DARK Classics in Chemical Neuroscience: Kava

Volgin, Andrey D.; Yang, LongEn; Amstislavskaya, Tamara G.; Demin, Konstantin A.; Wang, Dongmei; Yan, Dongni; Wang, Jingtao; Wang, Mengyao; Alpyshov, Erik T.; Hu, Guojie; Serikuly, Nazar; Шевырин, Вадим А.; Wappler-Guzzetta, Edina A.; Abreu, Murilo de; Kalueff, Allan V.

doi:10.1021/acschemneuro.9b00587

Cited by 18 publications

(17 citation statements)

References 106 publications

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“…The psychoactive effects of kava use have been appreciated for a long time ( Table 4 ). Its neurological benefits have made it a popular non-prescription treatment for multiple neurological disorders [ 11 , 68 , 69 , 70 , 71 , 72 , 73 , 74 , 75 ]. Kava use, however, is not free of side effects, such as headaches, fatigue, tremors and restlessness [ 76 , 77 , 78 ].…”

Section: Neurological Functions Of Kava and Their Mechanismsmentioning

confidence: 99%

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Kava as a Clinical Nutrient: Promises and Challenges

et al. 2020

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Kava beverages are typically prepared from the root of Piper methysticum. They have been consumed among Pacific Islanders for centuries. Kava extract preparations were once used as herbal drugs to treat anxiety in Europe. Kava is also marketed as a dietary supplement in the U.S. and is gaining popularity as a recreational drink in Western countries. Recent studies suggest that kava and its key phytochemicals have anti-inflammatory and anticancer effects, in addition to the well-documented neurological benefits. While its beneficial effects are widely recognized, rare hepatotoxicity had been associated with use of certain kava preparations, but there are no validations nor consistent mechanisms. Major challenges lie in the diversity of kava products and the lack of standardization, which has produced an unmet need for quality initiatives. This review aims to provide the scientific community and consumers, as well as regulatory agencies, with a broad overview on kava use and its related research. We first provide a historical background for its different uses and then discuss the current state of the research, including its chemical composition, possible mechanisms of action, and its therapeutic potential in treating inflammatory and neurological conditions, as well as cancer. We then discuss the challenges associated with kava use and research, focusing on the need for the detailed characterization of kava components and associated risks such as its reported hepatotoxicity. Lastly, given its growing popularity in clinical and recreational use, we emphasize the urgent need for quality control and quality assurance of kava products, pharmacokinetics, absorption, distribution, metabolism, excretion, and foundational pharmacology. These are essential in order to inform research into the molecular targets, cellular mechanisms, and creative use of early stage human clinical trials for designer kava modalities to inform and guide the design and execution of future randomized placebo controlled trials to maximize kava’s clinical efficacy and to minimize its risks.

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Section: Neurological Functions Of Kava and Their Mechanismsmentioning

confidence: 99%

“…A few lab animal results published during the past 15 years are discussed to cross-inform potential mechanisms of such toxicity issues. Results using biochemical and in vitro models are not reiterated herein because they have been covered in a number of reviews, including two recent ones [ 68 , 157 ].…”

Section: Safety Of Kava and Its Hepatotoxic Riskmentioning

confidence: 99%

Kava as a Clinical Nutrient: Promises and Challenges

et al. 2020

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“…Wong and Atownley (2011) in a discussion about herbal medicines highlights the local anesthetic effect of this species, which when tested in laboratory animals, enhances the sleep time induced by barbiturates, reducing the need for anesthetic agents. This effect is also directly related to anxiolytic activity, which is mainly mediated by the GABA modulation mechanism, and in some tests such as the labyrinth in the cross (performed on mice), the effect is similar to that of the benzodiazepine, Diazepam (Volgin et al, 2020;Rex et al, 2002;Raduege et al, 2004).…”

Section: Pharmacology In the Cnsmentioning

confidence: 93%

Piper methysticum G. Forst (Piperaceae) in the central nervous system: phytochemistry, pharmacology and mechanism of action

Alves

Santos

Rodrigues

et al. 2021

RSD

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Due to the continuous increase in incidents of diseases and disorders in the central nervous system as neurodegenerative disease, the growth of studies that seek to use herbal medicines has been observed, since these are more easily produced and more economically viable, in addition to having side effects to a lesser extent when compared to existing synthetic drugs. In this way, a wide variety of plants have been analyzed for their medicinal purposes and this review presents papers published from 1970 to 2021 that describe the chemical composition pharmacological activities and elucidates mechanisms of action in the central nervous system (CNS) of the species Piper methysticum (Kava-kava). The Kava-kava has a class of compounds that include tannins, alkaloids, benzoic acid, cinnamic acid, sugars, bornyl-cinnamate, stigmasterol, flavocavaines, mucilages, pyrones, tetrahydroiangonins, phytochemicals that are responsible for the pharmacological activities of this plant being thus more studied as anxiolytic, sedative and neuroprotection. Some action mechanisms that describe the performance of kava in the CNS were also addressed, Being the main ones related to blocking of sodium and calcium ion channels, modulation of the erythroid 2 pathway, to receptors such as γ-aminobutyric acid, glutamatergics, glycine and cannabinoid, as well as monoamine oxidase and acetylcholinesterase enzymes, in addition to neurotransmitters such as dopamine, serotonin and norepinephrine. Therefore, this study aims to open new paths for more in-depth pharmacological studies on Kava-kava, and its use in the central nervous system.

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“…e pharmacokinetics and pharmacodynamics studies of kava in humans were carried out by means of experiments involving self-medication [85]. In humans, kavalactones as well as their metabolites were generally eliminated in the urine and feces, and the peak plasma levels usually occur around 2 h after ingestion, with a half-life of about 9 h. Orally administered kava water extracts were excreted mostly unchanged into urine [86].…”

Section: Kava Metabolismmentioning

confidence: 99%

“…The pharmacokinetics and pharmacodynamics studies of kava in humans were carried out by means of experiments involving self-medication [ 85 ]. In humans, kavalactones as well as their metabolites were generally eliminated in the urine and feces, and the peak plasma levels usually occur around 2 h after ingestion, with a half-life of about 9 h. Orally administered kava water extracts were excreted mostly unchanged into urine [ 86 ]. The metabolism of kavain studied by the human liver cell-line Hep-G2 [ 87 ] or human serum and urine [ 85 ] disclosed the metabolites of kava including p-hydroxykavain, p-hydroxy-7,8-dihydrokavain, 5,6-dehydrokavain, 6-phenyl-5-hexen-2,4-dione [ 85 ], p-hydroxy-5,6-dehydrokavain, and 6-phenyl-3-hexen-2-one [ 88 ].…”

Section: Kava Metabolismmentioning

confidence: 99%

Biological Activity, Hepatotoxicity, and Structure-Activity Relationship of Kavalactones and Flavokavins, the Two Main Bioactive Components in Kava (Piper methysticum)

Wang

Zhang

et al. 2021

Evidence-Based Complementary and Alternative Medicine

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Kava (Piper methysticum Forst) is a popular and favorable edible medicinal herb which was traditionally used to prepare a nonfermented beverage with relaxant beneficial for both social and recreational purposes. Numerous studies conducted on kava have confirmed the presence of kavalactones and flavokawains, two major groups of bioactive ingredients, in this miraculous natural plant. Expectedly, both kavalactone and flavokawain components exhibited potent antianxiety and anticancer activities, and their structure-activity relationships were also revealed. However, dozens of clinical data revealed the hepatotoxicity effect which is indirectly or directly associated with kava consumption, and most of the evidence currently seems to point the compounds of flavokawains in kava were responsible. Therefore, our aim is to conduct a systematic review of kavalactones and flavokawains in kava including their biological activities, structure-activity relationships, and toxicities, and as a result of our systematic investigations, suggestions on kava and its compounds are supplied for future research.

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DARK Classics in Chemical Neuroscience: Kava

Cited by 18 publications

References 106 publications

Kava as a Clinical Nutrient: Promises and Challenges

Kava as a Clinical Nutrient: Promises and Challenges

Piper methysticum G. Forst (Piperaceae) in the central nervous system: phytochemistry, pharmacology and mechanism of action

Biological Activity, Hepatotoxicity, and Structure-Activity Relationship of Kavalactones and Flavokavins, the Two Main Bioactive Components in Kava (Piper methysticum)

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