Kaoru Kubo

Methamphetamine-induced neurotoxicity in BALB/c, DBA/2N and C57BL/6N mice

Repeated administration of methamphetamine (METH; 2 and 4 mg/kg, s.c. four times every 2 h) caused hyperthermia and a dose-dependent depletion of striatal dopamine levels 3 days after the METH-treatment in both BALB/cAnNCrj (BALB) and DBA/2NCrj (DBA) mice, but these responses were lower in C57BL/6NCrj (C57BL) mice. An acute decrease of striatal dopamine levels 30 min after the last injection of METH (4 mg/kg) was observed in both BALB and DBA mice, while an increase in dopamine was observed in C57BL mice. Striatal 3-methoxytyramine levels were drastically increased in both DBA and C57BL mice after this same treatment. Moreover, pretreatment with the superoxide dismutase inhibitor, diethyldithiocarbamate (200 mg/kg, i.p.) exacerbated the METH (4 mg/kg)-induced striatal dopamine-depletion in BALB mice. In addition, pretreatment with an inhibitor of poly(ADP-ribose) polymerase, benzamide (160 mg/kg, s.c.), significantly attenuated the METH (4 mg/kg)-induced striatal dopamine depletion in both BALB and DBA mice. These results suggest that both BALB and DBA mice possess a higher sensitivity to the METH-induced striatal dopaminergic neurotoxicity compared to C57BL mice. In addition, the striatal dopaminergic neurons of BALB mice may be more vulnerable to METH-induced oxidative stress as compared to that in C57BL mice.

Methamphetamine-induced striatal dopamine neurotoxicity and cyclooxygenase-2 protein expression in BALB/c mice

The expression of cyclooxygenase-2 (COX-2) and striatal dopamine (DA) depletion in BALB/cAnNcrj (BALB/c) mice following a neurotoxic dose of methamphetamine (METH) was investigated. METH-treatment (4 mg/kg x 4, 2 h intervals, s.c.) induced a significant hyperthermia and a persistent depletion of striatal DA levels 72 h after the treatment. COX-2, a marker of the cytotoxic effect of inflammation and oxidative stress and thiobarbituric acid (TBA) were significantly induced in the striatum 72 h after the METH-treatment, but not in the hippocampus. These results suggest that COX-2 may participate in METH-induced neurotoxicity in striatum.

Methamphetamine-induced striatal dopamine release, behavior changes and neurotoxicity in BALB/c mice

The behaviors associated with the neurotoxic effects of methamphetamine were evaluated in BALB/c mice. Hyperthermia and behavioral observations were measured 60 min after each subcutaneous injection of methamphetamine (4×4 or 8 mg/kg) or saline, each given 2 h apart. The behavioral observations included stereotyped behaviors, incidence of hemorrhage in breast, salivation and self‐injurious behavior (SIB). Repeated administration of methamphetamine produced these behavioral changes and hyperthermia, but resulted in hypothermia by the final injection (8 mg/kg). In addition, the methamphetamine treatment induced a long‐lasting dopamine depletion of similar magnitude in the 4 and 8 mg/kg‐treated animals. In a time course study striatal monoamine levels were measured 60 min after each injection of these doses. The first and second injections of methamphetamine (8 mg/kg) produced a drastic increase in striatal 3‐methoxytyramine; this failed to occur after the third or fourth injection of the same dose. In contrast, 4 mg/kg of methamphetamine also produced an increase in 3‐methoxytyramine after the second and third injections of the drug and, in this case, these were maintained for the duration of the treatment. Striatal 3,4‐dihydroxyphenylacetic acid levels also drastically decreased following both doses of methamphetamine, suggesting inhibition of monoamine oxidase in striatum. Moreover, a single injection of methamphetamine increased striatal 2,3‐dihydroxybenzoic acid formation.

Methamphetameve-induced changes in activity and water intake during light and dark cycles in rats

1. The authors investigated the ambulatory activity and water intake of rats during each 12 hr light and dark cycle for one week following four s.c. injections of 4 or 8 mg/kg of methamphetamine (METH). 2. Administration of the higher METH dose caused an increase in activity during the dark cycle on days 1 through 6 with the maximal increase on day 3 while the increase in activity during the light cycle was observed only on day 1. 3. Water intake increased the first day after administration of both METH doses, but returned to baseline by day 3. 4. Administration of both METH doses induced hyperthermia and the 8 mg/kg dose produced depletions of striatal dopamine and striatal, hippocampal and hypothalamic serotonin on day 3 but only in hippocampal serotonin by day 7. 5. These results demonstrate that high doses of METH produce a long-lasting increase in activity during the dark cycle and a transient increase in water intake. The behavioral changes which occurred during the dark cycle appear to be related to the depletion of central dopamine and/or serotonin.

Profiles of an intravenously available endothelin A-receptor antagonist, S-0139, for preventing cerebral vasospasm in a canine two-hemorrhage model

We examined the prophylactic effect of a novel nonpeptide endothelin (ET) A-receptor selective antagonist, S-0139, using a canine two-hemorrhage model and an ET-1-induced cerebral vasospasm model. The agent markedly prevented cerebral vasospasm in the canine two-hemorrhage model when given intracisternally or intravenously by continuous daily dosing. An efficacious intravenous method was to apply a relatively high initial dose followed by daily sustaining administration at a much lower dose, which alone would have been ineffective. The need for sustaining dosing may imply daily successive attacks of ETs in the cerebral vessel compartment after the introduction of autologous blood into the subarachnoid space. A small amount of S-0139 was detected from the cerebrospinal fluid (CSF) with an apparent lag time after its disappearance from the plasma following intravenous dosing of 0.83 mg/kg/min for 12 min, however, cerebral vasoconstriction induced by ET-1 dosing from the adventitial side was clearly inhibited during such a lag period. Moreover, its movement into the CSF was greatly enhanced after the application of autologous blood to the animals. From these results, we conclude that ET-1 play a major role in producing delayed cerebral vasospasm in this canine two-hemorrhage model, and S-0139 effectively antagonizes the action of ET-1 even by intravenous treatment because it moves easily into the cerebral vessel compartment from plasma.

Evaluation of the effects of α-phenyl-N-tert-butyl nitrone pretreatment on the neurobehavioral effects of methamphetamine

A relationship between formation of reactive oxygen species (ROS) and energy depletion has been proposed to play an important role in mediating methamphetamine (METH)-induced neurotoxicity. To evaluate this relationship, we examined the effect of the spin-trap agent, alpha-phenyl-N-tert-butyl nitrone (PBN) on hyperthermia and self-injurious behavior (SIB) and striatal dopamine (DA) depletion produced by METH (4 injections of 4 mg/kg, 2 hr intervals, s.c.) in BALB/c mice. Repeated administration of METH induced hyperthermia, incidence of SIB and striatal DA depletion (84% after 3 days). Pretreatment with PBN (4 injections of 60 or 120 mg/kg, i.p.) reduced METH-induced hyperthermia, but did not significantly attenuate METH-induced SIB or the striatal DA depletion. On the other hand, pretreatment with high doses of PBN (4 injections of 180 or 240 mg/kg, i.p.) protected against METH-induced hyperthermia and SIB, and PBN (180 mg/kg) also completely protected against the acute striatal DA depletion 60 min after the last injection of the drug. However, the long-lasting striatal DA depletion was only attenuated by 52 or 56%, respectively. These results indicate that METH-induced hyperthermia contributes to, but is not solely responsible for METH-induced neurotoxicity, and supports a role for formation of ROS and other mechanisms in the generation of METH-induced striatal dopaminergic neurotoxicity. In addition, the difference in the efficacy of PBN to protect against the acute or long-lasting striatal DA depletion induced by METH may indicate that both ROS formation and other mechanisms are required for METH-induced neurotoxicity to develop.

Effects of an endothelin ETa-receptor antagonist, S-0139, on cerebral vasospasm and behavioral changes in dogs intracisternally administered endothelin-1

The effects of an endothelin ET(A)-receptor selective antagonist, S-0139, were examined using dogs given endothelin-1 (ET-1) into the subarachnoid space. ET-1 at 40 pmol apparently constricted the basilar artery in anesthetized dogs and caused various grades of ataxia, facial clonus, nystagmus and other features in conscious dogs, partially mimicking those which have been reported for conscious rats. S-0139 could completely inhibit both the vasoconstriction and behavioral changes. It could also alleviate the behavioral changes caused by ET-1 in conscious dogs when given after the severe ataxia. We concluded that ET-1 in the subarachnoid space produces behavioral changes via endothelin ET(A)-receptor mediation similar to its cerebral vasoconstricting action, at least, in dogs.

Whey peptide-based enteral diet attenuated elastase-induced emphysema with increase in short chain fatty acids in mice

BackgroundSystemic inflammation is present in chronic obstructive pulmonary disease (COPD). A whey peptide-based enteral diet reduce inflammation in patients with COPD, but its effect on COPD development has not been determined. On the other hand, it is known that short chain fatty acids (SCFAs), which are produced by micro-flora in the gut, attenuates bronchial asthma in mice model.MethodsMice with elastase-induced emphysema were fed with 1 of 3 diets (control diet, whey peptide-based enteral diet, or standard enteral diet) to determine the effects of whey peptide-based enteral diet on emphysema and on cecal SCFAs.ResultsThe whey peptide-based enteral diet group exhibited fewer emphysematous changes; significantly lower total cell counts in bronchoalveolar lavage fluid (BALF); and significantly higher cecal SCFA levels than either the control or standard enteral diet groups. The total cell count was inversely correlated with total cecal SCFA levels in these three diet groups.ConclusionsThe whey peptide-based enteral diet attenuates elastase-induced emphysema through the suppression of inflammation in the lung. This may be related to the increase in cecal SCFA.

Dietary Changes Involving Bifidobacterium longum and Other Nutrients Delays Chronic Kidney Disease Progression

Background: Recent studies suggest that prebiotic and/or probiotic treatments ameliorate kidney function in humans and animals by improving the gut environment. However, the gut microbiota and kidney disease interactions remain to be determined. This study investigated whether synbiotics modulate the gut microbiota and ameliorate kidney function using a rat model of chronic kidney disease (CKD). As uremic toxins are associated with CKD-related mineral and bone disorder, the secondary aim was to evaluate the relationship between synbiotics and secondary hyperparathyroidism (SHPT). Methods: 5/6 nephrectomy (Nx) rats were developed as the CKD model. Sham-operated (sham) rats were used as the control. To investigate the effectiveness of prebiotics (glutamine, dietary fiber, and oligosaccharide) and probiotics (Bifidobacterium longum strain; GFOB diet), rats were randomly assigned to 4 groups: Nx group fed the GFOB diet (n = 10); Nx group fed the control (CON) diet (n = 10); sham group fed the GFOB diet (n = 5); and sham group fed the control diet (n = 5). Blood, feces, and kidney samples were collected and analyzed. Results: Serum creatinine (Cre) and blood urea nitrogen in the Nx GFOB group were significantly lower than those in the Nx CON group. Serum indoxyl sulfate in the Nx GFOB group was lower than that in the Nx CON group, and significantly correlated with serum Cre. Inorganic phosphorus and intact parathyroid hormone in the Nx GFOB group were significantly lower than those in the Nx CON group. Conclusion: Improving the gut environment using synbiotics ameliorated kidney function and might be a pharmacological treatment for SHPT without any serious adverse events.