Nav1.9
Sodium channel, voltage-gated, type XI, alpha subunit also known as SCN11A or Nav1.9 is a voltage-gated sodium ion channel protein which is encoded by the SCN11A gene on chromosome 3 in humans. Like Nav1.7 and Nav1.8, Nav1.9 plays a role in pain perception. This channel is largely expressed in small-diameter nociceptors of the dorsal root ganglion and trigeminal ganglion neurons, but is also found in intrinsic myenteric neurons.
Function
Voltage-gated sodium channels are membrane protein complexes that play a fundamental role in the rising phase of the action potential in most excitable cells. Alpha subunits, such as SCN11A, mediate voltage-dependent gating and conductance, while auxiliary beta subunits regulate the kinetic properties of the channel and facilitate membrane localization of the complex. Aberrant expression patterns or mutations of alpha subunits underlie a number of disorders. Each alpha subunit consists of 4 domains connected by 3 intracellular loops; each domain consists of 6 transmembrane segments and intra- and extracellular linkers. The 4th transmembrane segment of each domain is the voltage-sensing region of the channel. Following depolarization of the cell, voltage-gated sodium channels become inactivated through a change in conformation in which the 4th segments in each domain move into the pore region in response to the highly positive voltage expressed at the peak of the action potential. This effectively blocks the Na+ pore and prevents further influx of Na+, therefore preventing further depolarization. Similarly, when the cell reaches its minimum voltage during hyperpolarization, the 4th segments respond by moving outward, thus reopening the pore and allowing Na+ to flow into the cell.Nav1.9 is known to play a role in nociception, having been linked to the perception of inflammatory, neuropathic, and cold-related pain. It does this primarily through its ability to lower the threshold potential of the neuron, allowing for an increase in action potential firing that leads to hyperexcitability of the neuron and increased pain perception. Because of this role in altering the threshold potential, Nav1.9 is considered a threshold channel. Though most sodium channels are blocked by tetrodotoxin, Nav1.9 is tetrodotoxin-resistant due to the presence of serine on an extracellular linker that plays a role in the selectivity of the pore for Na+. This property is found in similar channels, namely Nav1.8, and has been associated with slower channel kinetics than the tetrodotoxin-sensitive sodium channels. In Nav1.9, this is mostly associated with the slower speed at which channel inactivation occurs.
Animal models of pain
Both Nav1.8 and Nav1.9 have been shown to play a role in bone cancer associated pain using a rat model of bone cancer. The dorsal root ganglion of lumbar 4-5 of rats with bone cancer were shown to have up-regulation of Nav1.8 and Nav1.9 mRNA expression as well as an increase in total number of these alpha subunits. These results suggest that tetrodotoxin-resistant voltage gated sodium channels are involved in the development and maintenance of bone cancer pain.The role of Nav1.9 in chronic inflammatory joint pain has been demonstrated in rat models of chronic inflammatory knee pain. Expression of Nav1.9 in the afferent neurons of the dorsal root ganglion was found to be elevated as many as four weeks after the onset of the inflammatory pain. These results indicated that this alpha subunit plays some role in the maintenance of chronic inflammatory pain.