Toxin: Difference between revisions
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In the context of [[quackery]] and [[alternative medicine]], the term "toxin" is used to refer to any substance alleged to cause ill health. This could range from trace amounts of potentially dangerous [[pesticide]]s, to supposedly harmful substances produced in the body by intestinal fermentation ([[Colon cleansing|auto-intoxication]]), to food ingredients such as [[White sugar|table sugar]], [[monosodium glutamate]] (MSG), and [[aspartame]].<ref>{{cite web | url = http://www.quackwatch.com/01QuackeryRelatedTopics/detox_overview.html | title = "Detoxification" Schemes and Scams | date = 8 June 2011 | publisher = [[Quackwatch]]}}</ref> |
In the context of [[quackery]] and [[alternative medicine]], the term "toxin" is used to refer to any substance alleged to cause ill health. This could range from trace amounts of potentially dangerous [[pesticide]]s, to supposedly harmful substances produced in the body by intestinal fermentation ([[Colon cleansing|auto-intoxication]]), to food ingredients such as [[White sugar|table sugar]], [[monosodium glutamate]] (MSG), and [[aspartame]].<ref>{{cite web | url = http://www.quackwatch.com/01QuackeryRelatedTopics/detox_overview.html | title = "Detoxification" Schemes and Scams | date = 8 June 2011 | publisher = [[Quackwatch]]}}</ref> |
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The use of ''detoxification'' or ''detox'' as justification for treatments |
The use of ''detoxification'' or ''detox'' as justification for treatments such as [[infrared sauna]]s, diets,{{R|Diet}} or [[chiropractic]] treatments{{R|Chiro}}, is often called the ''toxin gambit'', referring to a marketing technique which can frighten the public into seeking treatments that claim to remove unspecified toxins.{{R|Novella1}} These claims can be harmful financially and physically. Healthy [[kidney]]s and [[liver]] are all that most people need to remove almost anything potentially toxic that would be ingested.{{R|Novella}} |
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== See also == |
== See also == |
Revision as of 16:26, 12 April 2022
A toxin is a harmful substance produced within living cells or organisms;[1][2] synthetic toxicants created by artificial processes are thus excluded.[3] The term was first used by organic chemist Ludwig Brieger (1849–1919)[4] and is derived from the word toxic.[5]
Toxins can be small molecules, peptides, or proteins that are capable of causing disease on contact with or absorption by body tissues interacting with biological macromolecules such as enzymes or cellular receptors. Toxins vary greatly in their toxicity, ranging from usually minor (such as a bee sting) to potentially fatal even at extremely low doses (such as botulinum toxin).[6][7] Toxins are largely secondary metabolites, which are organic compounds that are not directly involved in an organism's growth, development, or reproduction, instead often aiding it in matters of defense.[citation needed]
Terminology
Toxins are often distinguished from other chemical agents due to their biological origin.
According to an International Committee of the Red Cross review of the Biological Weapons Convention, "Toxins are poisonous products of organisms; unlike biological agents, they are inanimate and not capable of reproducing themselves", and "Since the signing of the Constitution, there have been no disputes among the parties regarding the definition of biological agents or toxins".[8]
According to Title 18 of the United States Code, "... the term "toxin" means the toxic material or product of plants, animals, microorganisms (including, but not limited to, bacteria, viruses, fungi, rickettsiae or protozoa), or infectious substances, or a recombinant or synthesized molecule, whatever their origin and method of production..."[9]
The word toxin does not specify method of delivery (as opposed to venom, a toxin delivered via a bite, sting, etc.). Poison is a related but broader term that encompasses both toxins and toxicants; poisons may enter the body through any means - typically inhalation, ingestion, or skin absorption. Toxin, toxicant, and poison are often used interchangeably despite these subtle differences in definition. The term toxungen has also been proposed to refer to toxins that are delivered onto the body surface of another organism without an accompanying wound.[2]
A rather informal terminology of individual toxins relates them to the anatomical location where their effects are most notable:
- Hemotoxin, causes destruction of red blood cells (hemolysis)
- Phototoxin, causes dangerous photosensitivity
- Hepatotoxins affect the liver
- Neurotoxins affect the nervous system
On a broader scale, toxins may be classified as either exotoxins, excreted by an organism, or endotoxins, which are released mainly when bacteria are lysed.
Biotoxins
This section needs additional citations for verification. (May 2021) |
The term "biotoxin" is sometimes used to explicitly confirm the biological origin.[10][11] Biotoxins can be further classified, for example, as fungal biotoxins, microbial toxins, plant biotoxins, or animal biotoxins.
Toxins produced by microorganisms are important virulence determinants responsible for microbial pathogenicity and/or evasion of the host immune response.[12]
Biotoxins vary greatly in purpose and mechanism, and can be highly complex (the venom of the cone snail can contain over 100 unique peptides, which target specific nerve channels or receptors).[13]
Biotoxins in nature have two primary functions:
- Predation, such as in the spider, snake, scorpion, jellyfish, and wasp
- Defense as in the bee, ant, termite, honey bee, wasp, and poison dart frog
Some of the more well known types of biotoxins include:
- Cyanotoxins, produced by cyanobacteria
- Dinotoxins, produced by dinoflagellates
- Necrotoxins cause necrosis (i.e., death) in the cells they encounter.[14] Necrotoxins spread through the bloodstream.[citation needed] In humans, skin and muscle tissues are most sensitive to necrotoxins.[citation needed] Organisms that possess necrotoxins include:
- The brown recluse or "fiddle back" spider
- Most rattlesnakes and vipers produce phospholipase and various trypsin-like serine proteases
- Puff adder
- Necrotizing fasciitis (caused by the "flesh eating" bacterium Streptococcus pyogenes) – produces a pore forming toxin
- Neurotoxins primarily affect the nervous systems of animals. The group neurotoxins generally consists of ion channel toxins that disrupt ion channel conductance. Organisms that possess neurotoxins include:
- The black widow spider.
- Most scorpions
- The box jellyfish
- Elapid snakes
- The cone snail
- The Blue-ringed octopus
- Venomous fish
- Frogs
- Palythoa coral
- Various different types of algae, cyanobacteria and dinoflagellates
- Myotoxins are small, basic peptides found in snake and lizard venoms, They cause muscle tissue damage by a non-enzymatic receptor based mechanism. Organisms that possess myotoxins include:
- Cytotoxins are toxic at the level of individual cells, either in a non-specific fashion or only in certain types of living cells:
- Ricin, from castor beans
- Apitoxin, from honey bees
- T-2 mycotoxin, from certain toxic mushrooms
- Cardiotoxin III, from Chinese cobra
- Hemotoxin, from vipers
Biotoxins as Bioweapons
Many animals and insects employ toxins for defense and predation all around the planet. A relatively small amount of toxins is known to cause sickness and potentially widespread casualties. Because a wide range of toxins can be employed as weapons, there is a possibility that terrorists may utilize bioweapons due to its efficiency to cause harm. Biotoxin used as a weapon of terror is considered to be the most harmful use for such substances.[15][16] Therefore it is thought that Biological Warfare awareness is of great importance as a deterrent.[15][17]
Environmental toxins
The term "environmental toxin" can sometimes explicitly include synthetic contaminants[18] such as industrial pollutants and other artificially made toxic substances. As this contradicts most formal definitions of the term "toxin", it is important to confirm what the researcher means when encountering the term outside of microbiological contexts.
Environmental toxins from food chains that may be dangerous to human health include:
- Paralytic shellfish poisoning (PSP)[19][20][21]
- Amnesic shellfish poisoning (ASP)[22][23]
- Diarrheal shellfish poisoning (DSP)[24][25]
- Neurotoxic shellfish poisoning (NSP)[26][27][28]
Finding information about toxins
In general, when scientists determine the amount of a substance that may be hazardous for humans, animals and/or the environment they determine the amount of the substance likely to trigger effects and if possible establish a safe level. In Europe, the European Food Safety Authority produced risk assessments for more than 4,000 substances in over 1,600 scientific opinions and they provide open access summaries of human health, animal health and ecological hazard assessments in their: OpenFoodTox[29] database.[30][31] The OpenFoodTox database can be used to screen potential new foods for toxicity.[32]
The Toxicology and Environmental Health Information Program (TEHIP)[33] at the United States National Library of Medicine (NLM) maintains a comprehensive toxicology and environmental health web site that includes access to toxins-related resources produced by TEHIP and by other government agencies and organizations.[34] This web site includes links to databases, bibliographies, tutorials, and other scientific and consumer-oriented resources. TEHIP also is responsible for the Toxicology Data Network (TOXNET),[35] an integrated system of toxicology and environmental health databases that are available free of charge on the web.
TOXMAP is a Geographic Information System (GIS) that is part of TOXNET.[36] TOXMAP uses maps of the United States to help users visually explore data from the United States Environmental Protection Agency's (EPA) Toxics Release Inventory and Superfund Basic Research Programs.
Misuse of the term
In the context of quackery and alternative medicine, the term "toxin" is used to refer to any substance alleged to cause ill health. This could range from trace amounts of potentially dangerous pesticides, to supposedly harmful substances produced in the body by intestinal fermentation (auto-intoxication), to food ingredients such as table sugar, monosodium glutamate (MSG), and aspartame.[37]
The use of detoxification or detox as justification for treatments such as infrared saunas, diets,[38] or chiropractic treatments[39], is often called the toxin gambit, referring to a marketing technique which can frighten the public into seeking treatments that claim to remove unspecified toxins.[40] These claims can be harmful financially and physically. Healthy kidneys and liver are all that most people need to remove almost anything potentially toxic that would be ingested.[41]
See also
- ArachnoServer
- Brevetoxin
- Cangitoxin
- Detoxification (alternative medicine)
- Excitotoxicity
- Insect toxin
- List of highly toxic gases
- List of poisonous plants
- Secondary metabolite
- Toxalbumin
- Toxicophore, feature or group within a molecule that is thought to be responsible for its toxic properties.
- Toxin-antitoxin system
References
- ^ "toxin" at Dorland's Medical Dictionary
- ^ "toxin – Definition from the Merriam-Webster Online Dictionary". Retrieved 13 December 2008.
- ^ Module 1: Introduction to Toxicology. Agency for Toxic Substances and Disease Registry [1]
- ^ Brade, Helmut (1999). Endotoxin in Health and Disease. CRC Press. ISBN 978-0824719449.
- ^ Harper, Douglas. "toxin". Online Etymology Dictionary.
- ^ Gupta, PK (2018). Illustrated Toxicology with Study Questions. Elsevier Inc. ISBN 978-0-12-813213-5.
- ^ "Diagnosis and Treatment | Botulism | CDC". www.cdc.gov. 2021-06-07. Retrieved 2022-04-12.
- ^ "The Biological Weapons Convention – An overview". Retrieved 13 December 2008.
- ^ "U.S. Code". Archived from the original on 21 July 2011. Retrieved 13 December 2008.
- ^ "biotoxin – Definition from the Merriam-Webster Online Dictionary". Retrieved 13 December 2008.
- ^ "biotoxin" at Dorland's Medical Dictionary
- ^ Proft T, ed. (2009). Microbial Toxins: Current Research and Future Trends. Caister Academic Press. ISBN 978-1-904455-44-8.
- ^ Robinson, Samuel D; Norton, Raymond S (17 December 2014). "Conotoxin Gene Superfamilies". Marine Drugs. 12 (12): 6058–6101. doi:10.3390/md12126058. PMC 4278219. PMID 25522317.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Dorland's Illustrated Medical Dictionary (32nd ed.). Philadelphia, PA: Saunders/Elsevier. 2012. p. 1236. ISBN 978-1-4160-6257-8.
- ^ a b Editorial, Team. "Toxins: Venom within Living Cells or Organisms". Unrevealed Files. Retrieved 2021-07-17.
- ^ "Biotoxins: Bioweapons". www.biosciences-labs.bham.ac.uk. Retrieved 2021-07-17.
- ^ Płusa, Tadeusz (September 2015). "[Toxins as a biological weapon]". Polski Merkuriusz Lekarski. 39 (231): 131–133. ISSN 1426-9686. PMID 26449572.
- ^ Grigg J (March 2004). "Environmental toxins; their impact on children's health". Archives of Disease in Childhood. 89 (3): 244–50. doi:10.1136/adc.2002.022202. PMC 1719840. PMID 14977703.
- ^ Vale C, Alfonso A, Vieytes MR, Romarís XM, Arévalo F, Botana AM, Botana LM (March 2008). "In vitro and in vivo evaluation of paralytic shellfish poisoning toxin potency and the influence of the pH of extraction". Analytical Chemistry. 80 (5): 1770–6. doi:10.1021/ac7022266. PMID 18232710.
- ^ Oikawa H, Fujita T, Saito K, Satomi M, Yano Y (2008). "Difference in the level of paralytic shellfish poisoning toxin accumulation between the crabs Telmessus acutidens and Charybdis japonica collected in Onahama, Fukushima Prefecture". Fisheries Science. 73 (2): 395–403. doi:10.1111/j.1444-2906.2007.01347.x. S2CID 22926782.
- ^ Abouabdellah R, Taleb H, Bennouna A, Erler K, Chafik A, Moukrim A (April 2008). "Paralytic shellfish poisoning toxin profile of mussels Perna perna from southern Atlantic coasts of Morocco". Toxicon. 51 (5): 780–6. doi:10.1016/j.toxicon.2007.12.004. PMID 18237757.
- ^ Wang L, Liang XF, Zhang WB, Mai KS, Huang Y, Shen D (November 2009). "Amnesic shellfish poisoning toxin stimulates the transcription of CYP1A possibly through AHR and ARNT in the liver of red sea bream Pagrus major". Marine Pollution Bulletin. 58 (11): 1643–8. doi:10.1016/j.marpolbul.2009.07.004. PMID 19665739.
- ^ Wang L, Vaquero E, Leão JM, Gogo-Martínez A, Rodríguez Vázquez JA (2001). "Optimization of conditions for the liquid chromatographic-electrospray lonization-mass spectrometric analysis of amnesic shellfish poisoning toxins". Chromatographia. 53 (1): S231–35. doi:10.1007/BF02490333. S2CID 97937094.
- ^ Mouratidou T, Kaniou-Grigoriadou I, Samara C, Kouimtzis T (August 2006). "Detection of the marine toxin okadaic acid in mussels during a diarrhetic shellfish poisoning (DSP) episode in Thermaikos Gulf, Greece, using biological, chemical and immunological methods". The Science of the Total Environment. 366 (2–3): 894–904. Bibcode:2006ScTEn.366..894M. doi:10.1016/j.scitotenv.2005.03.002. PMID 16815531.
- ^ Doucet E, Ross NN, Quilliam MA (September 2007). "Enzymatic hydrolysis of esterified diarrhetic shellfish poisoning toxins and pectenotoxins". Analytical and Bioanalytical Chemistry. 389 (1): 335–42. doi:10.1007/s00216-007-1489-3. PMID 17661021. S2CID 21971745.
- ^ Poli MA, Musser SM, Dickey RW, Eilers PP, Hall S (July 2000). "Neurotoxic shellfish poisoning and brevetoxin metabolites: a case study from Florida". Toxicon. 38 (7): 981–93. doi:10.1016/S0041-0101(99)00191-9. PMID 10728835.
- ^ Morohashi A, Satake M, Murata K, Naoki H, Kaspar HF, Yasumoto T (1995). "Brevetoxin B3, a new brevetoxin nalog isolated from the greenshell mussel perna canaliculus involved in neurotoxic shellfish poisoning in new zealand". Tetrahedron Letters. 36 (49): 8995–98. doi:10.1016/0040-4039(95)01969-O.
- ^ Morohashi A, Satake M, Naoki H, Kaspar HF, Oshima Y, Yasumoto T (1999). "Brevetoxin B4 isolated from greenshell mussels Perna canaliculus, the major toxin involved in neurotoxic shellfish poisoning in New Zealand". Natural Toxins. 7 (2): 45–8. doi:10.1002/(SICI)1522-7189(199903/04)7:2<45::AID-NT34>3.0.CO;2-H. PMID 10495465.
- ^ "Chemical hazards data - OpenFoodTox". European Food Safety Authority. Retrieved 2019-10-27.
- ^ Dorne JL, Richardson J, Kass G, Georgiadis N, Monguidi M, Pasinato L, Cappe S, Verhagen H, Robinson T (January 2017). "OpenFoodTox: EFSA's open source toxicological database on chemical hazards in food and feed". EFSA Journal. 15 (1): e15011. doi:10.2903/j.efsa.2017.e15011. PMC 7009813. PMID 32625280.
- ^ Reilly L, Serafimova R, Partosch F, Gundert-Remy U, Cortiñas Abrahantes J, Dorne JM, Kass GE (October 2019). "Testing the thresholds of toxicological concern values using a new database for food-related substances". Toxicology Letters. 314: 117–123. doi:10.1016/j.toxlet.2019.07.019. PMID 31325634.
- ^ Pearce JM, Khaksari M, Denkenberger D (April 2019). "Preliminary Automated Determination of Edibility of Alternative Foods: Non-Targeted Screening for Toxins in Red Maple Leaf Concentrate". Plants. 8 (5): 110. doi:10.3390/plants8050110. PMC 6571818. PMID 31027336.
- ^ "Environmental Health and Toxicology Information". National Library of Medicine.
- ^ Fonger GC, Stroup D, Thomas PL, Wexler P (January 2000). "TOXNET: A computerized collection of toxicological and environmental health information". Toxicology and Industrial Health. 16 (1): 4–6. doi:10.1177/074823370001600101. PMID 10798381. S2CID 34029729.
- ^ "TOXNET". toxnet.nlm.nih.gov. Archived from the original on 14 May 2019. Retrieved 29 September 2010.
- ^ Hochstein C, Szczur M (2006-07-24). "TOXMAP: a GIS-based gateway to environmental health resources". Medical Reference Services Quarterly. 25 (3): 13–31. doi:10.1300/J115v25n03_02. PMC 2703818. PMID 16893844.
- ^ ""Detoxification" Schemes and Scams". Quackwatch. 8 June 2011.
- ^ Gavura, Scott (22 February 2018). "Are we all contaminated with chemical toxins?". Science-Based Medicine. Archived from the original on 18 March 2018. Retrieved 17 February 2021.
- ^ Jones, Clay (22 September 2017). "Maximized Living: "5 Essentials" of Chiropractic Marketing Propaganda". Science-Based Medicine. Archived from the original on 9 October 2017. Retrieved 17 February 2021.
- ^ Novella, Stephen (17 February 2021). "Infrared Saunas for "Detoxification"". Science-Based Medicine. Archived from the original on 17 February 2021. Retrieved 17 February 2021.
- ^ Novella, Stephen (4 January 2017). "Detox Scams are Worthless and Potentially Dangerous". Science-Based Medicine. Archived from the original on 5 January 2017. Retrieved 17 February 2021.