Rotenone

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Rotenone
File:Rotenone.png
style="background: #F8EABA; text-align: center;" colspan="2" | Identifiers
CAS number 83-79-4 YesY
PubChem 6758
MeSH Rotenone
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style="background: #F8EABA; text-align: center;" colspan="2" | Properties
Molecular formula C23H22O6
Molar mass 394.41
Appearance Colorless to red
Density 1.27 g/cm3 @ 20°C
Melting point

165-166°C

Boiling point

210-220°C at 0.5 mmHg

Solubility Soluble in ether and acetone, slightly soluble in ethanol
 YesY (what is this?)  (verify)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Rotenone is an odorless chemical that is used as a broad-spectrum insecticide, piscicide, and pesticide. It occurs naturally in the roots and stems of several plants such as the jicama vine plant.

History

Emmanuel Geoffroy first isolated rotenone from a specimen of Robinia nicou, now called Lonchocarpus nicou, while traveling in French Guiana.[1] He wrote about this research in his thesis, published posthumously in 1895 after his death from a parasitic disease.[2] Researchers later determined that the substance which Geoffroy termed nicouline was identically rotenone.

Uses

Rotenone is used in solution as a pesticide and insecticide, or in emulsified liquid form as a piscicide.[3]

People catch fish by extracting rotenone from plants and releasing it into water. Poisoned fish come to the surface and are easily caught. This method was first practiced by various indigenous tribes[4] who smashed the roots. Fish caught this way can be eaten because rotenone is very poorly absorbed by the gastrointestinal tract of humans, whereas it is lethal to fish because it readily enters the blood stream of the fish through the gills.

Small-scale sampling with rotenone is used by fish researchers studying the biodiversity of marine fishes to collect cryptic, or hidden, fishes, which represent an important component of shoreline fish communities. Rotenone is the most effective tool available because only small quantities are necessary. It has only minor and transient environmental side-effects.[5]

Rotenone is also used in powdered form to reduce parasitic mites on chickens and other fowl. In the United States and in Canada, all uses of rotenone except as a piscicide (fish killer) are being phased out.[6][7]

Rotenone is an excellent organic pesticide dust for the garden. It kills potato beetles, cucumber beetles, flea beetles, cabbage worms, raspberry bugs, and asparagus bugs to name a few. Rotenone bio-degrades naturally in a few days so there is no harmful residue. A light dusting on the leaves of plants will control insects for several days. It is not harmful to humans when used properly.

Method of action

Rotenone works by interfering with the electron transport chain in mitochondria. Specifically, it inhibits the transfer of electrons from iron-sulfur centers in complex I to ubiquinone. This prevents NADH from being converted into usable cellular energy (ATP). This is much like the action of amytal.

Presence in plants

Rotenone is produced by extraction from the roots and stems of several tropical and subtropical plant species, especially those belonging to the genus Lonchocarpus or Derris.

Some of the plants containing rotenone:

Toxicity

Rotenone is classified by the World Health Organization as moderately hazardous.[11] It is mildly toxic to humans and other mammals, but extremely toxic to insects and aquatic life including fish. This higher toxicity in fish and insects is due to the fact that the lipophilic rotenone is easily taken up through the gills or trachea, but not as easily through the skin or through the gastrointestinal tract.

The lowest lethal dose for a child is 143 mg/kg. Human deaths attributed to Rotenone are rare because its irritating action causes vomiting.[12] Deliberate ingestion of rotenone can be fatal.[13]

The compound breaks down when exposed to sunlight and usually has a short lifetime of six days in the environment.[14] In water rotenone may last six months.[citation needed]

Rotenone is classified by the USDA National Organic Program as a nonsynthetic and was allowed to be used to grow organic produce until 2005, when it was added to the list of prohibited substances due to concerns about its safety. However, it has since been re-approved.[15]

Parkinson's disease

In 2000, it was reported that injecting rotenone into rats causes the development of symptoms similar to those of Parkinson's disease (PD). Rotenone was continuously applied over a period of five weeks, mixed with DMSO and PEG to enhance tissue penetration, and injected into the jugular vein.[16] The study does not directly suggest that rotenone exposure is responsible for PD in humans but is consistent with the belief that chronic exposure to environmental toxins increases the likelihood of the disease.[17]

In addition, studies with primary cultures of rat neurons and microglia have shown that low doses of rotenone (below 10 nM) induce oxidative damage and death of dopaminergic neurons[18] and it is these neurons in the substantia nigra that die in Parkinson's disease. Other studies have also described toxic action of rotenone at low concentrations (5 nM) in dopaminergic neurons from acute rat brain slices.[19]

It had been known earlier that the neurotoxin MPTP causes PD-like symptoms (in humans and other primates, though not in rats) by interfering with Complex I in the electron transport chain and killing dopaminergic neurons in the substantia nigra. However, further studies involving MPTP have failed to show development of Lewy bodies, a key component to PD pathology. Therefore, the mechanism behind MPTP as it relates to Parkinson's Disease is not fully understood.[20] Because of these developments, rotenone was investigated as a possible Parkinson-causing agent. Both MPTP and rotenone are lipophilic and can cross the blood-brain barrier.

In 2010, a study was published detailing the progression of Parkinson's-like symptoms in mice following chronic intragrastric ingestion of low doses of rotenone. The concentrations in the central nervous system were below detectable limts, yet still induced PD pathology.[21]

See also

References

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External links

ca:Rotenona

cs:Rotenon de:Rotenon es:Rotenona fr:Roténone hi:रोटेनॉन it:Rotenone nl:Rotenon ja:ロテノン no:Rotenon pt:Rotenona sv:Rotenon

zh:魚藤酮
  1. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  2. "Useful tropical plants". ASNOM. 2008-01-02. Retrieved 2008-03-16. 
  3. Peter Fimrite (2007-10-02). "Lake poisoning seems to have worked to kill invasive pike". San Francisco Chronicle. 
  4. National Toxicology Program - Rotenone at ntp.niehs.nih.gov
  5. Robertson, D. Ross; Smith-Vaniz, William F. (2008). "Rotenone: An Essential but Demonized Tool for Assessing Marine Fish Diversity". BioScience. 58: 165. doi:10.1641/B580211. 
  6. Reregistration Eligibility Decision for Rotenone, EPA 738-R-07-005, March 2007, United States Environmental Protection Agency
  7. Re-evaluation Note: Rotenone (REV2008-01, 29 January 2008), Consumer Product Safety, Health Canada
  8. 8.0 8.1 Fang N, Casida J (1999). "Cubé resin insecticide: identification and biological activity of 29 rotenoid constituents". J Agric Food Chem. 47 (5): 2130–6. doi:10.1021/jf981188x. PMID 10552508. 
  9. Coates Palgrave, Keith (2002). Trees of Southern Africa. Struik. ISBN 0869770810. 
  10. Nellis, David N. (1994). Seashore plants of South Florida and the Caribbean. Pineapple Press. 160 p.
  11. IPCS, International Programme on Chemical Safety; United Nations Environment Programme; International Labour Organization; World Health Organization. (2007). The WHO Recommended Classification of Pesticides by Hazard. World Health Organization. ISBN 92-4-154663-8. Retrieved 2007-12-02. 
  12. "Rotenone". Pesticides News. 54: 20–21. 2001. 
  13. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  14. Vitax Safety Data Sheet for Derris dust, revised October 1998
  15. NOP Approved Substances. List of substances approved by the National Organic Program (from the Electronic Code of Federal Regulations).
  16. Caboni P, Sherer T, Zhang N, Taylor G, Na H, Greenamyre J, Casida J (2004). "Rotenone, deguelin, their metabolites, and the rat model of Parkinson's disease". Chem Res Toxicol. 17 (11): 1540–8. doi:10.1021/tx049867r. PMID 15540952. 
  17. Summary of the article by Dr. Greenamyre on pesticides and Parkinson's Disease at ninds.nih.gov
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  20. Neurotransmitters and Disorders of the Basal Ganglia -- Basic Neurochemistry -- NCBI Bookshelf, American Society for Neurochemistry
  21. Pan-Montojo, Francisco; Anichtchik, Oleg; Dening, Yanina; Knels, Lilla; Pursche, Stefan; Jung, Roland; Jackson, Sandra; Gille, Gabriele; Spillantini, Maria Grazia (2010). "Progression of Parkinson's Disease Pathology Is Reproduced by Intragastric Administration of Rotenone in Mice". PLoS ONE. 5 (1): e8762. doi:10.1371/journal.pone.0008762. PMC 2808242Freely accessible. PMID 20098733.