Rapamycin ester analog CCI-779/Temsirolimus alleviates tau pathology and improves motor deficit in mutant tau transgenic mice.

Neurofibrillary tangles are intracellular inclusions made of tau protein that accumulates in neurons in Alzheimer's disease (AD) and in other tauopathies. We have investigated the ability of the rapamycin ester CCI-779/Temsilorimus, a mTOR inhibitor with better stability and pharmacological properties compared to rapamycin, to interfere with the development of a motor phenotype and tau pathology in a mutant tau mouse model developing neurofibrillary tangles, by stimulation of mTOR dependent macroautophagy. Mutant tau mice (Tg30) were treated with CCI-779 before onset of motor signs for 7 months (from 5 to 12 months of age) or after the onset of motor signs for 2 months (from 10 to 12 months of age). End-point motor deficits were 50% lower in the group of Tg30 mice treated for 7 months. Inhibition of mTOR signaling and stimulation of macroautophagy in the brain of CCI-779 treated Tg30 mice was suggested by decreased phosphorylation of mTOR downstream signaling molecules p70S6 kinase and Akt and increased level of the autophagy markers Rab7 and LC3-II. CCI-779 treatment decreased the brain levels of Sarkosyl-insoluble tau and phosphotau inTg30 mice both after 2 months or 7 months of treatment. The density of neurofibrillary tangles was significantly decreased when treatment was started prior onset of motor signs. These results indicate that stimulation of mTOR dependent autophagy by CCI-779 compound is efficient to counteract the accumulation of abnormal tau when administered early or late in a tauopathy model and to improve a motor deficit when started before onset of motor signs.

Vaccination with Sarkosyl insoluble PHF-tau decrease neurofibrillary tangles formation in aged tau transgenic mouse model: a pilot study.

Active immunization using tau phospho-peptides in tauopathy mouse models has been observed to reduce tau pathology, especially when given prior to the onset of pathology. Since tau aggregates in these models and in human tauopathies are composed of full-length tau with many post-translational modifications, and are composed of several tau isoforms in many of them, pathological tau proteins bearing all these post-translational modifications might prove to be optimal tau conformers to use as immunogens, especially in models with advanced tau pathology. To this aim, we immunized aged wild-type and mutant tau mice with preparations containing human paired helical filaments (PHF) emulsified in Alum-adjuvant. This immunization protocol with fibrillar PHF-tau was well tolerated and did not induce an inflammatory reaction in the brain or adverse effect in these aged mice. Mice immunized with four repeated injections developed anti-PHF-tau antibodies with rising titers that labeled human neurofibrillary tangles in situ. Immunized mutant tau mice had a lower density of hippocampal Gallyas-positive neurons. Brain levels of Sarkosyl-insoluble tau were also reduced in immunized mice. These results indicate that an immunization protocol using fibrillar PHF-tau proteins is an efficient and tolerated approach to reduce tau pathology in an aged tauopathy animal model.

Bimodal modulation of tau protein phosphorylation and conformation by extracellular Zn2+ in human-tau transfected cells.

Abnormal homeostasis of heavy metals is a well-documented physiopathological mechanism in Alzheimer's disease. An exacerbation of these abnormalities is best illustrated in the amyloid plaques in Alzheimer's disease brain tissue, in which zinc reaches the enormous concentration of 1000 microM. Zinc in the plaques is thought to originate from impaired glutamatergic neurons distributed in the associative cortex and limbic structures of normal brain. Although the characteristics of zinc binding to Abeta and its role in promotion of Abeta aggregation have been intensively studied, the contribution of zinc to the development of tau pathology remains elusive. To further document the effect of zinc we have investigated the modifications of tau phosphorylation, conformation and association to microtubules induced by zinc in clonal cell lines expressing a human tau isoform. A bimodal dose dependent effect of zinc was observed. At 100 microM zinc induced a tau dephosphorylation on the PHF-1 epitope, and at higher zinc concentrations induced the appearance of the abnormal tau conformational epitope MC1 and reduced the electrophoretic mobility of tau, known to be associated to increased tau phosphorylation. High zinc concentrations also increased glycogen synthase kinase-3beta (GSK-3beta) phosphorylation on tyrosine 216, a phosphorylation associated with increased activity of this tau kinase. Live imaging of tau-EGFP expressing cells demonstrated that high zinc concentrations induced a release of tau from microtubules. These results suggest that zinc plays a significant role in the development of tau pathology associated to Alzheimer's disease.