The brain as a system of nested but partially overlapping networks. Heuristic relevance of the model for brain physiology and pathology
- 17 August 2006
- journal article
- review article
- Published by Springer Nature in Journal of Neural Transmission
- Vol. 114 (1), 3-19
- https://doi.org/10.1007/s00702-006-0563-x
Abstract
A new model of the brain organization is proposed. The model is based on the assumption that a global molecular network enmeshes the entire central nervous system. Thus, brain extra-cellular and intra-cellular molecular networks are proposed to communicate at the level of special plasma membrane regions (e.g., the lipid rafts) where horizontal molecular networks can represent input/output regions allowing the cell to have informational exchanges with the extracellular environment. Furthermore, some “pervasive signals” such as field potentials, pressure waves and thermal gradients that affect large parts of the brain cellular and molecular networks are discussed. Finally, at least two learning paradigms are analyzed taking into account the possible role of Volume Transmission: the so-called model of “temporal difference learning” and the “Turing B-unorganised machine”. The relevance of this new view of brain organization for a deeper understanding of some neurophysiological and neuropathological aspects of its function is briefly discussed.Keywords
This publication has 78 references indexed in Scilit:
- Transduction of Receptor Signals by ß-ArrestinsScience, 2005
- Energy gradients for the homeostatic control of brain ECF composition and for VT signal migration: introduction of the tide hypothesisJournal of Neural Transmission, 2004
- Divalent cations modulate the activity of metabotropic glutamate receptorsJournal of Neuroscience Research, 2003
- Different classes of volume transmission signals exist in the central nervous system, and are affected by metabolic signals, temperature gradients, and pressure wavesNeuroReport, 1994
- Pain, Analgesia, and StressThe Clinical Journal of Pain, 1991
- On the Role of Neuropeptide Y in Information Handling in the Central Nervous System in Normal and Physiopathological States.Annals of the New York Academy of Sciences, 1990
- A correlation analysis of the regional distribution of central enkephalin and β‐endorphin immunoreactive terminals and of opiate receptors in adult and old male rats. Evidence for the existence of two main types of communication in the central nervous system: the volume transmission and the wiring transmissionActa Physiologica Scandinavica, 1986
- The mismatch problem in receptor mapping studiesTrends in Neurosciences, 1985
- New concepts on the structure of the neuronal networks: The miniaturization and hierarchical organization of the central nervous systemBioscience Reports, 1984
- II.—WHAT IS AN EMOTION ?Mind, 1884