Targeting dual specificity tyrosine-phosphorylation-regulated kinase 1A mitigates tauopathy and enhances recovery after repetitive head injury
Benoit Melchior, Mackenzie Browning, Robyn McCartan, Carolyn Lai, Coral Hahn-Townsend, Arissa Gratkowski, Alexander Morin, Michael Mullan, Fiona Crawford, Mirta Grifman, Benoit Mouzon

TL;DR
Inhibiting a specific brain enzyme helps reduce brain damage and improve recovery after head injuries.
Contribution
This study shows that inhibiting DYRK1A reduces tau pathology and neuroinflammation after repetitive brain injuries.
Findings
DYRK1A inhibition reduces phosphorylated Tau accumulation in brain regions after injury.
Treatment improves motor performance and reduces glial activation in injured mice.
SM07883 shows therapeutic potential for long-term TBI consequences.
Abstract
Chronic neuroinflammation and accumulation of phosphorylated Tau (pTau) are hallmark features of several neurodegenerative diseases and are also observed in some individuals who have sustained traumatic brain injury (TBI). Notably, more than 70 % of patients presenting to emergency departments with mild TBI (Glasgow Coma Score of 13–15) exhibit neuropathological alterations despite a normal sensorium, and up to half experience prolonged post-injury symptoms. Dual specificity tyrosine-phosphorylation-regulated kinase 1A (DYRK1A) is a serine/threonine protein kinase that contributes to tau phosphorylation and regulates immune responses. Inhibition of DYRK1A may therefore attenuate both tau pathology and neuroinflammation following injury. Transgenic mice expressing human Tau (hTau) were subjected to repetitive head injury (RHI) over a 3-month period and treated with either vehicle or…
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Taxonomy
TopicsDown syndrome and intellectual disability research · Traumatic Brain Injury Research · Stroke Rehabilitation and Recovery
