Norepinephrine transporter
The norepinephrine transporter, also known as noradrenaline transporter and solute carrier family 6 member 2, is a protein that in humans is encoded by the SLC6A2 gene.
NET is a monoamine transporter and is responsible for the sodium-chloride -dependent reuptake of extracellular norepinephrine, which is also known as noradrenaline. NET can also reuptake extracellular dopamine. The reuptake of these two neurotransmitters is essential in regulating concentrations in the synaptic cleft. NETs, along with the other monoamine transporters, are the targets of many antidepressants and recreational drugs. In addition, an overabundance of NET is associated with ADHD. There is evidence that single-nucleotide polymorphisms in the NET gene may be an underlying factor in some of these disorders.
Gene
The norepinephrine transporter gene, SLC6A2 is located on human chromosome 16 locus 16q12.2. This gene is encoded by 14 exons. Based on the nucleotide and amino acid sequence, the NET transporter consists of 617 amino acids with 12 membrane-spanning domains. The structural organization of NET is highly homologous to other members of a sodium/chloride-dependent family of neurotransmitter transporters, including dopamine, epinephrine, serotonin and GABA transporters.Single-nucleotide polymorphisms
A single-nucleotide polymorphism is a genetic variation in which a genome sequence is altered by a single nucleotide. NET proteins with an altered amino acid sequence could potentially be associated with various diseases that involve abnormally high or low plasma levels of norepinephrine due to altered NET function. NET SNPs and possible associations with various diseases are an area of focus for many research projects. There is evidence suggesting a relationship between NET SNPs and various disorders such as ADHD psychiatric disorders, postural tachycardia and orthostatic intolerance. The SNPs rs3785143 and rs11568324 have been related to attention-deficit hyperactivity disorder. Thus far, however, the only confirmed direct association between a SNP and a clinical condition is that of the SNP, Ala457Pro, and orthostatic intolerance. Thirteen NET missense mutations have been discovered so far.| Location | Amino Acid Variant | TMD | Related Disease |
| Exon 2 | Val69Ile | TMD 1 | - |
| Exon 3 | Thr99Ile | TMD 2 | - |
| Exon 5 | Val245Ile | TMD 4 | - |
| Exon 6 | Asn292Thr | n/a | - |
| Exon 8 | Val356Leu | n/a | - |
| Exon 8 | Ala369Pro | n/a | - |
| Exon 8 | Asn375Ser | n/a | - |
| Exon 10 | Val449Ile | TMD 9 | - |
| Exon 10 | Ala457Pro | TMD 9 | Orthostatic intolerance |
| Exon 10 | Lys463Arg | n/a | - |
| Exon 11 | Gly478Ser | TMD 10 | - |
| Exon 12 | Phe528Cys | n/a | - |
| Exon 13 | Tyr548His | n/a | - |
Abbreviations: TMD, transmembrane domain; n/a, non-applicable.
For the table above, refer to this table of standard amino acid abbreviations. This notation for
missense mutations, take Val69Ile for example, indicates that amino acid Val69 was changed to Ile.
Genetic variations
An epigenetic mechanism that results in reduced expression of the noradrenaline transporter and consequently a phenotype of impaired neuronal reuptake of norepinephrine has been implicated in both postural orthostatic tachycardia syndrome and panic disorder.Structure
The norepinephrine transporter is composed of 12 transmembrane domains. The intracellular portion contains an amino group and carboxyl group. In addition, there is a large extracellular loop located between TMD 3 and 4. The protein is composed of 617 amino acids.Function
NET functions to transport synaptically released norepinephrine back into the presynaptic neuron. As much as 90% of the norepinephrine released will be taken back up in the cell by NET. NET functions by coupling the influx of sodium and chloride with the transport of norepinephrine. This occurs at a fixed ratio of 1:1:1. Both the NET and the dopamine transporter can transport norepinephrine and dopamine. The reuptake of norepinephrine and dopamine is essential in regulating the concentration of monoamine neurotransmitters in the synaptic cleft. The transporter also helps maintain homeostatic balances of the presynaptic neuron.Norepinephrine is released from noradrenergic neurons that innervate both the CNS and PNS. NE, also known as noradrenaline, has an important role in controlling mood, arousal, memory, learning, and pain perception. NE is a part of the sympathetic nervous system. Dysregulation of the removal of norepinephrine by NET is associated with many neuropsychiatric diseases, discussed below. In addition, many antidepressants and recreational drugs compete for the binding of NET with NE.
Transport mechanisms
The transport of norepinephrine back into presynaptic cell is made possible by the cotransport with Na+ and Cl−. The sequential binding of the ions results in the eventual reuptake of norepinephrine. The ion gradients of Na+ and Cl− make this reuptake energetically favorable. The gradient is generated by the Na+/K+-ATPase which transports three sodium ions out and two potassium ions into the cell. NETs have conductances similar to those of ligand-gated ion channels. The expression of NET results in a leak-channel activity.Location in the nervous system
NETs are restricted to noradrenergic neurons and are not present on neurons that release dopamine or epinephrine. The transporters can be found along the cell body, axons, and dendrites of the neuron. NETs are located away from the synapse, where norepinephrine is released. They are found closer to the plasma membrane of the cell. This requires norepinephrine to diffuse from the site it is released to the transporter for reuptake. Norepinephrine transporters are confined to the neurons of the sympathetic system, and those innervating the adrenal medulla, lung, and placenta.Regulation
Regulation of NET function is complex and a focus of current research. NETs are regulated at both the cellular and molecular level post-translation. The most understood mechanisms include phosphorylation by the second messenger protein kinase C. PKC has been shown to inhibit NET function by sequestration of the transporter from the plasma membrane. The amino acid sequence of NET has shown multiple sites related to protein kinase phosphorylation. Post-translational modifications can have a wide range of effects on the function of the NET, including the rate of fusion of NET-containing vesicles with the plasma membrane, and transporter turnover.Clinical significance
Orthostatic intolerance
Orthostatic intolerance is a disorder of the autonomic nervous system characterized by the onset of symptoms upon standing. Symptoms include fatigue, lightheadedness, headache, weakness, increased heart rate/heart palpitations, anxiety, and altered vision. Often, patients have high plasma norepinephrine concentrations in relation to sympathetic outflow upon standing, suggesting OI is a hyperadrenergic condition.The discovery of identical twin sisters both suffering from OI suggested a genetic basis for the disorder. A missense mutation on the NET gene was discovered in which an alanine residue was replaced with a proline residue in a highly conserved region of the transporter. The patients’ defective NET had only 2% of the activity of the wild-type version of the gene. The genetic defect in the NET protein results in decreased NET activity that could account for abnormally high NE plasma levels in OI. However, 40 other OI patients did not have the same missense mutation, indicating other factors contributed to the phenotype in the identical twins. This discovery of the linkage with NET mutations that results in decreased norepinephrine reuptake activity and orthostatic intolerance suggests faulty NE uptake mechanisms can contribute to cardiovascular disease.