Monoamine

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Serotonin is a monoamine neurotransmitter

Monoamine neurotransmitters are neurotransmitters and neuromodulators that contain one amino (-NH2) group that is connected to an aromatic ring by a two-carbon chain (-CH2-CH2-).

All monoamines are derived from aromatic amino acids like phenylalanine, tyrosine, tryptophan, and the thyroid hormones by the action of aromatic amino acid decarboxylase enzymes. Monoaminergic systems, i.e., the networks of neurons that utilize monoamine neurotransmitters, are involved in the regulation of cognitive processes such as emotion, arousal, and certain types of memory.

It has been found that monoamine neurotransmitters play an important role in the secretion and production of neurotrophin-3 by astrocytes, a chemical which maintains neuron integrity and provides neurons with trophic support.[1] Drugs used to increase (or reduce) the effect of monoamine are sometimes used to treat patients with psychiatric disorders, including depression, anxiety, and schizophrenia.[2]

Specific transporter proteins called monoamine transporters that transport monoamines in or out of a cell exist. These are the dopamine transporter (DAT), serotonin transporter (SERT), and the norepinephrine transporter (NET) in the outer cell membrane and the vesicular monoamine transporter (VMAT1 and VMAT2) in the membrane of intracellular vesicles.[citation needed]

After release into the synaptic cleft, monoamine neurotransmitter action is ended by reuptake into the presynaptic terminal. There, they can be repackaged into synaptic vesicles or degraded by the enzyme monoamine oxidase (MAO), which is a target of monoamine oxidase inhibitors (MAOIs), a class of antidepressants.[citation needed]

Examples (Classical Monoamines)

Catecholamines

Tryptamines

  • Serotonin (5-hydroxy-tryptamine abbreviated as 5-HT)
  • Melatonin (N-acetyl-5-methoxy-tryptamine)

Other

Research

Cholinergics

External links

References

  1. Mele, T., Čarman‐Kržan, M., Jurič, D. M. (February 2010). "Regulatory role of monoamine neurotransmitters in astrocytic NT‐3 synthesis". International Journal of Developmental Neuroscience. 28 (1): 13–19. doi:10.1016/j.ijdevneu.2009.10.003. ISSN 0736-5748. 
  2. Kurian, M. A., Gissen, P., Smith, M., Heales, S. J., Clayton, P. T. (August 2011). "The monoamine neurotransmitter disorders: an expanding range of neurological syndromes". The Lancet Neurology. 10 (8): 721–733. doi:10.1016/S1474-4422(11)70141-7. ISSN 1474-4422. 
  3. Romero-Calderón, R., Uhlenbrock, G., Borycz, J., Simon, A. F., Grygoruk, A., Yee, S. K., Shyer, A., Ackerson, L. C., Maidment, N. T., Meinertzhagen, I. A., Hovemann, B. T., Krantz, D. E. (7 November 2008). Dolph, P. J., ed. "A Glial Variant of the Vesicular Monoamine Transporter Is Required To Store Histamine in the Drosophila Visual System". PLoS Genetics. 4 (11): e1000245. doi:10.1371/journal.pgen.1000245. ISSN 1553-7404. 
  4. 4.0 4.1 Tayebati, S. K., Tomassoni, D., Nwankwo, I. E., Di Stefano, A., Sozio, P., Cerasa, L. S., Amenta, F. (1 February 2013). "Modulation of monoaminergic transporters by choline-containing phospholipids in rat brain". CNS & neurological disorders drug targets. 12 (1): 94–103. doi:10.2174/1871527311312010015. ISSN 1996-3181. 
  5. Trabucchi, M., Govoni, S., Battaini, F. (April 1986). "Changes in the interaction between CNS cholinergic and dopaminergic neurons induced by L-alpha-glycerylphosphorylcholine, a cholinomimetic drug". Il Farmaco; Edizione Scientifica. 41 (4): 325–334. ISSN 0430-0920. 
  6. Secades, J. J., Lorenzo, J. L. (September 2006). "Citicoline: pharmacological and clinical review, 2006 update". Methods and Findings in Experimental and Clinical Pharmacology. 28 Suppl B: 1–56. ISSN 0379-0355.