Chiaki Kamei

Influence of histamine depletion on learning and memory recollection in rats

To clarify the role of endogenous histamine in learning and memory, the effect of α-fluoromethylhistidine on active avoidance response in rats was studied. α-Fluoromethylhistidine (20–100 mg/kg or 10–50 µg) significantly (P<0.05 orP<0.01) prolonged the response latency in active avoidance response when administered by either intraperitoneal or intracerebroventricular injection. These effects were dose-related and long lasting. A prolongation of the response latency induced by an intraperitoneal injection of α-fluoromethylhistidine (100 mg/kg) was antagonized by intracerebroventricular injection of histamine (10 and 20 ng) in a dose-dependent manner. In addition, the acquisition of this response was retarded by a consecutive intracerebroventricular injection of α-fluoromethylhistidine (50 µg), whereas histamine (100 ng) facilitated the response acquisition when administered by the same route. Both intraperitoneal (100 mg/kg) and intracerebroventricular injection of α-fluoromethylhistidine (50 µg) significantly (P<0.05 orP<0.01) decreased the brain histamine content, especially in the hippocampus and hypothalamus. When α-fluoromethylhistidine (50 µg) was injected intracerebroventricularly, there is a high correlation between a prolongation of the response latency and a decrease in histamine content of these brain areas. Based on these findings, it was concluded that an intimate relation may exist between a prolongation of response latency in the active avoidance response and a decrease in the brain histamine content; endogenous histamine may play an important role in learning and memory recollection in rats.

Effects of histamine H1 receptor antagonists on compound 48/80-induced scratching behavior in mice.

The effects of histamine H1 receptor antagonists on compound 48/80-induced scratching behavior were studied in mice. Classical histamine H1 receptor antagonists such as diphenhydramine and chlorpheniramine caused a potent depressant effect on compound 48/80-induced scratching behavior. Histamine H1 receptor antagonists having antiallergic activity (an inhibition of mast cell degranulation), such as azelastine and oxatomide and nonsedative histamine H receptor antagonists such as terfenadine, epinastine and astemizole, also showed a relatively potent effect. On the other hand, the effects of tranilast and cromolyn sodium--antiallergic drugs without histamine H1 receptor antagonistic activity--were extremely weak. Diazepam had weak or no depressant effects on compound 48/80-induced scratching behavior. These results suggest that inhibition of compound 48/80-induced scratching behavior is mainly due to histamine H1 receptor antagonistic activity and not to the sedative action of the drugs.

How best to fight that nasty itch – from new insights into the neuroimmunological, neuroendocrine, and neurophysiological bases of pruritus to novel therapeutic approaches

While the enormous clinical and psychosocial importance of pruritus in many areas of medicine and the detrimental effects of chronic ‘itch’ on the quality of life of an affected individual are widely appreciated, the complexity of this sensation is still often grossly underestimated. The current Controversies feature highlights this complexity by portraying pruritus as a truly interdisciplinary problem at the crossroads of neurophysiology, neuroimmunology, neuropharmacology, protease research, internal medicine, and dermatology, which is combated most successfully if one keeps the multilayered nature of ‘itch’ in mind and adopts a holistic treatment approach – beyond the customary, frequently frustrane monotherapy with histamine receptor antagonists. In view of the often unsatisfactory, unidimensional, and altogether rather crude standard instruments for pruritus management that we still tend to use in clinical practice today, an interdisciplinary team of pruritus experts here critically examines recent progress in pruritus research that future itch management must take into consideration. Focusing on new insights into the neuroimmunological, neuroendocrine, and neurophysiological bases of pruritus, and discussing available neuropharmacological tools, specific research avenues are highlighted, whose pursuit promises to lead to novel, and hopefully more effective, forms of pruritus management.

Influence of certain H1-blockers on the step-through active avoidance response in rats.

The inhibitory effects of some newly developed H1-blockers on the step-through active avoidance response in rats were studied in comparison with those of classical H1-blockers. Single administration of diphenhydramine, pyrilamine, promethazine and chlorpheniramine caused dose-related depressant effects on the active avoidance response. Ketotifen and azelastine caused less potent inhibition than the classical H1-blockers, while the effects of astemizole and oxatomide were almost negligible in suppressing the response. Following chronic administration of pyrilamine and promethazine, the acquisition of active avoidance response was significantly retarded compared with the control group, where-as new H1-blockers caused a somewhat but not significantly slower acquisition than the control group. Chronic administration of astemizole and oxatomide caused only transient suppression of the response. However, classical H1-blockers such as pyrilamine and promethazine caused sustained inhibition for as long as drug administration was continued.

Histaminergic mechanisms in amygdaloid-kindled seizures in rats

The present study was undertaken to clarify the role of histaminergic neuron system on amygdaloid kindled seizures in rats. A significant decrease in histamine contents in the amygdala was observed after development of amygdaloid kindling. Histidine and metoprine inhibited amygdaloid kindled seizures at doses causing an increase in histamine contents of the brain. H1-antagonists (diphenhydramine and chlorpheniramine) attenuated histidine-induced inhibition of amygdaloid kindled seizures, however no significant antagonism was observed with H2-antagonists (zolantidine and ranitidine). The development of amygdaloid kindling was retarded by repeated administration of histidine. These findings suggest that histaminergic mechanisms play a suppressive role in amygdaloid kindled seizures through histamine H1-receptors.

Effects of Intracerebroventricular Injection of α-Fluoromethylhistidine on Radial Maze Performance in Rats

The effects of alpha-fluoromethylhistidine (alpha-FMH) on spatial cognition were investigated using the eight-arm radial maze paradigm in rats. Intracerebroventricular (ICV) injection of alpha-FMH resulted in spatial memory deficits characterized by an increase in the number of total errors (TE) and a decrease in the number of initial correct responses (ICR). There was a strong correlation between increases in the number of TE and decreases in histamine contents of the cortex and hippocampus regions of the brain, which are known to participate in learning and memory. On the other hand, both histamine (50-100 ng, ICV) and thioperamide (10 microg, ICV) significantly ameliorated the memory deficit induced by alpha-FMH. However, metoprine showed no significant effect on the alpha-FMH-induced memory deficit. Pyrilamine and R-(alpha)-methylhistamine enhanced the memory deficit induced by alpha-FMH, at doses that had no appreciable effect when administered alone. In contrast, no significant influence on alpha-FMH-induced memory deficit was observed with zolantidine.

Pruritus-associated response mediated by cutaneous histamine H3 receptors.

Background  Histamine is one of the most common chemical mediators causing pruritus, and H1 receptor antagonists have been used as a first choice in its treatment. On the other hand, although the presence of H3 receptors has been identified in the skin, few studies have investigated the involvement of H3 receptors on pruritus.

Analgesic effect of histamine induced by intracerebral injection into mice.

Three methods were used to study the analgesic effect of intracerebral injection of histamine (Hi) on mice: the writhing test (acetic acid and phenylquinone), the electrical stimulation of the tail and the hot plate test. At doses higher than 2 μg, Hi inhibited the writhing syndrome significantly, and at doses of 10 μg or higher, Hi displayed a marked analgesic effect during both the electrical stimulation and hot plate methods. The saline injection produced only a negligible effect.Simultaneous application of Hi and 10 μg of diphenhydramine, pyrilamine or promethazine, apparently causing no analgesic effect from a single administration, caused a parallel shift of the dose-response curve of Hi to the right. ED50 of Hi was increased approximately 2, 2.8 and 3.8 times, respectively. However, cimetidine did not reveal any antagonistic effect on Hi-induced analgesia. Subcutaneously administered, 3 mg/kg of morphine augmented the analgesic effect of Hi. In accordance with this, pretreatment of naloxone (0.005 mg/kg) antagonized the analgesic action of Hi almost completely. When 5 mg/kg of leucine-enkephalin, less than the minimum effective dose, was given prior to Hi injection, the analgesic effect of Hi was enhanced. In addition, 10 and 20 μg of Hi increased the morphine analgesia markedly and parallel shifted the dose-response curve of morphine to the left.

A new model of allergic rhinitis in rats by topical sensitization and evaluation of H1-receptor antagonists

An animal model of chronic allergic rhinitis was developed by repeated local booster sensitization into the nasal cavity in sensitized rats. The severity of allergic rhinitis was assessed by determining the extent of two markers of nasal allergic symptoms (sneezing and nasal rubbing) after antigen challenge. The number of incidents of sneezing and nasal rubbing was markedly increased during intranasal instillation of antigen in sensitized rats. The PCA titers were also markedly elevated by intranasal sensitization. Some histamine H(1)-receptor antagonists such as chlorpheniramine, ketotifen, astemizole and epinastine inhibited the increase in antigen-induced nasal symptoms in a dose-related manner. Nasal rubbing was more potently inhibited by H(1)-receptor antagonists than sneezing. In conclusion, we developed a chronic allergic rhinitis model showing nasal symptoms in rats, and this model may be useful for evaluating the effects of drugs on allergic rhinitis.

Effects of short-acting hypnotics on sleep latency in rats placed on grid suspended over water.

The present study was performed to develop a new sleep disturbance model for evaluating hypnotic potencies by placing rats on a grid suspended over water up to 1 cm under the grid surface. When rats were placed on the grid, significant increases in sleep latency and amount of wakefulness were observed compared with those of rats placed on sawdust. However, the amounts of non-rapid eye movement (non-REM) sleep and rapid eye movement (REM) sleep of rats placed on the grid were significantly decreased compared with those of rats placed on sawdust. Four short-acting hypnotics (triazolam, zopiclone, brotizolam, lormetazepam) caused significant decreases in sleep latency, and the effects of hypnotics in rats placed on the grid were more potent than those in rats placed on sawdust. In conclusion, the present model can serve as a new sleep disturbance model and may also be useful for evaluating the sleep-inducing effects of short-acting hypnotics.