Masahiro Yasuhara

A novel L266V mutation of the tau gene causes frontotemporal dementia with a unique tau pathology

We report a novel mutation of tau (L266V missense mutation in exon 9) which may cause a type of familial frontotemporal dementia. The brain of a patient showed Pick body–like inclusions and unique tau‐positive, argyrophilic astrocytes with stout filaments and naked, round, or irregular argyrophilic inclusions with deposits of both three‐repeat and four‐repeat tau. Recombinant tau with a L266V mutation showed a reduced ability to promote microtubule assembly, which may be the primary effect of the mutation. Ann Neurol 2003;53:000–000

A possible role for BDNF, NT-4 and TrkB in the spinal cord and muscle of rat subjected to mechanical overload, bupivacaine injection and axotomy.

Neurotrophins play a crucial role in the regulation of survival and the maintenance of specific functions for various populations of neurons. Neurotrophin-4 (NT-4) is most abundant in skeletal muscle, and is thought to promote sciatic nerve sprouting, inhibit agrin-induced acetylcholine receptor (AChR) clustering, evoke postsynaptic potentiation and induce mitochondrial proliferation. Using Western blot analysis, immunoprecipitation and immunohistochemistry, we investigated the distribution of NT-4 in slow- and fast-type muscles. We also tested the adaptive response of this protein in the mechanically overloaded muscle, in the regenerating muscle following bupivacaine injection and in the denervated muscle. Additionally, we investigated whether TrkB phosphorylation in the spinal cord and in the sciatic nerve occurs through the interaction with BDNF or NT-4 when the innervating muscle is damaged. Markedly more NT-4 was expressed in fast-type muscles compared with the slow types. TrkB protein was more frequently observed around the edge of myofibers (neuromuscular junction) of the soleus muscle compared with the gastrocnemius muscle. TrkB tyrosine phosphorylation occurred in the spinal cord but not in the sciatic nerve 24 h after bupivacaine injection of the innervating muscle. At the same time, the amount of TrkB co-precipitating with BDNF was markedly increased in the spinal cord. A rapid activation of TrkB (1-8 h) was also observed in the spinal cord after axotomy,while the amount of TrkB co-precipitating with NT-4 was markedly lower after axotomy. These results indicate that NT-4 is preferentially distributed in fast-type muscles. Furthermore, by interacting with BDNF and NT-4, the TrkB in the spinal cord may be important for the survival of motoneurons and outgrowth of injured peripheral axons following muscle damage.

Alcohol enhances characteristic releases of dopamine and serotonin in the central nucleus of the amygdala

The amygdaloid complex (AMY) is implicated in emotional and motivational aspects of behavior, including the formation of positive reinforcement association. AMY may also associated with brain rewarding circuitry. In the present study, the effect of ethanol (EtOH) on the release of dopamine (DA) and serotonin (5-HT) was studied in the central amygdaloid nucleus (CeAMY), and projecting excitatory afferents to the ventral tegmental area (VTA), of freely moving Wistar rats by brain microdialysis. Within 20 min of i.p. injection of EtOH (2 g/kg), the levels of DA and 5-HT in the CeAMY dialysate increased over the baseline value by 270 and 160% (N = 6-7), respectively. Addition of EtOH (25, 50 and 100 mM) to the microdialysis perfusion medium for 1 h caused a 115-150% dose-related increase in the extracellular level of DA in the CeAMY. 100 mM EtOH-induced CeAMY DA release continued to increase for 1 h after the perfusion medium was returned to normal perfusion medium. In contrast, the CeAMY 5-HT level was increased only by the addition of 100 mM EtOH for 1 h to 130% for 80 min. The stimulation of the CeAMY by EtOH through the microdialysis membrane showed delayed responses of DA and 5-HT compared with the i.p. injection of EtOH. Overall, the present findings are not sufficient to conclude whether EtOH acts directly or indirectly on the major monoamine nerve cells in the CeAMY, but the degree of acute EtOH action affected the differences in time at the peak response on EtOH-induced DA and 5-HT releases in the CeAMY via VTA.

Age-related reductions in expression of serum response factor and myocardin-related transcription factor A in mouse skeletal muscles

The molecular signaling pathways linking the atrophy of skeletal muscle during aging have not been identified. Using reverse transcription (RT)-PCR, Western blotting, and immunofluorescence microscopy, we investigated whether the amounts of RhoA, RhoGDI, SRF, MRTF-A, and MyoD in the triceps brachii and quadriceps muscles change with aging in mice. Young adult (3 mo) and aged (24 mo) C57BL/6J mice were used. Senescent mice possessed many fibers with central nuclei in the quadriceps muscle. Western blotting using a homogenate of whole muscle or the cytosolic fraction clearly showed that the amount of SRF protein was significantly decreased in the aged skeletal muscles. Immunofluorescence labeling indicated more SRF-positive muscle fibers in young mice. Both young and old mice possessed SRF immunoreactivity in some satellite cells expressing Pax7. MRTF-A and STARS mRNA levels significantly declined with aging in the triceps brachii and quadriceps muscles. The amount of MRTF-A protein was markedly reduced in the nuclear fraction of aged muscle of mice. The amounts of RhoA and RhoGDI in the crude homogenate or the cytosolic and membrane fractions were greater in the aged muscle. Senescent mice possessed significantly higher levels of MyoD protein in the cytosol and nucleus. Decreased SRF and MRTF expression may induce the atrophy of skeletal muscle with aging.

Lewy bodies in the sinoatrial nodal ganglion : Clinicopathological studies

Lewy bodies (LB) are characteristic pathological findings for idiopathic Parkinson disease, and extracranial organs have also been known to exhibit these structures. Clinically, the possible involvement of LB in cardiac dysfunction has attracted attention based on the findings of studies using [123I] metaiodobenzyl guanidine (MIBG) scintigraphy. The purpose of the present study was to investigate the possible involvement of LB in heart disease. A total of 40 autopsy cases consisting of Lewy body disease and Parkinson syndrome were examined. The former were cases with intracranial LB regardless of clinical symptoms, and the latter were cases with parkinsonism but without intracranial LB. The presence of heart disease or an atrial arrhythmia and the results of an MIBG scintigraphy study were clinically examined. The sinoatrial node was examined microscopically and immunohistochemically. The results showed that heart disease and atrial arrhythmia complications were more frequent in cases with Lewy body disease than in cases with Parkinson syndrome and that LB were frequently found in extracranial organs, especially in the sinoatrial nodal ganglion, in cases with Lewy body disease. In the current report, we hypothesized that neuronal changes involving LB in the sinoatrial nodal ganglion may cause arrhythmia and ischemic heart disease as a result of vasoconstriction.

Electroacupuncture stimulation suppresses the increase in alcohol-drinking behavior in restricted rats.

BACKGROUND Although a number of studies on traditional eastern or Chinese medicine, such as acupuncture, moxibustion, and herbal drugs, have been reported, few reports describe electroacupuncture (EAC) effects on drug- and alcohol-seeking behaviors in animal models. The purpose of the present study was to investigate the effect of EAC on changes in alcohol-drinking behavior in rats challenged with restriction and immobilization stress. MATERIAL AND METHODS Male Sprague Dawley rats (260-280 g) were tightly hung and immobilized in restriction models for 10 min. These immobilization stresses were performed twice a week for 1 week and for 3 consecutive weeks for the short- and long-restricted stress groups, respectively. EAC was applied for 10 min to the hindlimb point, Tsu-San-Li (ST 36), and the lumbar point, Shen-Shu (BL 23). These points are used to treat mental and psychosomatic disorders and are known clinically to produce a sedation effect. Time-access alcohol-drinking behavior was determined at 24 hr after the termination of EAC. Finally, brain dopamine (DA) levels were assayed in the two groups. A sham-control group underwent only restricted stress without EAC. RESULTS Time-access alcohol-drinking behavior increased significantly in the long-restricted group compared with the short-restricted group and controls. EAC applied to the ST 36 (Tsu-San-Li) point suppressed the increased alcohol-drinking behavior in restricted rats. However, EAC applied to the Shen-Shu (BL 23) point was not effective, because alcohol-drinking behavior was significantly increased in long-restricted rats compared with short-restricted rats. Striatal DA levels of restricted rats with EAC stimulated at Tsu-San-Li were increased significantly compared with the rats with EAC applied to the Shen-Shu point. CONCLUSION These findings suggest that EAC applied at ST 36 (Tsu-San-Li) was more effective for reducing the increased alcohol-drinking behavior in restricted rats, and they showed that a point specific in EAC procedure was associated with an increase of striatal DA levels. These findings provide new information for understanding alcohol-drinking behavior and for treating human alcoholics.

Hair Analysis for Drug Abuse XIV. Identification of substances causing acute poisoning using hair root. I. Methamphetamine

A hair root was evaluated as a specimen for proving acute methamphetamine (MA) poisonings using an animal model and fatal cases of MA intoxicaton. First of all, male pigmented hairy rats (n = 5) were administered with acute poisonous doses (20, 40 and 60 mg/kg) of MA and the hair roots were plucked out with a hair nipper 5 min and 0.5, 1, 2, 6 and 24 h after i.p. injection. The hair root samples were, directly or after washing with detergent, extracted with methanol/5 N HCl (20:1) under vortex mixing at room temperature for 14 h. After evaporation, the residue was derivatized with pentafluoropropionic anhydride and analyzed with GC/MS. From all samples including a 5-min sample, MA was detected at high concentrations (approximately 150 ng/mg) with a small amount of amphetamine (AP). Many animals died within 120 min of administration, but the concentrations in the hair roots increased up to 120 min and then slowly decreased until 24 h. Although MA was definitely detected anytime in the hair roots, almost no MA was found in 24-h plasma. In comparison of the drug levels in hair roots between the washed group and the unwashed group, the levels of the washed group were as a whole 4-5-fold higher than those of the unwashed group. These differences show that most of the drug incorporated into hair root is still not immobilized in the early stage. The ratios of the MA remainder in the washed samples increased with the elapse of time in all cases. However, the slope of the curves definitely dropped after the death of rats, probably due to the stopping of the hair growth and the incorporation of drug into the hair shaft. The ratios of AP/MA after death became a plateau probably due to the stoppage of the activity of metabolism after death, while those before death had increased over time. We analyzed the specimens of hair root of four men who died mainly due to acute poisonings with MA. Consequently, MA in the hair roots was detected at high concentrations, 30.5-134.6 ng/mg, and its metabolic, AP, at the concentrations of 1.2-9.0 ng/mg. Our results suggested that hair root is a good specimen for probing acute MA poisoning.

Apoptotic and necrotic brain lesions in a fatal case of carbon monoxide poisoning

A 41-year-old man was accidentally exposed to carbon monoxide (CO) gas and found in a state of cardiopulmonary arrest while he took bath. After admission, he was resuscitated and underwent artificial ventilation in a comatose state and died about 19h later. Computed tomography (CT) examination disclosed bilateral low density area in the basal ganglia and the thalamus, a well-known finding in the CO intoxication. Necropsy, histological examination, DNA ladder assay gave the first line of evidence for the presence of apoptosis as well as necrosis in the human case of CO intoxication. TdT-mediated dUTP-biotin nick-end labeling (TUNEL) positive apoptotic cells were more predominant in the CA2 area than in CA1 area. There is general co-relation between the ratio of TUNEL-positive cells and the DNA laddering on the agarose gel. Basal ganglia and thalamus, which showed bilateral low density area in CT, were revealed to be severe edema. The two types of cell death occurred in the cortex, basal ganglia, hippocampus, thalamus, and cerebellum. Hypoxia caused by CO-hemoglobin formation alone cannot explain the phenomena.

Effects of age and ethanol on dopamine and serotonin release in the rat nucleus accumbens

Neural functions in the nucleus accumbens (ACC) play an important role in alcohol drinking behavior. In the present study, we observed the effects of age and ethanol (EtOH) on dopamine (DA) and serotonin (5-HT) release in the ACC of freely moving 4-, 10-, and 16-month-old rats using brain microdialysis techniques. After co-perfusion with 200 mM ethanol, ACC DA, and 5-HT release were decreased significantly in 16-month-old rats compared to those at 4 months old. ACC DA and 5-HT neurons of aged rats were less sensitive to ethanol. On the other hand, both basal extracellular DA and 5-HT release in the ACC were significantly higher in 16-month-old than in 4-month-old rats. Therefore, aging results in opposite changes in basal and alcohol-induced DA and 5-HT release in the ACC.

Increase of Cardiotrophin-1 immunoreactivity in regenerating and overloaded but not denervated muscles of rats.

The original report by Pennica et al. on Cardiotrophin‐1 (CT‐1) states that it markedly stimulates hypertrophy in cardiac myocytes both in vitro and in vivo and is predominantly expressed in the early mouse embryonic heart tube. CT‐1 is a member of the interleukin‐6 superfamily and past studies have shown that it exerts trophic effects on neurons, glial cells and their precursors, and is expressed during myogenesis. Thus CT‐1 is associated with physical and pathological changes in skeletal muscle. In this study, we examined whether CT‐1 is expressed in mechanically overloaded, regenerating, and denervated muscles of rats using immunohistochemistry. In the overloaded plantaris muscles at 1 and 3 days postsurgery, CT‐1 immunoreactivity was detected in the mononuclear cells that had infiltrated the extracellular space. CT‐1 immunoreactivity was also observed in the mononuclear cells invading the extracellular space at 2, 4, and 6 days after a bupivacaine injection and in degenerative and necrotic muscle fibers at 2 days postinjection. In the denervated muscles, the CT‐1 immunoreactivity did not change in intensity during the entire period of the denervation (2, 7, and 14 days postsurgery). The cells invading extracellular space and in necrotic muscle fibers possessing CT‐1 immunoreactivity might be muscle precursor cells (satellite cells) or migrating macrophages undergoing phagocytosis. Using double‐immunostainings for anti‐CT‐1/antic‐met, anti‐CT‐1/ anti‐M‐cadherin, and anti‐CT‐1/anti‐ED1, we found that satellite cells and macrophages exhibited CT‐1 immunoreactivity in the damaged muscles after bupivacaine injection. We therefore believe that CT‐1 plays a key role in regeneration and hypertrophy in the skeletal muscle of rats.