TA holds the potential as a disease-modifying agent for the treatment of tauopathies including AD.
In the healthy human brain, the protein tau serves the essential function of stabilizing microtubules. However, in a diseased state, tau becomes destabilized and aggregates into a pathogenic form that ultimately creates one of the two major hallmarks of Alzheimer’s disease (AD), tau tangles. Multiple neurodegenerative diseases, termed tauopathies, such as Pick’s disease, and progressive supranuclear palsy, are also linked to mutations in tau. While AD does include a second hallmark in the form of amyloid beta (Aβ) plaques, to date all therapeutics aimed at these hallmark features have failed. The nonsteroidal anti-inflammatory drug tolfenamic acid (TA) has been shown to reduce the levels of multiple neurodegenerative endpoints viz amyloid precursor protein (APP), Aβ, tau, phosphorylated tau (p-tau) and improve cognitive function, in various murine models, via a new mechanism that targets specificity protein 1 ( SP1). Sp1 is a zinc-finger transcription factor essential for the regulation of tau and CDK5 genes (among others). The impact of TA on these neurodegenerative endpoints occurred in animal models and systems in which both the tau and the APP genes were present. The experimental model utilized in this paper tested whether the same beneficial outcomes of TA can take place after the removal of endogenous murine tau. We found that the impact of TA, both molecular and behavioral, was no longer significant in the absence of the tau gene. This ability of TA occurred independently of its action on anti-inflammatory targets. Therefore, these findings suggest the essentiality of tau for the novel mechanism of action of TA. Impact statement The number of people suffering from Alzheimer’s disease (AD) is expected to increase exponentially in the coming decades. It is estimated to cost the economy about $200 billion annually. With the failure of standard therapeutic approaches, there is a need to develop new drugs in order to avoid an “epidemic crisis” in the future. We have discovered that tolfenamic acid (TA) lowers the levels of proteins associated with AD, by targeting common transcriptional mechanisms that regulate genes involved in common pathogenic pathways. Here, we investigated whether TA had effects on both the amyloid and tau pathways, or whether it selectively targets one of these pathways which impacted the other. Behavioral and molecular studies revealed that TA loses its AD therapeutic potential when tau gene is removed. This ability of TA occurred independently of its action on anti-inflammatory targets. These findings suggest that tau is essential for the new action of TA.
Previous reports by us have determined that developmental exposure to the heavy metal lead (Pb) resulted in cognitive impairment in aging wildtype mice, and a latent induction in biomarkers associated with both the tau and amyloid pathways. However, the relationship between these two pathways and their correlation to cognitive performance needs to be scrutinized. Here, we investigated the impact of developmental Pb (0.2%) exposure on the amyloid and tau pathways in a transgenic mouse model lacking the tau gene. Cognitive function, and levels of intermediates in the amyloid and tau pathways following postnatal Pb exposure were assessed on young adult and mature transgenic mice. No significant difference in behavioral performance, amyloid precursor protein (APP), or amyloid beta (Aβ) levels was observed in transgenic mice exposed to Pb. Regulators of the tau pathway were impacted by the absence of tau, but no additional change was imparted by Pb exposure. These results revealed that developmental Pb exposure does not cause cognitive decline or change the expression of the amyloid pathway in the absence of tau. The essentiality of tau to mediate cognitive decline by environmental perturbations needs further investigation.
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