Bernard Schmidt scite author profile

The microtubule array in neuronal cells undergoes extensive growth, dynamics and rearrangements during neurite outgrowth. While little is known about how these changes are regulated, microtubule‐associated proteins (MAPs) including tau protein are likely to perform an important role. Tau is one of the MAPs in mammalian brain. When isolated it is usually a mixture of several isoforms containing between 341 and 441 residues that arise from alternative splicing. Tau can be phosphorylated by several protein kinases. Phosphorylation at certain sites results in major structural and functional changes, as seen by changes in electrophoretic mobility, interaction with microtubules, molecular length and elasticity. Here we show that the sites of phosphorylation by four kinases (PKA, PKC, CK and CaMK) all lie in the C‐terminal microtubule‐binding half of tau, but only the phosphorylation by CaM kinase shows the pronounced shift in electrophoretic mobility characteristic for tau from Alzheimer neurofibrillary tangles. By using a combination of limited proteolysis, protein sequencing and protein engineering we show that a single phosphorylation site is responsible for this shift, located at Ser 405 in the C‐terminal tail of the protein outside the region of internal repeats. Phosphorylation at this site not only reduces the electrophoretic mobility of tau, it also makes the protein long and stiff, as shown earlier. The site is likely to be phosphorylated in tau from Alzheimer neurofibrillary tangles.

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Effect of subchronic administration of metrifonate, rivastigmine and donepezil on brain acetylcholine in aged F344 rats

Scali

Casamenti

Bellucci

et al. 2002

Journal of Neural Transmission

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The changes in extracellular acetylcholine levels were investigated by microdialysis in the cortex and hippocampus of aging rats after administration of metrifonate (80 mg/kg), rivastigmine (0.75 mg/kg), donepezil (1.5 mg/kg) or vehicle for 21 days (twice daily p.o.). Eighteen h after the last administration, cholinesterase inhibition was 85, 52 and 39% after metrifonate, rivastigmine and donepezil, respectively, and was accompanied by 988, 590 and 75% increase in cortical acetylcholine level. In the hippocampus, metrifonate and rivastigmine brought about a 169 and 108% increase in acetylcholine levels. A challenge dose of metrifonate, rivastigmine and donepezil was followed by a further increase in cortical and hippocampal acetylcholine levels. The retrograde perfusion of the M(2)-M(4) receptor antagonist AFDX-384 (10 microM) induced a 500 and 300% increase in cortical and hippocampal acetylcholine release, in control and rivastigmine-treated rats, respectively, no increase in metrifonate-treated rats, and a 210% increase in donepezil-treated rats. In conclusion, chronic treatment of aging rats with metrifonate, rivastigmine and donepezil induces a long-lasting increase in acetylcholine levels, and reveals marked differences between the three drugs.

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Behavioral effects of apamin, a selective inhibitor of the SKCa-channel, in mice and rats

Staay

Fanelli

Blokland

et al. 1999

Neuroscience & Biobehavioral Reviews

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Effect of metrifonate on extracellular brain acetylcholine and object recognition in aged rats

Scali

Giovannini

Bartolini

et al. 1997

European Journal of Pharmacology

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Metrifonate improves associative learning and retention in aging rabbits.

Kronforst-Collins¹,

Moriearty²,

Schmidt³

et al. 1997

Behavioral Neuroscience

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The cholinergic system is known to show deterioration during aging and Alzheimer's disease (AD). In response, a therapeutic approach to AD has been to attempt to compensate for the decrease in central cholinergic function by potentiating the activity of the remaining intact cholinergic cells with cholinesterase (ChE) inhibitors. In this study treatment with the long-lasting ChE inhibitor metrifonate facilitated acquisition and retention of eyeblink conditioning in aging rabbits. Metrifonate treatment resulted in steady-state, dose-dependent acetylcholinesterase (AChE) inhibition in red blood cells. Maximal behavioral efficacy was achieved with AChE inhibition of approximately 40%, with no further improvements resulting from increased levels of inhibition. Metrifonate was behaviorally effective in the absence of the severe side effects that can plague ChE inhibitors, supporting metrifonate as a possible treatment for the cognitive deficits resulting from normal aging and AD.

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Bernard Schmidt

Phosphorylation of microtubule-associated protein tau: identification of the site for Ca2(+)-calmodulin dependent kinase and relationship with tau phosphorylation in Alzheimer tangles.

Effect of subchronic administration of metrifonate, rivastigmine and donepezil on brain acetylcholine in aged F344 rats

Behavioral effects of apamin, a selective inhibitor of the SKCa-channel, in mice and rats

Effect of metrifonate on extracellular brain acetylcholine and object recognition in aged rats

Metrifonate improves associative learning and retention in aging rabbits.

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