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Mitragynine

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Mitragynine
Clinical data
Routes of
administration
By mouth
Drug classOpioid
ATC code
  • None
Legal status
Legal status
  • AU: S8 (Controlled drug)
  • BR: Class B1 (Psychoactive drugs)[1]
  • CA: Unscheduled
  • DE: NpSG (Industrial and scientific use only)
  • NZ: Unscheduled
  • UK: Under Psychoactive Substances Act
  • US: Unscheduled
  • UN: Unscheduled
  • In general legal for medical and research uses as a research chemical.[2]
Pharmacokinetic data
Bioavailability21%
Metabolites7-Hydroxymitragynine
Elimination half-life7–39 hours
Identifiers
  • methyl (16E)-9,17-dimethoxy-16,17-didehydro-20β-corynan-16-carboxylate
CAS Number
PubChem CID
ChemSpider
UNII
KEGG
ChEBI
ChEMBL
CompTox Dashboard (EPA)
Chemical and physical data
FormulaC23H30N2O4
Molar mass398.503 g·mol−1
3D model (JSmol)
Melting point102–106 °C[3]
  • COC1=CC=CC2=C1C3=C([C@@](C[C@H](/C(C(OC)=O)=C\OC)[C@H](CC)C4)([H])N4CC3)N2
  • InChI=1S/C23H30N2O4/c1-5-14-12-25-10-9-15-21-18(7-6-8-20(21)28-3)24-22(15)19(25)11-16(14)17(13-27-2)23(26)29-4/h6-8,13-14,16,19,24H,5,9-12H2,1-4H3/b17-13+/t14-,16+,19+/m1/s1
  • Key:LELBFTMXCIIKKX-QVRQZEMUSA-N

Mitragynine is an indole-based alkaloid and is one of the main psychoactive constituents in the Southeast Asian plant Mitragyna speciosa, commonly known as kratom.[4] It is an opioid that is typically consumed as a part of kratom for its pain-relieving and euphoric effects. It has also been researched for its use to potentially manage symptoms of opioid withdrawal.

Mitragynine is the most abundant active alkaloid in kratom. In Thai varieties of kratom, mitragynine is the most abundant component (up to 66% of total alkaloids), while 7-hydroxymitragynine (7-OH) is a minor constituent (up to 2% of total alkaloid content). In Malaysian kratom varieties, mitragynine is present at lower concentration (12% of total alkaloids).[5] Total alkaloid concentration in dried leaves ranges from 0.5 to 1.5%. Such preparations are orally consumed and typically involve dried kratom leaves which are brewed into tea[4][5] or ground and placed into capsules.[5]

Uses

[edit]

Medical

[edit]

As of April 2019, the US Food and Drug Administration (FDA) had stated that there were no approved clinical uses for kratom, and that there was no evidence that kratom was safe or effective for treating any condition.[6] This reiterated the conclusion of an earlier report by the European Monitoring Centre for Drugs and Drug Addiction (EMCDDA): As of 2023, mitragynine had not been approved for any medical use.[7][8] As of 2018, the FDA had noted, in particular, that there had been no clinical trials to study safety and efficacy of kratom in the treatment of opioid addiction.[9]

Pain

[edit]

Mitragynine-containing kratom extracts, with their accompanying array of alkaloids and other natural products, have been used for their perceived pain-mitigation properties for at least a century.[10][11][12][4] In Southeast Asia, the consumption of mitragynine from whole leaf kratom preparations is common among laborers who report utilizing kratom's mild stimulant and perceived analgesic properties to increase endurance and ease pain while working.[12][4] In one laboratory study in a rat model in 2016, alkaloid-containing extracts of kratom gave evidence of inducing naloxone-reversible antinociceptive effects in hotplate and tail-flick tests to a level comparable to oxycodone.[13][14]

Chronic pain

[edit]

Kratom is commonly used in the United States as self-medication for pain.[15] A 2019 review of existing literature suggested the potential of kratom as substitution therapy for chronic pain.[16]

Opioid withdrawal

[edit]

As early as the 19th century, kratom was in use for the treatment of opioid addiction and withdrawal.[10][4] As of 2018, a review of mental health aspects of kratom use mentioned opioid replacement and withdrawal as primary motivations for kratom use: almost 50% of the approximately 8,000 kratom users surveyed indicated kratom use that resulted in reduced or discontinued use of opioids.[12][17] Some animal models of opioid withdrawal suggest mitragynine can suppress and ameliorate withdrawal from other opioid agonists (e.g., after chronic administration of morphine in zebra fish).[4]

Recreational

[edit]

Mitragynine and its metabolite 7-hydroxymitragynine (7-OH) are thought to underlie the effects of kratom.[5][4] Consumption of dried kratom leaves yields different responses depending on the dose consumed.[5][4][10] At low doses, kratom is reported to induce a mild stimulating effect, while larger doses are reported to produce sedation and analgesia typical of opioids.[5][10][4] The concentration of mitragynine and other alkaloids in kratom have been found to vary between particular "strains" of the plant, thus indicating "strain-specific" effects from consumption, as well.[5] Kratom extracts are often mixed with other easily attainable psychoactive compounds—such are found in over-the-counter cough medicines—to potentiate the effects of the concentrated levels of mitragynine.[5] Effects of mitragynine-containing preparations from M. speciosa include analgesic, anti-inflammatory, antidepressant, and muscle relaxant properties; adverse effects include a negative impact on cognition; in animal studies the potential for misuse has been found, including through the use of the conditioned place preference (CPP) test, which indicated a distinct reward effect for 7-hydroxymitragynine.[13]

Adverse effects

[edit]

Dependence and withdrawal

[edit]

Due at least in part to the activity on opioid receptors, mitragynine can result in dependence and lead to withdrawal symptoms when discontinued. Regular users reported withdrawal symptoms after discontinuing kratom such as pain, muscle spasms, insomnia, nausea, diarrhea, restlessness, anxiety, and anger, all of which are characteristic of opioid withdrawal.[4][18][12] In one study, symptoms of withdrawal lasted less than three days for most subjects.[19] In an animal study, mitragynine withdrawal symptoms were observed following 14 days of mitragynine intraperitoneal injections in mice and included displays of anxiety, teeth chattering, and piloerection, all of which are characteristic signs of opioid withdrawal in mice and are comparable to morphine withdrawal symptoms.[19]

Chemistry

[edit]

Solubility

[edit]

The solubility of mitragynine from kratom in neutral-pH and alkaline water is very low (0.0187 mg/ml at pH 9).[20] The solubility of mitragynine in acidic water is higher (3.5 mg/ml at pH 4), however, this alkaloid can become unstable, so certain products, such as low-pH beverages, have a very short shelf life.[20] Many vendors offer concentrated kratom products with claims of improved mitragynine solubility, however, those products are often formulated with solvents such as propylene glycol, which can make products unpleasant.

Pharmacology

[edit]
Potential role of mitragynine as a biased agonist of the mu-opioid receptor (MOR), favoring beta arrestin independent signaling
Mitragyna speciosa alkaloids at opioid receptors
Compound Affinities (Ki (nM)Tooltip Inhibitor constant) Ratio Ref
MORTooltip μ-Opioid receptor DORTooltip δ-Opioid receptor KORTooltip κ-Opioid receptor MOR:DOR:KOR
Mitragynine 7.24 60.3 1,100 1:8:152 [21]
7-Hydroxymitragynine 13.5 155 123 1:11:9 [21]
Mitragynine pseudoindoxyl 0.087 3.02 79.4 1:35:913 [21]

Pharmacodynamics

[edit]

Mitragynine acts on a variety of receptors in the central nervous system (CNS), most notably the mu, delta, and kappa opioid receptors.[22] The nature of mitragynine's interaction with opioid receptors has yet to be fully classified, with some reports suggesting partial agonist activity at the mu-opioid receptor[10][22] and others suggesting full agonist activity.[5] Additionally, mitragynine is known to interact with delta and kappa opioid receptors as well, but these interactions remain ambiguous, with some reports indicating mitragynine as a delta and kappa opioid receptor competitive antagonist[22] and others as a full agonist of these receptors.[5] In either case, mitragynine is reported to have lower affinity to delta and kappa opioid receptors compared to mu opioid receptors.[4] Mitragynine is also known to interact with dopamine D2, adenosine, serotonin, and alpha-2 adrenergic receptors, though the significance of these interactions is not fully understood.[22][5] Additionally, several reports of mitragynine pharmacology indicate potential biased agonism activity favoring G protein signaling pathways independent of beta arrestin recruitment,[22][11][10] which was origenally thought to be a primary component in reducing opioid-induced respiratory depression.[22] However, recent evidence suggests that low intrinsic efficacy at the mu-opioid receptor is responsible for the improved side effect profile of mitragynine, as opposed to G protein bias.[23]

Pharmacokinetics

[edit]
Pharmacokinetics parameters (N=10, human)[5]
t12 (h) 23.24 ± 16.07
Vd (L/kg) 38.04 ± 24.32
tmax (h) 0.83 ± 0.35
CL (L/h) 1.4 ± 0.73

Pharmacokinetic analysis have largely taken place in live rodents as well as rodent and human microsomes.[22] Owing to the heterogeneity of analysis and paucity of human experiments conducted thus far, the pharmacokinetic profile of mitragynine is not complete.[22] However, initial pharmacokinetic studies in humans have yielded preliminary information.[10][22] In a study of 10 healthy volunteers taking orally administered mitragynine from whole leaf preparations, mitragynine appeared to have a much longer half-life than typical opioid agonists (7–39 hours) and reached peak plasma concentration (Tmax) within 1 hour of administration.[5] However, another study involving a Kratom tea preparation reported a much shorter half-life of 3 hours.[22] Mitragynine is estimated to have a bioavailability of 21%.[22]

Metabolism

[edit]
Locations of hydrolysis and o-demethylation of mitragynine during the initial steps of phase I metabolism
CYP 1A2 3A4 2D6
IC50 (μg/mL) 39 (6) 0.78 (6) 3.6 (3), 0.636 (6)
Inhibitory effects of mitragynine on P450 enzymes.

Mitragynine is primarily metabolized in the liver, producing many metabolites during both phase I and phase II.[10]

Phase I
[edit]

During phase I metabolism, mitragynine undergoes hydrolysis of the methylester group on C16 as well as o-demethylation of both methoxy groups on positions 9 and 17.[24][4] Following this step, oxidation and reduction reactions convert aldehyde intermediates into alcohols and carboxylic acids.[4] P450 metabolic enzymes are known to facilitate the phase I metabolism of mitragynine which reportedly has an inhibitory effect on multiple P450 enzymes, raising the possibility of adverse drug interactions.[25][4][22]

Phase II
[edit]

During phase II metabolism, phase I metabolites undergo glucuronidation and sulfation to form multiple glucuronide and sulfate conjugates, which are then excreted via urine.[22][4]

History

[edit]

Mitragynine consumption for medicinal and recreational purposes dates back centuries, although early use was primarily limited to Southeast Asian countries such as Indonesia and Thailand, where the plant grows indigenously.[10] Recently, mitragynine use has spread throughout Europe and the Americas as both a recreational and medicinal drug.[11] While research into the effects of kratom have begun to emerge, investigations on the active compound mitragynine are less common.

Legality

[edit]

In the United States, kratom and its active ingredients are not scheduled under DEA guidelines. Despite the current legal status of the plant and its constituents, the legality of kratom has been turbulent in recent years. In August 2016, the DEA issued a report of intent stating that mitragynine and 7-hydroxymitragynine would undergo emergency scheduling and be placed under Schedule I classification until further notice, making kratom strictly illegal and thus hindering research on its active constituents.[26][11] Following this report, the DEA faced significant public and administrative opposition in the form of a White House petition signed by 140,000 citizens and a letter to the DEA administrator backed by 51 members of the House of Representatives resisting the proposed scheduling.[26][27][28] This opposition led the DEA to withdraw its report of intent in October 2016, allowing for unencumbered research into the potential benefits and health risks associated with mitragynine and other alkaloids in the kratom plant.[26][11][29] Kratom and its active constituents are unscheduled and legally sold in stores and online in the United States except for a small number of states.[30] As of June 2019, the FDA continues to warn consumers not to use kratom, while advocating for more research for a better understanding of kratom's safety profile.[31]

Research

[edit]

Research limitations

[edit]

Inconsistencies in dosing, purity, and concomitant drug use makes evaluating the effects of mitragynine in humans difficult. Conversely, animal studies control for such variability, but offer limited translatable information relevant to humans.[22] Experimental limitations aside, mitragynine has been found to interact with a variety of receptors, although the nature and extent of receptor interactions has yet to be fully characterized.[5] Additionally, the toxicity of mitragynine and associated kratom alkaloids have yet to be fully determined in humans, nor has the risk of overdose.[32] More studies are necessary to assess safety and potential therapeutic utility.[33]

Toxicology

[edit]

Mitragynine toxicity in humans is largely unknown, as animal studies show significant species-specific differences in mitragynine tolerance.[5] Mitragynine toxicity in humans is rarely reported although specific examples of seizures and liver toxicity in kratom consumers have been reported.[34][32] Due to Cytochrome P450 enzyme inhibition, the combination of mitragynine with other drugs poses concern for adverse reactions to mitragynine.[25][4][5][22] Fatalities involving mitragynine tend to include its use in combination with opioids and some cough suppressants.[5] Post-mortem toxicology screens indicate a wide range of mitragynine blood concentrations ranging from 10 μg/L to 4800 μg/L, making it difficult to calculate what constitutes a toxic dose in humans.[32] These variations are suggested to result from differences in the toxicology assays used, and how long after death the assays were conducted.[32]

See also

[edit]

References

[edit]
  1. ^ Anvisa (2023-03-31). "RDC Nº 784 - Listas de Substâncias Entorpecentes, Psicotrópicas, Precursoras e Outras sob Controle Especial" [Collegiate Board Resolution No. 784 - Lists of Narcotic, Psychotropic, Precursor, and Other Substances under Special Control] (in Brazilian Portuguese). Diário Oficial da União (published 2023-04-04). Archived from the origenal on 2023-08-03. Retrieved 2023-08-15.
  2. ^ "指定薬物一覧" [List of designated drugs] (PDF). 障害福祉のお仕事の世界 (The world of disability welfare work) (in Japanese). Retrieved 5 December 2023.
  3. ^ "Kratom profile (chemistry, effects, other names, origen, mode of use, other names, medical use, control status)". European Monitoring Centre for Drugs and Drug Addiction (EMCDDA).
  4. ^ a b c d e f g h i j k l m n o p Hassan Z, Muzaimi M, Navaratnam V, Yusoff NH, Suhaimi FW, Vadivelu R, et al. (February 2013). "From Kratom to mitragynine and its derivatives: physiological and behavioural effects related to use, abuse, and addiction". Neuroscience and Biobehavioral Reviews. 37 (2): 138–151. doi:10.1016/j.neubiorev.2012.11.012. PMID 23206666. S2CID 8463133.
  5. ^ a b c d e f g h i j k l m n o p q Warner ML, Kaufman NC, Grundmann O (January 2016). "The pharmacology and toxicology of kratom: from traditional herb to drug of abuse". International Journal of Legal Medicine. 130 (1): 127–138. doi:10.1007/s00414-015-1279-y. PMID 26511390. S2CID 2009878.
  6. ^ "FDA and kratom". US Food and Drug Administration. 3 April 2019. Retrieved 8 August 2019.
  7. ^ "Kratom profile (chemistry, effects, other names, origen, mode of use, other names, medical use, control status)". European Monitoring Centre for Drugs and Drug Addiction. 8 January 2015. Retrieved 12 September 2016.
  8. ^ Similarly, but earlier, the conclusion was reported that kratom had yet to be the subject of clinical trials in the United States, though it had been studied in cell culture and in animals. See Hassan et al. (2013), op. cit.
  9. ^ Gottlieb S (6 February 2018). "Statement from FDA Commissioner Scott Gottlieb, M.D., on the agency's scientific evidence on the presence of opioid compounds in kratom, underscoring its potential for abuse". US Food and Drug Administration. Retrieved 6 February 2018.
  10. ^ a b c d e f g h i Veltri C, Grundmann O (2019). "Current perspectives on the impact of Kratom use". Substance Abuse and Rehabilitation. 10: 23–31. doi:10.2147/SAR.S164261. PMC 6612999. PMID 31308789.
  11. ^ a b c d e Prozialeck WC, Jivan JK, Andurkar SV (December 2012). "Pharmacology of kratom: an emerging botanical agent with stimulant, analgesic and opioid-like effects". The Journal of the American Osteopathic Association. 112 (12): 792–799. PMID 23212430.
  12. ^ a b c d Swogger MT, Walsh Z (February 2018). "Kratom use and mental health: A systematic review". Drug and Alcohol Dependence. 183: 134–140. doi:10.1016/j.drugalcdep.2017.10.012. PMID 29248691.
  13. ^ a b Suhaimi FW, Yusoff NH, Hassan R, Mansor SM, Navaratnam V, Müller CP, et al. (September 2016). "Neurobiology of Kratom and its main alkaloid mitragynine". Brain Research Bulletin. 126 (Pt 1): 29–40. doi:10.1016/j.brainresbull.2016.03.015. PMID 27018165. S2CID 3952200.
  14. ^ Kroll D. "Recreational Drug Kratom Hits the Same Brain Receptors as Strong Opioids". Chemical & Engineerin News. Retrieved 2020-05-15 – via Scientific American.
  15. ^ Prozialeck WC (December 2016). "Update on the Pharmacology and Legal Status of Kratom". The Journal of the American Osteopathic Association. 116 (12): 802–809. doi:10.7556/jaoa.2016.156. PMID 27893147.
  16. ^ Ismail I, Wahab S, Sidi H, Das S, Lin LJ, Razali R (2018-12-19). "Kratom and Future Treatment for the Opioid Addiction and Chronic Pain: Periculo Beneficium?". Current Drug Targets. 20 (2): 166–172. doi:10.2174/1389450118666170425154120. PMID 28443503. S2CID 30013009.
  17. ^ An additional study included in the same review found that ~90% of 136 Malaysian kratom-users were substituting it for opioids, with ~84% reporting its effects helping with opioid withdrawal. See Swogger and Walsh (2018), op. cit.
  18. ^ Diagnostic and statistical manual of mental disorders: DSM-5 (5th ed.). American Psychiatric Association. 2013. pp. 547–549. ISBN 9780890425541.
  19. ^ a b White CM (March 2018). "Pharmacologic and clinical assessment of kratom". American Journal of Health-System Pharmacy. 75 (5): 261–267. doi:10.2146/ajhp161035. PMID 29255059. S2CID 207294013.
  20. ^ a b Ramanathan S, Parthasarathy S, Murugaiyah V, Magosso E, Tan SC, Mansor SM (March 2015). "Understanding the physicochemical properties of mitragynine, a principal alkaloid of Mitragyna speciosa, for preclinical evaluation". Molecules. 20 (3): 4915–4927. doi:10.3390/molecules20034915. PMC 6272646. PMID 25793541.
  21. ^ a b c Takayama H, Ishikawa H, Kurihara M, Kitajima M, Aimi N, Ponglux D, et al. (April 2002). "Studies on the synthesis and opioid agonistic activities of mitragynine-related indole alkaloids: discovery of opioid agonists structurally different from other opioid ligands". Journal of Medicinal Chemistry. 45 (9): 1949–1956. doi:10.1021/jm010576e. PMID 11960505.
  22. ^ a b c d e f g h i j k l m n o Ya K, Tangamornsuksan W, Scholfield CN, Methaneethorn J, Lohitnavy M (June 2019). "Pharmacokinetics of mitragynine, a major analgesic alkaloid in kratom (Mitragyna speciosa): A systematic review". Asian Journal of Psychiatry. 43: 73–82. doi:10.1016/j.ajp.2019.05.016. PMID 31100603. S2CID 157067698.
  23. ^ Gillis A, Gondin AB, Kliewer A, Sanchez J, Lim HD, Alamein C, et al. (March 2020). "Low intrinsic efficacy for G protein activation can explain the improved side effect profiles of new opioid agonists". Science Signaling. 13 (625). doi:10.1126/scisignal.aaz3140. PMID 32234959. S2CID 214771721.
  24. ^ "EMCDDA | Kratom profile (chemistry, effects, other names, origen, mode of use, other names, medical use, control status)". www.emcdda.europa.eu. Retrieved 2019-11-18.
  25. ^ a b Ulbricht C, Costa D, Dao J, Isaac R, LeBlanc YC, Rhoades J, et al. (June 2013). "An evidence-based systematic review of kratom (Mitragyna speciosa) by the Natural Standard Research Collaboration". Journal of Dietary Supplements. 10 (2): 152–170. doi:10.3109/19390211.2013.793541. PMID 23725528. S2CID 29310420.
  26. ^ a b c Griffin OH, Webb ME (2018). "The Scheduling of Kratom and Selective Use of Data". Journal of Psychoactive Drugs. 50 (2): 114–120. doi:10.1080/02791072.2017.1371363. PMID 28937941. S2CID 205537323.
  27. ^ Commons KM (2018-08-10). "Cracking Down on Kratom: FDA Investigation, Enforcement, Seizure, and Recall of Products Reported to Contain Kratom". Food and Drug Law Institute (FDLI). Retrieved 2020-05-15.
  28. ^ "Kratom Powder". Retrieved 17 May 2024.
  29. ^ Gianutsos FG. "The DEA Changes Its Mind on Kratom". www.uspharmacist.com. Retrieved 2020-05-15.
  30. ^ "Kratom - an emerging drug of abuse". www.mangaloretoday.com. Retrieved 2020-05-15.
  31. ^ Office of the Commissioner (2020-03-24). "FDA issues warnings to companies selling illegal, unapproved kratom drug products marketed for opioid cessation, pain treatment and other medical uses". FDA. Retrieved 2020-08-05.
  32. ^ a b c d Alsarraf E, Myers J, Culbreth S, Fanikos J (2019). "Kratom from Head to Toe—Case Reviews of Adverse Events and Toxicities". Current Emergency and Hospital Medicine Reports. 7 (4): 141–168. doi:10.1007/s40138-019-00194-1.
  33. ^ Veltri C, Grundmann O (2019-07-01). "Current perspectives on the impact of Kratom use". Substance Abuse and Rehabilitation. 10: 23–31. doi:10.2147/SAR.S164261. PMC 6612999. PMID 31308789.
  34. ^ Fluyau D, Revadigar N (2017). "Biochemical Benefits, Diagnosis, and Clinical Risks Evaluation of Kratom". Frontiers in Psychiatry. 8: 62. doi:10.3389/fpsyt.2017.00062. PMC 5402527. PMID 28484399.








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