PNMT ENZYME AND THE PRODUCTION OF EXTRA-ADRENAL ADRENALIN
DOI:
https://doi.org/10.47820/recima21.v4i10.4263Keywords:
Adrenaline. Neuron. Phenylethanolamine N-methyltransferase.Abstract
Introduction:Adrenaline and noradrenaline are neurotransmitters of the sympathetic nervous system. Noradrenaline production occurs in sympathetic postganglionic neurons and in the adrenal gland, while adrenaline is produced almost entirely by the adrenal gland, but new studies indicate significant extra-adrenaline production, thanks to the presence of the enzyme phenylethanolamine N-methyltransferase (PNMT). Objectives: check and evaluate, through previous and recent studies, the sites of production and action of the PNMT enzyme in neurons, gaining a better understanding of the extra adrenal production of adrenaline and its consequences. Methodology: An integrative review was carried out using Science Direct, PubMed and Scielo and the descriptors were PNMT AND NEURON. The criteria adopted in Science Direct were articles published between 2017-2022, review articles and research articles, while in Pubmed and Scielo they were meta-analysis, randomized clinical trials and systematic review. After applying the criteria and selecting the articles that dealt directly with the topic, 12 remained. Results: From the studies, it was found that adrenaline production occurs in the nucleus of the solitary tract, ventro-lateral medulla neurons, locus coeruleus, dorsal motor nucleus of the vagus, stellate ganglion, pre-synaptic neurons of the rostral medulla, C2 and C3 nerve, cardiac cells. Conclusion: Evidence was found to indicate the production of extra-adrenal adrenaline, mainly in sympathetic neurons. In addition, it was found that the presence of PNMT in these regions provided benefits such as blood pressure control, preservation of cardiac function in pre-hypertensive states and anti-inflammatory effects.
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References
Abe, C., Inoue, T., 2018. Role of c1 neurons in anti-inflammatory reflex: mediation between afferents and efferents. Neuroscience research 136, 6–12.
Bardsley, E. N., Davis, H., Buckler, K. J., Paterson, D. J., 2018. Neurotransmitter switching coupled to βadrenergic signaling in sympathetic neurons in prehypertensive states. Hypertension 71 (6), 1226–1238.
Chen, J., Cheng, M., Wang, L., Zhang, L., Xu, D., Cao, P., Wang, F., Herzog, H., Song, S., Zhan, C., 2020. A vagal-nts neural pathway that stimulates feeding. Current Biology 30 (20), 3986–3998.
Esler, M., 2017. Mental stress and human cardiovascular disease. Neuroscience & Biobehavioral Reviews 74, 269– 276.
Guyenet, P. G., Stornetta, R. L., 2022. Rostral ventrolateral medulla, retropontine region and autonomic regulations. Autonomic Neuroscience 237, 102922.
Kakavand, B., 2022. Dizziness, syncope, and autonomic dysfunction in children. Progress in Pediatric Cardiology 65, 101512.
Mendes, P., Martinho, R., Leite, S., Maia-Moço, L., Leite-Moreira, A. F., Lourenço, A. P., MoreiraRodrigues, M., 2018. Chronic exercise induces pathological left ventricular hypertrophy in adrenaline-deficient mice. International journal of cardiology 253, 113–119.
Owji, A., Varudkar, N., Ebert, S. N., 2013. Therapeutic potential of pnmt+ primer cells for neuro/myocardial regeneration. American Journal of Stem Cells 2 (3), 137.
Ribeiro, N., Sá, R. W. M., Antunes, V. R., 2020. Depletion of c1 neurons attenuates the salt-induced hypertension in unanesthetized rats. Brain Research 1748, 147107.
Sahoo, S., Brijesh, S., 2019. Pharmacogenomic assessment of herbal drugs in affective disorders. Biomedicine & Pharmacotherapy 109, 1148–1162.
Souza, G. M., Stornetta, R. L., Stornetta, D. S., Guyenet, P. G., Abbott, S. B., 2022. Adrenergic c1 neurons monitor arterial blood pressure and determine the sympathetic response to hemorrhage. Cell reports 38 (10), 110480.
Sugama, S., Kakinuma, Y., 2020. Stress and brain im munity: Microglial homeostasis through hypothalamuspituitary-adrenal gland axis and sympathetic nervous system. Brain, Behavior, & Immunity-Health 7, 100111.
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