30 years of dynorphins - new insights on their functions in neuropsychiatric diseases.
by
Schwarzer C.
Department of Pharmacology, Innsbruck Medical University,
Peter-Mayr-Str. 1a, A-6020 Innsbruck, Austria.
Pharmacol Ther. 2009 May 27.


ABSTRACT

Since the first description of their opioid properties three decades ago, dynorphins have increasingly been thought to play a regulatory role in numerous functional pathways of the brain. Dynorphins are members of the opioid peptide family and preferentially bind to kappa opioid receptors. In line with their localization in the hippocampus, amygdala, hypothalamus, striatum and spinal cord, their functions are related to learning and memory, emotional control, stress response and pain. Pathophysiological mechanisms that may involve dynorphins/kappa opioid receptors include epilepsy, addiction, depression and schizophrenia. Most of these functions were proposed in the 1980s and 1990s following histochemical, pharmacological and electrophysiological experiments using kappa receptor-specific or general opioid receptor agonists and antagonists in animal models. However, at that time, we had little information on the functional relevance of endogenous dynorphins. This was mainly due to the complexity of the opioid system. Besides actions of peptides from all three classical opioid precursors (proenkephalin, prodynorphin, proopiomelanocortin) on the three classical opioid receptors (delta, mu and kappa), dynorphins were also shown to exert non-opioid effects mainly through direct effects on NMDA receptors. Moreover, discrepancies between the distribution of opioid receptor binding sites and dynorphin immunoreactivity contributed to the difficulties in interpretation. In recent years, the generation of prodynorphin- and opioid receptor-deficient mice has provided the tools to investigate open questions on network effects of endogenous dynorphins. This article examines the physiological, pathophysiological and pharmacological implications of dynorphins in the light of new insights in part obtained from genetically modified animals.
CART
Tramadol
Tolerance
Endomorphins
Fentanyl and ketamine
Dynorphin and depression
Dynorphin A and pain promotion
Kappa upregulation and addiction
Dynorphin: Nature's own antidote to cocaine?
Dynorphin antagonists as future antidepressants?
Pro-pain actions of dynorphin via bradykinin receptors


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