Transient Receptor Potential Channels: Important Players in Ocular Pain and Dry Eye Disease

Dry eye disease (DED) is a multifactorial disorder in which the eyes respond to minor stimuli with abnormal sensations, such as dryness, blurring, foreign body sensation, discomfort, irritation, and pain. Corneal pain, as one of DED’s main symptoms, has gained recognition due to its increasing prevalence, morbidity, and the resulting social burden. The cornea is the most innervated tissue in the body, and the maintenance of corneal integrity relies on a rich density of nociceptors, such as polymodal nociceptor neurons, cold thermoreceptor neurons, and mechano-nociceptor neurons. Their sensory responses to different stimulating forces are linked to the specific expression of transient receptor potential (TRP) channels. TRP channels are a group of unique ion channels that play important roles as cellular sensors for various stimuli. These channels are nonselective cation channels with variable Ca²⁺ selectivity. TRP homologs are a superfamily of 28 different members that are subdivided into 7 different subfamilies based on differences in sequence homology. Many of these subtypes are expressed in the eye on both neuronal and non-neuronal cells, where they affect various stress-induced regulatory responses essential for normal vision maintenance. This article reviews the current knowledge about the expression, function, and regulation of TRPs in ocular surface tissues. We also describe their implication in DED and ocular pain. These findings contribute to evidence suggesting that drug-targeting TRP channels may be of therapeutic benefit in the clinical setting of ocular pain.

[Understanding chronic ocular pain]

Dry eye disease (DED) is a common chronic condition with multifactorial etiologies that is increasing in prevalence worldwide, up to 20% in the elderly. The economic burden and impact of DED on vision, quality of life, work productivity, psychological and physical impact of pain, are considerable. Chronic ocular pain is the most common symptom of DED and there is currently no topical ocular analgesic therapy available to treat this debilitating disease. Eye pain can be perceived as itch, irritation, dryness, grittiness, burning, aching, and light sensitivity. Ocular pain is triggered by corneal nociceptors (cornea being the most sensory innervated tissue of the body). It was clearly established that repeated direct damage to ocular surface and per se corneal nerves can cause peripheral and central sensitization mechanisms explaining the ocular pain in some patients with DED. However, the brain regions and the neuronal pathways associated with ocular pain are still unclear. Thus, a better characterization of chronic ocular pain and an understanding of the peripheral and central molecular and cellular mechanisms involved are crucial issues for developing effective management and therapeutic strategy to alleviate ocular pain. In this review, we first describe the nociceptive corneal nerve pathways and the classification and the neurochemistry of primary afferents innervating the cornea. Then, an update of the fundamental and clinical studies related to the inflammatory processes linked to ocular pain is detailed. The last part of the review presents the diagnostic tools used in clinic for evaluating corneal sensitivity and corneal inflammation.