A thermoreceptor is a sensory receptor, or more accurately the receptive portion of a sensory neuron, that codes absolute and relative changes in temperature, primarily within the innocuous range. In the mammalian peripheral nervous system warmth receptors are thought to be unmyelinated C-fibres (low conduction velocity), while those responding to cold have both C-fibers and thinly myelinated A delta fibers (faster conduction velocity). The adequate stimulus for a warm receptor is warming, which results in an increase in their action potential discharge rate. Cooling results in a decrease in warm receptor discharge rate. For cold receptors their firing rate increases during cooling and decreases during warming. Some cold receptors also respond with a brief action potential discharge to high temperatures, i.e. typically above 45°C, and this is known as a paradoxical response to heat. The mechanism responsible for this behavior has not been determined. A special form of thermoreceptor is found in some snakes, the viper pit organ and this specialized structure is sensitive to energy in the infrared part of the spectrum.
In mammals, temperature receptors innervate various tissues including the skin (as cutaneous receptors), cornea and urinary bladder. Neurons from the pre-optic and hypothalamic regions of the brain that respond to small changes in temperature have also been described, providing information on core temperature. The hypothalamus is involved in thermoregulation, the thermoreceptors allowing feed-forward responses to a predicted change in core body temperature in response to changing environmental conditions.
Thermoreceptors have been classically described as having 'free' non-specialised endings; the mechanism of activation in response to temperature changes is not completely understood.
Cold-sensitive thermoreceptors give rise to the sensations of cooling, cold and freshness. In the cornea cold receptors are thought to respond with an increase in firing rate to cooling produced by evaporation of lacrimal fluid 'tears' and thereby to elicit a reflex blink.
Warm and cold receptors play a part in sensing innocuous environmental temperature. Temperatures likely to damage an organism are sensed by sub-categories of nociceptors that may respond to noxious cold, noxious heat or more than one noxious stimulus modality (i.e., they are polymodal). The nerve endings of sensory neurons that respond preferentially to cooling are found in moderate density in the skin but also occur in relatively high spatial density in the cornea, tongue, bladder, and facial skin. The speculation is that lingual cold receptors deliver information that modulates the sense of taste; i.e. some foods taste good when cold, while others do not.
Mechanism of transduction
This area of research has recently received considerable attention with the identification and cloning of the Transient Receptor Potential (TRP) family of proteins. The transduction of temperature in cold receptors is mediated in part by the TRPM8 channel. This channel passes a mixed inward cationic (predominantly carried by Na+ ions although the channel is also permeable to Ca2+) current of a magnitude that is inversely proportional to temperature. The channel is sensitive over a temperature range spanning about 10-35°C. TRPM8 can also be activated by the binding of an extracellular ligand. Menthol can activate the TRPM8 channel in this way. Since the TRPM8 is expressed in neurons whose physiological role is to signal cooling, menthol applied to various bodily surfaces evokes a sensation of cooling. The feeling of freshness associated with the activation of cold receptors by menthol, particularly those in facial areas with axons in the trigeminal (V) nerve, accounts for its use in numerous toiletries including toothpaste, shaving lotions, facial creams and the like. Another molecular component of cold transduction is the temperature dependence of so-called leak channels which pass an outward current carried by potassium ions. Some leak channels derive from the family of two-pore (2P) domain potassium channels. Amongst the various members of the 2P-domain channels, some close quite promptly at temperatures less than about 28°C (eg. TRAAK, TREK). Temperature also modulates the activity of the Na+/K+-ATPase. The Na+/K+-ATPase is a P-type pump that extrudes 3Na+ ions in exchange for 2K+ ions for each hydrolytic cleavage of ATP. This results in a net movement of positive charge out of the cell, i.e. a hyperpolarizing current. The magnitude of this current is proportional to the rate of pump activity. It has been suggested that it is the constellation of various thermally sensitive proteins together in a neuron that gives rise to a cold receptor. This emergent property of the neuron is thought to comprise, the expression of the aforementioned proteins as well as various voltage-sensitive channels including the hyperpolarization-activated, cyclic nucleotide-gated (HCN) channel and the rapidly activating and inactivating transient potassium channel (IKA).
- ^ Darian-Smith, Ian; Johnson KO, LaMotte C, Shigenaga Y, Kenins P, Champness P (1979). "Warm fibers innervating palmar and digital skin of the monkey: responses to thermal stimuli.". Journal of Neurophysiology 42 (5): 1297–1315. PMID 114608.
- ^ Viana, Felix; la Peña E, Belmonte C (2002). "Specificity of cold thermotransduction is determined by differential ionic channel expression.". Nature Neuroscience 5 (3): 254–260. doi:10.1038/nn809. PMID 11836533.
Nervous system: Sensory systems / senses (TA A15) Special senses Touch Other
Wikimedia Foundation. 2010.
Look at other dictionaries:
thermoreceptor — noun Date: 1937 a sensory end organ that is stimulated by heat or cold … New Collegiate Dictionary
thermoreceptor — n. [Gr. therme, heat; L. recipere, to receive] A sensory receptor that reacts to temperature stimuli … Dictionary of invertebrate zoology
thermoreceptor — /therr moh ri sep teuhr/, n. Physiol. a receptor stimulated by changes in temperature. [1945 50; THERMO + RECEPTOR] * * * … Universalium
thermoreceptor — noun A nerve cell that is sensitive to changes in temperature … Wiktionary
thermoreceptor — A receptor that is sensitive to heat. * * * ther·mo·re·cep·tor .thər mō ri sep tər n a sensory end organ that is stimulated by heat or cold * * * n. a sensory nerve ending that responds to heat or to cold. Such receptor are scattered widely in… … Medical dictionary
thermoreceptor — n. receptor which responds to temperature changes … English contemporary dictionary
thermoreceptor — ther·mo·receptor … English syllables
thermoreceptor — n. a sensory nerve ending that responds to heat or to cold. Such receptors are scattered widely in the skin and in the mucous membrane of the mouth and throat … The new mediacal dictionary
thermoreceptor — ther•mo•re•cep•tor [[t]ˌθɜr moʊ rɪˈsɛp tər[/t]] n. phl a receptor stimulated by changes in temperature • Etymology: 1945–50 … From formal English to slang
thermoreceptor — noun a sensory receptor that responds to heat and cold • Hypernyms: ↑sense organ, ↑sensory receptor, ↑receptor … Useful english dictionary