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Med Hypotheses


Title:Pheromones cause disease: pheromone/odourant transduction
Author(s):Nicholson B;
Address:TogetherinParis@hotmail.com
Journal Title:Med Hypotheses
Year:2001
Volume:57
Issue:3
Page Number:361 - 377
DOI: 10.1054/mehy.2001.1357
ISSN/ISBN:0306-9877 (Print) 0306-9877 (Linking)
Abstract:"This paper compares two models of the sense of smell and demonstrates that the new model has advantages over the accepted model with implications for medical research. The accepted transduction model had an odourant or pheromone contacting an aqueous sensory lymph then movement through it to a receptor membrane beneath. If the odourant or pheromone were non-soluble, the odourant/pheromone supposedly would be bound to a soluble protein in the lymph to be carried across. Thus, an odourant/carrier protein complex physically moved through the receptor lymph/mucus to interact with a membrane bound receptor. After the membranous receptor interaction, the molecule would be deactivated and any odourant/pheromone-binding protein recycled. This new electrical chemosensory model being proposed here has the pheromone or other odourant generating an electrical event in the extra-cellular mucus. Before the pheromone arrives, proteins of the 'carrier class' dissolved in the receptor mucus slowly and continuously sequester ions. A sensed pheromonal chemical species sorbs to the mucus and immediately binds to the now ion-holding dissolved protein. The binding of the pheromone to the protein causes a measurable conformational change in the pheromone/odourant-binding protein, desequestering ions. Releasing the bound ions changes the potential differences across a nearby super-sensitive dendritic membrane resulting in dendrite excitation. Pheromones will be implicated in the aetiology of the infectious, psychiatric and autoimmune diseases. This is the third article in a series of twelve to systematically explore this contention (see references 1-9)"
Keywords:"Animals Bacterial Physiological Phenomena Disease/*etiology Electric Stimulation Humans Models, Biological *Odorants Pheromones/*physiology *Signal Transduction Species Specificity;"
Notes:"MedlineNicholson, B eng 2001/08/23 Med Hypotheses. 2001 Sep; 57(3):361-77. doi: 10.1054/mehy.2001.1357"

 
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