Weihuan Wang

CHANGES IN CHOLINERGIC FUNCTION IN THE FRONTAL CORTEX AND HIPPOCAMPUS OF RAT EXPOSED TO ETHANOL AND ACETALDEHYDE

Our previous microdialysis study demonstrated that both ethanol (EtOH) and acetaldehyde (ACe) decrease in vivo acetylcholine (ACh) release in the medial frontal cortex of freely moving rats. To better understand the mechanisms of EtOH and ACes effects on the cholinergic system in the brain, choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) expression was examined at 40 and 240 min after a dose of EtOH (1 g/kg) in the rat frontal cortex and hippocampus. The control group was treated with 0.9% saline, and other groups received EtOH or cyanamide (CY, 50 mg/kg, a potent aldehyde dehydrogenase inhibitor) and 60 min later by EtOH intraperitoneally. Reverse-transcription polymerase chain reaction (RT-PCR) analysis revealed that ChAT mRNA levels were decreased by 72.8% and 71.6% in the EtOH and CY+EtOH groups, respectively, at 40 min after EtOH injection compared with saline in the frontal cortex. The hippocampal ChAT levels were reduced by 76.5% and 53.0% in the EtOH and CY+EtOH groups, respectively, at this time. CY+EtOH-induced depletion in ChAT mRNA levels was markedly higher than EtOH in the hippocampus. A similar decrease pattern of ChAT was observed at protein levels as determined by Western blot, but the reduced ChAT levels were significantly higher in the CY+EtOH group as compared with the EtOH group both in the frontal cortex and hippocampus. At 240 min after EtOH injection, the EtOH group had no effect on ChAT at mRNA levels, as compared with saline, whereas CY+EtOH group induced a significant decrease in ChAT mRNA expression to 62.0% and 65.5% in the frontal cortex and hippocampus, respectively. These data were consistent with the results of the Western blot analysis. AChE expression at mRNA levels was not changed at either 40 or 240 min after EtOH dosing in either of these groups in the frontal cortex and hippocampus. Within 40 and 240 min, a statistically significant difference in ChAT expression at mRNA and protein levels was found in the EtOH and CY+EtOH groups both in the frontal cortex and hippocampus. The data obtained from this study demonstrate that EtOH and ACe concentrations decreased ChAT expression at 40 and 240 min after EtOH administration in the frontal cortex and hippocampus, and this result suggests that reduced ChAT expression is strongly related to a decrease in ACh release in the rat brain.

Inhibition of acetaldehyde metabolism decreases acetylcholine release in medial frontal cortex of freely moving rats.

The effect of high acetaldehyde (ACe) on acetylcholine (ACh) release was studied in vivo in the medial frontal cortex (mfc) of freely moving rats using brain microdialysis coupled with high performance liquid chromatography and an electrochemical detector. Ethanol (EtOH) and ACe concentrations were quantified simultaneously in the mfc of awake rats by in vivo microdialysis followed by head-space gas chromatography. Rats were treated intraperitoneally with saline, EtOH (1 and 2 g/kg) or cyanamide (CY, 50 mg/kg, a potent aldehyde dehydrogenase inhibitor) plus EtOH (1 and 2 g/kg). No significant effect on ACh levels was observed in saline groups, as compared to baseline value. The basal level of ACh in the dialysate was about 0.30 +/- 0.04 pmol/20 microl, and this value was reduced significantly in the EtOH (1 and 2 g/kg) and CY + EtOH (1 and 2 g/kg) groups for 240 min after EtOH administration. The time courses of ACh release continued to decrease significantly after EtOH administration in the CY + EtOH (1 and 2 g/kg) groups compared to the values in the saline and EtOH (1 and 2 g/kg) groups. A significant decrease in ACh release was observed from 140 to 240 min after EtOH dosing in the EtOH (1 and 2 g/kg) groups, as compared to saline groups. EtOH and ACe concentrations in the mfc were first determined at 15 min after a dose of EtOH, reached a peak at 30 min and then gradually decreased in the CY + EtOH (1 and 2 g/kg) groups. The present study suggests that both EtOH and ACe concentration in the brain can decrease in vivo ACh release in the mfc of free-moving rats, and the ACe-induced decrease in ACh levels was significantly higher than EtOH.

Cholinergic alterations following alcohol exposure in the frontal cortex of Aldh2-deficient mice models

We investigated the effects of alcohol (EtOH) and acetaldehyde (ACe) on choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) in the frontal cortex of Aldh2-/- (KO) mice. KO mice were used as models of Aldh2-deficient humans to examine ACe effects. Brain samples were analyzed at 40 and 120 min after 2- and 4-g/kg intraperitoneal EtOH administration by RT-PCR and Western blot. Wild-type (WT) mice exhibited a remarkable decrease in ChAT and AChE mRNA expression at both time points only after 4-g/kg EtOH treatment compared with the naive control, whereas KO mice showed a considerable reduction in cholinergic markers after 2- and 4-g/kg EtOH treatment. The 4-g/kg EtOH-induced decrease in ChAT and AChE RNA expression at both time points was significantly greater than that in obtained with the administration of 2-g/kg at 40 min in WT mice. KO mice showed a significant difference in ChAT mRNA at 40 min between the EtOH groups. The findings regarding the ChAT mRNA levels are consistent with the results of Western blot in both types of mice, with some exceptions. EtOH-induced ChAT and AChE expression in KO mice was significantly lower than that in WT mice. This genotype effect occurred mostly at 40 min after EtOH dosing. Only ACe was quantified in the brains of KO mice, whereas EtOH was detected in both types of mice in vivo. These results suggest that EtOH and ACe combined or high EtOH alone alters cholinergic markers expression via changes in presynaptic and postsynaptic processes in the mice frontal cortex, thus indicating that central cholinergic neurons may be sensitive to EtOH and ACe.

Medico-legal investigation of chicken fat clot in forensic cases: Immunohistochemical and retrospective studies

Chicken fat clot (CFC), a fibrin-like substance, is sometimes found in the heart and large blood vessels in some autopsy cases. Reports of detailed histological findings of CFC are scant. We therefore examined CFC histologically in 53 autopsy cases and its correlation with ante-mortem or post-mortem evidence. We found three microscopic patterns of CFC: (1) wavelike fibrin fibers (WFF), (2) short fibrin fibers (SFF), and (3) short fibrin fibers mixed with wavelike fibrin fibers (SFF+WFF). WFF were found in the cases that survived less than 3 h after poisoning, burns, asphyxia, intracerebral hemorrhage, etc. SFF were found in the cases that survived more than 1 day after malignant neoplasms and acute or chronic inflammatory diseases, etc. SFF+WFF were found in the cases that died of inflammatory diseases, chronic heart failure, hemorrhagic shock, drowning, etc. About two-thirds of the SFF+WFF cases survived more than 1 day, with the rest surviving less than that. Our study confirmed three CFC patterns and their relation with survival interval. Therefore, these findings can be used as an index of the survival interval of a few acute and most chronic medico-legal death cases.