 (TRPM8) or cold and menthol receptor 1 (CMR1)--is activated by chemical cooling agents (such as menthol) or when ambient temperatures drop below approximately 26 degrees C, suggesting that it mediates the detection of cold thermal stimuli by primary afferent sensory neurons. However, some studies have questioned the contribution of TRPM8 to cold detection or proposed that other excitatory or inhibitory channels are more critical to this sensory modality in vivo. Here we show that cultured sensory neurons and intact sensory nerve fibres from TRPM8-deficient mice exhibit profoundly diminished responses to cold. These animals also show clear behavioural deficits in their ability to discriminate between cold and warm surfaces, or to respond to evaporative cooling. At the same time, TRPM8 mutant mice are not completely insensitive to cold as they avoid contact with surfaces below 10 degrees C, albeit with reduced efficiency. Thus, our findings demonstrate an essential and predominant role for TRPM8 in thermosensation over a wide range of cold temperatures, validating the hypothesis that TRP channels are the principal sensors of thermal stimuli in the peripheral nervous system.

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ANKTM1, a TRP-like channel expressed in nociceptive neurons, is activated by cold temperatures.

Gina M Story, Andrea Peier, Alison J. Reeve … (2003)

Mammals detect temperature with specialized neurons in the peripheral nervous system. Four TRPV-class channels have been implicated in sensing heat, and one TRPM-class channel in sensing cold. The combined range of temperatures that activate these channels covers a majority of the relevant physiological spectrum sensed by most mammals, with a significant gap in the noxious cold range. Here, we describe the characterization of ANKTM1, a cold-activated channel with a lower activation temperature compared to the cold and menthol receptor, TRPM8. ANKTM1 is a distant family member of TRP channels with very little amino acid similarity to TRPM8. It is found in a subset of nociceptive sensory neurons where it is coexpressed with TRPV1/VR1 (the capsaicin/heat receptor) but not TRPM8. Consistent with the expression of ANKTM1, we identify noxious cold-sensitive sensory neurons that also respond to capsaicin but not to menthol.

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Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Pub. Group

ISSN (Electronic): 2041-1723

Publication date (Electronic): 27 August 2015

Publication date Collection: 2015

Volume: 6

Electronic Location Identifier: 8095

Affiliations

[1 ]Instituto de Neurociencias, Universidad Miguel Hernández-CSIC , San Juan de Alicante, 03550 Alicante, Spain

[2 ]Instituto de Biología Molecular y Celular, Universidad Miguel Hernández , Elche, 03202 Alicante, Spain

[3 ]Matrix Biology Institute , 1040 Arcadian Way, Fort Lee, New Jersey 07024, USA

Author notes

[a ] carlos.belmonte@ 123456umh.es

[b ] elvirap@ 123456umh.es

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Publisher Item ID: ncomms9095

DOI: 10.1038/ncomms9095

PMC ID: 4560824

PubMed ID: 26311398

SO-VID: 0e3238d2-4f9b-4286-b20a-00b58a36ae29

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Hyaluronan modulates TRPV1 channel opening, reducing peripheral nociceptor activity and pain

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Most cited references 51

TRPV1 structures in distinct conformations reveal mechanisms of activation

The menthol receptor TRPM8 is the principal detector of environmental cold.

ANKTM1, a TRP-like channel expressed in nociceptive neurons, is activated by cold temperatures.

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