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  • Title: Histamine release from the hypothalamus induced by gravity change in rats and space motion sickness.
    Author: Uno A, Takeda N, Horii A, Morita M, Yamamoto Y, Yamatodani A, Kubo T.
    Journal: Physiol Behav; 1997 Jun; 61(6):883-7. PubMed ID: 9177562.
    Abstract:
    Freely moving rats were exposed to 2 g hypergravity in an animal centrifuge device to produce motion sickness. Histamine release from the anterior hypothalamus of the rats was measured in vivo with a microdialysis technique. After a 2-h load of 2 g hypergravity, rats ate kaolin. Because pica, eating a nonnutritive substance such as kaolin, is a behavioral index of motion sickness in rats, this finding indicates that the rats suffered from motion sickness. During 2 g hypergravity for 2-h, histamine release from the hypothalamus was transiently increased. In contrast, neither the transient increase of histamine release nor the kaolin consumption were induced by 2 g hypergravity in bilaterally labyrinthectomized rats. Pretreatment with alpha-fluoromethylhistidine, an inhibitor of histamine-synthesizing enzyme, decreased both the basal and hypergravity-induced releases of histamine from the hypothalamus and suppressed the kaolin consumption induced by hypergravity. Taken together, these findings suggest that the vestibular information of changes in gravity activate the histaminergic neuron system, resulting in the development of motion sickness. More prolonged stimulation, a 4-h load of 2 g hypergravity, induced significant increase of kaolin consumption on postdays 1-3, though rats ate kaolin on postdays 1-2 after 2 g hypergravity for 2 h. During 2 g hypergravity for 4 h, the initial transient increase of histamine release was followed by the gradual increase of histamine release after the end of centrifugation. It is suggested that rats adapted to the hypergravity environment after centrifugation for 4 h, but not 2 h, so that the change in gravity from 2 g to 1 g became a provocative stimulation. We, therefore, concluded that motion sickness in rats induced by a negative change in gravity can be used as a simulation of space motion sickness, which is induced by exposure to microgravity. Histaminergic activation in the development of motion sickness induced by negative change in gravity might be an underlying mechanism of space motion sickness.
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