A technique for studying in vivo the production rate and turnover rate constant of mouse brain M-receptors was established. A single injection of 25 mg / kg of Benzilylcholine Mustard to living mice resulted in 90 % i...A technique for studying in vivo the production rate and turnover rate constant of mouse brain M-receptors was established. A single injection of 25 mg / kg of Benzilylcholine Mustard to living mice resulted in 90 % irreversible block of brain M-receptors. The time course of the receptor density was then monitored by 3H-QNB binding assay and the production rate and turnover rate constant were calculated from the time course curve with a computer program. It was found that in normal mice the turnover rate constant was about 0.035 h-1 (half-life was about 20 h) and the production rate was 30-42 fmol / (h ·mg protein). Parallel experiments revealed a significant slow down of the turnover of brain M-receptors in hypothyroid mice (turnover rate constant was 0.0257±0.0012 h-1 in hypothyroid vs. 0.0356±0.0021 h-1 in normal) while the production rate was not changed significantly. The results suggest that thyroid hormones have a regulatory action on the turnover of brain M-receptors and the elevation of brain M-receptor density together with slow down of the turnover of brain M- receptors is probably one of the important mechanisms relevant to the brain dysfunction in hypothyroidism.展开更多
Anticholinergic drugs are commonly used in psychiatry to attenuate antipsychotic induced extrapyramidal syndrome(EPS).Psychosis as a side effect is generally explained under the rubric of anticholinergic toxicity or i...Anticholinergic drugs are commonly used in psychiatry to attenuate antipsychotic induced extrapyramidal syndrome(EPS).Psychosis as a side effect is generally explained under the rubric of anticholinergic toxicity or induced delirium.Anticholinergic induced worsening of psychosis in patients with normal cognition is extremely rare in literature.Here,we arepresenting a case of young female who was prescribed with multiple anticholinergics to reduce EPS,and each time had worsening of psychosis with intact cognition.We then discussed the possible neurobiological explanation with special reference to muscarinic hypothesis of schizophrenia.展开更多
To explore the protective effect of tetramethylpyrazine (TMP) on the learning and memory function in D-galactose (D-gal)-lesioned mice. Methods C57BL/6 mice were injected (s.c.) 2% D-gal for 40 days (100 mg·kg-1&...To explore the protective effect of tetramethylpyrazine (TMP) on the learning and memory function in D-galactose (D-gal)-lesioned mice. Methods C57BL/6 mice were injected (s.c.) 2% D-gal for 40 days (100 mg·kg-1·d-1). Normal saline, TMP, and Huper-zine A were respectively given by intragastric administration in different groups from the third week. Learning and memory ability was tested with Morris water maze for 5 days at the sixth week. After completion of behavioral test, the mice were sacrificed by decapitation. The brain was rapidly removed, and the cortex and hippocampus were separated. The superoxide dismutase (SOD) activity and malondialdehyde (MDA) content in the cortex were determined. At the same time, the activity of choline acetyltransferase (ChAT) and acetylcholinesterase (AChE), the binding sites (Bmax) and the affinity (KD) of M-cholinergic receptor in the cortex, and Bmax and KD of N-methyl-D-aspartate (NMDA) receptor in the hippocampus were determined. Results In this model group, (1) The deficit of learning and memory ability, (2) elevated MDA content and lowered SOD activity, (3) decreased AChE activity and M-cholinergic receptor binding sites in the cortex, and (4) lowered NMDA receptor binding sites were observed in the hippocampus, as compared with the normal control. TMP could markedly (1) attenuate cognitive dysfunction, (2) lower MDA content and elevate SOD activity, (3) increase the activity of ChAT and AChE, and M-cholinergic receptor binding sites in the cortex in the mice treated with D-gal. NMDA receptor binding sites were also increased in the hippocampus in the treated mice. Conclusion TMP can significantly strengthen antioxidative function, improve central cholinergic system function, protect NMDA receptor activity, and thus enhance the learning and memory ability in D-gal-lesioned mice.展开更多
Sepsis-associated encephalopathy(SAE) is a brain dysfunction that occurs secondary to infection in the bo characterized by alteration of consciousness, ranging from delirium to coma, seizure or focal neurological sign...Sepsis-associated encephalopathy(SAE) is a brain dysfunction that occurs secondary to infection in the bo characterized by alteration of consciousness, ranging from delirium to coma, seizure or focal neurological signs. S involves a number of mechanisms, including neuroinflammation, in which the interaction between cytokines a acetylcholine results in neuronal loss and alterations in cholinergic signaling. Moreover, the interaction also occurs the periphery, accelerating a type of immunosuppressive state. Although its diagnosis is not specific in biochemis and imaging tests, it could potentiate severe outcomes, including increased mortality, cognitive decline, progress immunosuppression, cholinergic anti-inflammatory deficiency, and even metabolic and hydroelectrolyte imbalan Therefore, the bilateral communication between SAE and the multiple peripheral organs and especially the immu system should be emphasized in sepsis management.展开更多
Autoradiography of nicotinic acetytcholine receptors(N-ACHR)with the application ofhistochemical staining location of cholinesterase was used to observe the effect of soman onjunctional and extrajunctional N-AChR.Test...Autoradiography of nicotinic acetytcholine receptors(N-ACHR)with the application ofhistochemical staining location of cholinesterase was used to observe the effect of soman onjunctional and extrajunctional N-AChR.Testing with the diaphragms and extensor digitorum longusmuscles of mice and rats,we found that soman mainly increased the number of extrajunctionalN-AChR.It did not alter the number of junctional N-AChR significantly,nor did it have any pro-nouneed effects on the gtycoprotein property and isoelectfic point(pI)of junctional andextrajunctional N-AChR.The change of extrajunctional N-AChR number caused by somanis similar to the phenomenon of increased extrajunctional N-AChR number and sensitivity resultingfrom denervation,but the mechanism of action is different from the latter.The increase ofN-AChR number is one of the important characteristics of soman poisoning which make it differ-ent from other nerve agents.To maintain the metabofic balance of N-AChR may be an importantnew approach to the treatment of soman poisoning.展开更多
文摘A technique for studying in vivo the production rate and turnover rate constant of mouse brain M-receptors was established. A single injection of 25 mg / kg of Benzilylcholine Mustard to living mice resulted in 90 % irreversible block of brain M-receptors. The time course of the receptor density was then monitored by 3H-QNB binding assay and the production rate and turnover rate constant were calculated from the time course curve with a computer program. It was found that in normal mice the turnover rate constant was about 0.035 h-1 (half-life was about 20 h) and the production rate was 30-42 fmol / (h ·mg protein). Parallel experiments revealed a significant slow down of the turnover of brain M-receptors in hypothyroid mice (turnover rate constant was 0.0257±0.0012 h-1 in hypothyroid vs. 0.0356±0.0021 h-1 in normal) while the production rate was not changed significantly. The results suggest that thyroid hormones have a regulatory action on the turnover of brain M-receptors and the elevation of brain M-receptor density together with slow down of the turnover of brain M- receptors is probably one of the important mechanisms relevant to the brain dysfunction in hypothyroidism.
文摘Anticholinergic drugs are commonly used in psychiatry to attenuate antipsychotic induced extrapyramidal syndrome(EPS).Psychosis as a side effect is generally explained under the rubric of anticholinergic toxicity or induced delirium.Anticholinergic induced worsening of psychosis in patients with normal cognition is extremely rare in literature.Here,we arepresenting a case of young female who was prescribed with multiple anticholinergics to reduce EPS,and each time had worsening of psychosis with intact cognition.We then discussed the possible neurobiological explanation with special reference to muscarinic hypothesis of schizophrenia.
文摘To explore the protective effect of tetramethylpyrazine (TMP) on the learning and memory function in D-galactose (D-gal)-lesioned mice. Methods C57BL/6 mice were injected (s.c.) 2% D-gal for 40 days (100 mg·kg-1·d-1). Normal saline, TMP, and Huper-zine A were respectively given by intragastric administration in different groups from the third week. Learning and memory ability was tested with Morris water maze for 5 days at the sixth week. After completion of behavioral test, the mice were sacrificed by decapitation. The brain was rapidly removed, and the cortex and hippocampus were separated. The superoxide dismutase (SOD) activity and malondialdehyde (MDA) content in the cortex were determined. At the same time, the activity of choline acetyltransferase (ChAT) and acetylcholinesterase (AChE), the binding sites (Bmax) and the affinity (KD) of M-cholinergic receptor in the cortex, and Bmax and KD of N-methyl-D-aspartate (NMDA) receptor in the hippocampus were determined. Results In this model group, (1) The deficit of learning and memory ability, (2) elevated MDA content and lowered SOD activity, (3) decreased AChE activity and M-cholinergic receptor binding sites in the cortex, and (4) lowered NMDA receptor binding sites were observed in the hippocampus, as compared with the normal control. TMP could markedly (1) attenuate cognitive dysfunction, (2) lower MDA content and elevate SOD activity, (3) increase the activity of ChAT and AChE, and M-cholinergic receptor binding sites in the cortex in the mice treated with D-gal. NMDA receptor binding sites were also increased in the hippocampus in the treated mice. Conclusion TMP can significantly strengthen antioxidative function, improve central cholinergic system function, protect NMDA receptor activity, and thus enhance the learning and memory ability in D-gal-lesioned mice.
基金supported by National Natural Science Foundation of China (81272089, 81130035, 81372054, and 81121004)the National Basic Research Program of China (2012CB518102)the "Twelve-Five Plan" for Military Scientific Foundation (BWS12J050)
文摘Sepsis-associated encephalopathy(SAE) is a brain dysfunction that occurs secondary to infection in the bo characterized by alteration of consciousness, ranging from delirium to coma, seizure or focal neurological signs. S involves a number of mechanisms, including neuroinflammation, in which the interaction between cytokines a acetylcholine results in neuronal loss and alterations in cholinergic signaling. Moreover, the interaction also occurs the periphery, accelerating a type of immunosuppressive state. Although its diagnosis is not specific in biochemis and imaging tests, it could potentiate severe outcomes, including increased mortality, cognitive decline, progress immunosuppression, cholinergic anti-inflammatory deficiency, and even metabolic and hydroelectrolyte imbalan Therefore, the bilateral communication between SAE and the multiple peripheral organs and especially the immu system should be emphasized in sepsis management.
文摘Autoradiography of nicotinic acetytcholine receptors(N-ACHR)with the application ofhistochemical staining location of cholinesterase was used to observe the effect of soman onjunctional and extrajunctional N-AChR.Testing with the diaphragms and extensor digitorum longusmuscles of mice and rats,we found that soman mainly increased the number of extrajunctionalN-AChR.It did not alter the number of junctional N-AChR significantly,nor did it have any pro-nouneed effects on the gtycoprotein property and isoelectfic point(pI)of junctional andextrajunctional N-AChR.The change of extrajunctional N-AChR number caused by somanis similar to the phenomenon of increased extrajunctional N-AChR number and sensitivity resultingfrom denervation,but the mechanism of action is different from the latter.The increase ofN-AChR number is one of the important characteristics of soman poisoning which make it differ-ent from other nerve agents.To maintain the metabofic balance of N-AChR may be an importantnew approach to the treatment of soman poisoning.
