1. �Neurotoxicology of Natural Toxins��Robert C. MacPhail, Ph.D.��macphail.robert@epa.gov��October 25, 2006 TOXC707 (2006)
2. Toxins Outline
Toxins vs. toxicants�Toxin producers and evolutionary significance �Drugs derived from natural sources�Pesticides derived from natural sources�Cholinergics derived from natural sources�Toxins derived from plants�Toxins derived from aquatic organisms�Herbal medicines and nutritional supplements
3. Neurotoxicology of Natural Toxins
4. Toxins vs. Toxicants Toxicants: Any manufactured chemical.
Drugs
Pesticides
Industrial chemicals
By-products
Toxins: Produced by an organism.
Algae
Fungi
Invertebrates
Vertebrates
Distinctions are not always clear (e.g., metals)
5. Evolutionary Significance of Toxins Obvious functions:
Predator avoidance
Predation
Not-so-obvious functions:
Trophic functions?
Some common features of toxins:
Molecular complexity
Mechanistic specificity
They werent designed to kill people
Renewed interest in toxins:
Pharmacognosy
Ethnopharmacology
6. Drugs Derived from Natural Sources Stimulants:
Cocaine coca leaves
Khat (cathinone) catha edulis
Caffeine coffee beans
Ephedra ma huang
Nicotine tobacco plants
Euphorics:
Morphine - poppies
Codeine - opium
Cannabinoids - marijuana
Ethanol - yeast
Convulsants:
Picrotoxin Cocculus indicus
Strychnine Strychnos nux-vomica
Hallucinogens:
LSD - fungus
Peyote cactus
Mescaline - cactus
Psilocybin magic mushrooms
7. Pesticides Derived from Natural Sources Pyrethrins insecticide, chrysanthemum
Nicotine insecticide, tobacco plants
Rotenone piscisicide, cube resin, tropical plants
Fluoroacetate rodenticide, gifblaar plants
Red Squill rodenticide, Mediterranean squill plants
Carbamates insecticide, Physostigma venenosum
Organophosphates .
8. Cholinergic Agents Derived from Natural Sources Muscarinic agonists:
Muscarine
Pilocarpine
Arecoline
Physostigmine
Muscarinic anatgonists: belladonna
Atropine
Scopolamine
Nicotinic agonists:
Nicotine
Epibatidine
Anabaseine
Anatoxin-a
Nicotinic antagonists:
Curare
Alpha-bungarotoxin
9. Toxins and Target Organs (Norton) Gastrointestinal system:
Ricin from castor beans a select agent
Lungs:
Capsaicin from cayenne, chili peppers sensory irritation
Cardiovascular:
Digitalis from foxglove cardiac arythmias
Veratrum alkaloids, aconitine prolong sodium currents
Grayanotoxins mad honey poisoning
Ergot St. Anthonys Fire derivatives of lysergic acid
Blood:
Dicumarol fungal-infected clover hemorrhages
Cyanogenics amygdalin, from almonds
casava and Konzo, from linamarin that produces thiocyanate, leading to spastic paralysis and motor neuron degeneration
10. Toxins and Target Organs (Norton) The nervous system:
Seizure-producing toxins cicutoxin from hemlock, and monoterpenes from mint oils block potassium channels
Excitatory amino acids
Multiple glutamate receptors AMPA, NMDA, kainate
Overstimulation leads to neuronal destruction
Kainic acid from seaweed
Domoic acid diatom - mussel poisoning (PEI, 1987)
Ibotenic acid fly agaric (amanita muscaria)
Lathyrism chick peas, DABA and BOAA, motor neuron destruction
Mannosidase inhibitors swainsonine, from locoweed - cattle
11. Toxins Derived from Aquatic Organisms Marine organisms:
Dinoflagellates brevitoxins, ciguatoxins
Diatoms domoic acid
Freshwater organisms:
Cyanobacteria anatoxins, saxitoxins, microcystins
Harmful algal blooms (HABs):
Impacts on human health and the environment.
Possible causes - anthropogenic influences?
12. Marine Toxins: Many Named for Human Toxicity
13. Marine toxins: Molecular Complexity
14. Marine Toxins: Some Highly Selective Actions
15. World-wide Spread of Harmful Algal Blooms
16. Neurotoxins Produced by Cyanobacteria Anatoxin-a: nicotinic agonist
Homoanatoxin-a: nicotinic agonist
Anatoxin-a(s): cholinesterase inhibitor
Saxitoxins and neosaxitoxins: Na-channel blockers
BMAA: causative agent in cycad disease?
17. Neurotoxins Produced by Cyanobacteria
18. Toxins as Probes for Physiological Functions A long-standing tradition Sherrington, Dale
Advances in understanding the nicotinic cholinergic nervous system (Daly, 2005)
Lots of receptors: alpha and beta subunits, gamma and delta
Nicotinic agonists:
Anatoxin-a
Epibatidine
Imidacloprid
Conotoxins
Nicotinic antagonists:
Mecamylamine
Hexamethonium
Methyllycaconitine
Dihydro-beta-erythroidine
19. Herbal Medicines and Nutritional Supplements The heritage of folk remedies.
Increasing use of dietary supplements and alternative medicines:
Health-conscious Americans
Increasing cost of medicines
Increasing number of older adults
Increasing number of scam artists
Dietary Supplemental Health and Education Act (1994)
If nature made them they cant be bad.
Principles of drug evaluation and regulation:
Chemical identity
Demonstrated efficacy
Absence of toxicity
20. Concerns over Herbal Medicines and Nutriceuticals Quality control standardization of ingredients
Toxicity are they safe?
Native toxicity
Interaction with drugs, other chemicals
Efficacy do they really work?
21. National Center for Complementary and Alternative Medicine (NIH)
22. Recommended Readings
Adams, M.E. and G. Swanson. Neurotoxins. Trends in Neurosciences supplement, 1994.
Carmichael, W.W. Health effects of toxin-producing cyanobacteria: The cyanoHABs. Hum. Ecol Risk Assessment 7: 1393-1407, 2001.
Cox, P.A., S.A. Banack, S.J. Murch et al. Diverse taxa of cyanobacteria produce B-N-methylamino-L-alanine, a neurotoxic amino acid. Proc. Natl. Acad. Sci. 102: 5074-5078, 2005.
Daly, J.W. Nicotinic agonists, antagonists, and modulators from natural sources. Cell. Mol. Neurobiol. 25: 513-552, 2005.
Dietary Supplemental Health and Education Act of 1994. Public Law 103-417. http://www.fda.gov/opacom/laws/dshea.html
Fabricant, D.S. and N.R. Farnsworth. The value of plants used in traditional medicine for drug discovery. Environ. Hlth. Perspect. 109 (suppl. 1): 69-75, 2001.
Gilman, A.G., T.W. Rall, A.S. Nies and P. Taylor (eds.) Goodman and Gilmans The Pharmacological Basis of Therapeutics. 8th edition, Plenum Press, 1990.
Gribble, G.W. Amazing organohalogens. Amer. Scientist 92: 342-349, 2004.
Kem, W.R. Properties and effects of natural toxins and venoms. In: Principles of Toxicology: Environmental and Industrial Applications. 2nd edition, P.L. Williams, R. C. James and S.M. Roberts (eds.), John Wiley & Sons, Inc. 2000. Chapter 17.
Klaassen, C.D. (ed.) Cassarett and Doulls Toxicoloy: The Basic Science of Poisons. 6th edition, McGraw-Hill, 2001.
Levin, E.D. A rat model of the cognitive impairment from Pfiesteria piscisida exposure. Environ. Hlth Perspect. 109: 757-763, 2001.
National Center for Complementary and Alternative Medicine. http://nccam.nih,gov.
Neumann, R. and H.H. Peter. Insecticidal organophosphates: Nature made them first Experientia 43: 1235-1237, 1987.
Norton, S. Toxic effects of plants. In: Klaassen, C.D. (ed.) Cassarett and Doulls Toxicoloy: The Basic Science of Poisons. 6th edition, McGraw-Hill, 2001. Chapter 27.
Olivera, B.M., L.J. Cruz and D. Yoshikami. Effects of conus peptides on the behavior of mice. Curr. Opinion Neurobiol. 9: 772-777, 1999.
Paerl, H.W., R.S. Fulton III, P.H. Moisander and J. Dyble. Harmful freshwater algal blooms, with an emphasis on cyanobacteria. TheScientificWorld 1: 76-113, 2001.
Russell, F.E. Toxic effects of terrestrial animal venoms and poisons. In: Klaassen, C.D. (ed.) Cassarett and Doulls Toxicoloy: The Basic Science of Poisons. 6th edition, McGraw-Hill, 2001. Chapter 26.
Schultes, R.E. Hallucinogens of plant origin. Science 163: 245-254, 1969.
Spencer, P.S., H.H. Schaumburg and A.C. Ludolph. Experimental and Clinical Neurotoxicology. 2nd edition, Oxford University Press, 2000.
Van Dolah, F.M. Marine algal toxins: Origins, health effects, and their increased occurrence. Environ. Hlth. Perspect. 108 (suppl. 1): 133-141, 2000.
23. Neurotoxicology of Natural Toxins Thank you
