Actoprotectors or synthetic adaptogens are compounds that enhance an organism's resilience to physical stress without increasing heat output.[1] Actoprotectors are distinct from other performance-enhancing substances in that they increase physical and psychological resilience via non-exhaustive action.[1] The term "actoprotector" is used to describe synthetic and isolated compounds possessing adaptogenic properties. By contrast, the term "adaptogen" is most often use to describe a natural herb as a whole, which can contain hundreds if not thousands of biologically active components.[2]

Distinction from psychostimulants

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The term actoprotector was coined to distinguish between the pharmacologically distinct mechanism of action of psychostimulant drugs (especially substituted phenethylamines) and actoprotectors. Drugs of both classes can improve resilience to stress, but actoprotectors are presumed to do so via non-exhaustive action.[1]

For example, at least part of the action of bromantane on improving physical resiliency is mediated by upregulation of tyrosine hydroxylase, thereby indirectly increasing dopaminergic signaling in the brain.[3] The action of amphetamine (a phenethylamine psychostimulant) on improving physical resiliency is primarily mediated by induction of dopamine and norepinephrine release from the neuronal vesicles.[4] Clinically, it appears that the anti-asthenic effects of amphetamine quickly disappear within 24 hours of a prior dose,[5] whereas the anti-asthenic effects of bromantane have been found to persist for at least one month after treatment cessation.[6]

Criteria

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In a similar fashion to the term nootropic, the term actoprotector maintains various criteria:[1]

  1. Have minimal [direct] pharmacological activity on biological receptors.
  2. Facilitate rapid recovery (by reducing central nervous system fatigue).
  3. Most effective in individuals with low to moderate baseline resilience to stress.
  4. Involve a complexity of biochemical processes.
  5. Decrease entropy of an organism (lowering oxygen consumption, body temperature, heart rate, etc).
  6. Possess efficacy that is independent of extreme conditions.
  7. Possess the ability to modify the pathology of pathogenic therapy agents.

Chemical structure

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Most actoprotectors fall into several groups depending on their chemical structure:[7]

List of actoprotectors

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See also

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References

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  1. ^ a b c d Oliynyk S, Oh S (September 2012). "The pharmacology of actoprotectors: practical application for improvement of mental and physical performance". Biomolecules & Therapeutics. 20 (5): 446–456. doi:10.4062/biomolther.2012.20.5.446. PMC 3762282. PMID 24009833.
  2. ^ "Reflection Paper on the Adaptogenic Concept" (PDF). European Medicines Agency. 8 May 2008.
  3. ^ Morozov, I. S.; Ivanova, I. A.; Lukicheva, T. A. (2001-05-01). "Actoprotector and Adaptogen Properties of Adamantane Derivatives (A Review)". Pharmaceutical Chemistry Journal. 35 (5): 235–238. doi:10.1023/A:1011905302667. ISSN 1573-9031. S2CID 29475883.
  4. ^ Martin, Dustin; Le, Jacqueline K. (2022), "Amphetamine", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 32310563, retrieved 2022-08-18
  5. ^ Lohr, W. David; Wanta, Jonathon W.; Baker, Megan; Grudnikoff, Eugene; Morgan, Wynne; Chhabra, Divya; Lee, Terry (2021-04-20). "Intentional Discontinuation of Psychostimulants Used to Treat ADHD in Youth: A Review and Analysis". Frontiers in Psychiatry. 12: 642798. doi:10.3389/fpsyt.2021.642798. ISSN 1664-0640. PMC 8093505. PMID 33959050.
  6. ^ Voznesenskaia, T. G.; Fokina, N. M.; Iakhno, N. N. (2010). "[Treatment of asthenic disorders in patients with psychoautonomic syndrome: results of a multicenter study on efficacy and safety of ladasten]". Zhurnal Nevrologii I Psikhiatrii Imeni S.S. Korsakova. 110 (5 Pt 1): 17–26. ISSN 1997-7298. PMID 21322821.
  7. ^ Oliynyk, Sergiy; Oh, Sei-Kwan (2012-09-30). "The Pharmacology of Actoprotectors: Practical Application for Improvement of Mental and Physical Performance". Biomolecules and Therapeutics. 20 (5): 446–456. doi:10.4062/biomolther.2012.20.5.446. ISSN 1976-9148. PMC 3762282. PMID 24009833.
  8. ^ Iakovlieva, I. Iu (2013). "[Mechanisms of actoprotective action of succinic acid's derivatives]". Likars'ka Sprava (3): 78–85. ISSN 1019-5297. PMID 25016753.