Frontiers in Neural Circuits (Jan 2019)

General Principles of Neuronal Co-transmission: Insights From Multiple Model Systems

  • Erik Svensson,
  • John Apergis-Schoute,
  • Geoffrey Burnstock,
  • Michael P. Nusbaum,
  • David Parker,
  • Helgi B. Schiöth,
  • Helgi B. Schiöth

DOI
https://doi.org/10.3389/fncir.2018.00117
Journal volume & issue
Vol. 12

Abstract

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It is now accepted that neurons contain and release multiple transmitter substances. However, we still have only limited insight into the regulation and functional effects of this co-transmission. Given that there are 200 or more neurotransmitters, the chemical complexity of the nervous system is daunting. This is made more-so by the fact that their interacting effects can generate diverse non-linear and novel consequences. The relatively poor history of pharmacological approaches likely reflects the fact that manipulating a transmitter system will not necessarily mimic its roles within the normal chemical environment of the nervous system (e.g., when it acts in parallel with co-transmitters). In this article, co-transmission is discussed in a range of systems [from invertebrate and lower vertebrate models, up to the mammalian peripheral and central nervous system (CNS)] to highlight approaches used, degree of understanding, and open questions and future directions. Finally, we offer some outlines of what we consider to be the general principles of co-transmission, as well as what we think are the most pressing general aspects that need to be addressed to move forward in our understanding of co-transmission.

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