<p>TDP-43 proteinopathy coexists with tauopathy in a variety of neurodegenerative disorders, including Alzheimer’s Disease (AD) and AD related dementia (ADRD). While such co-pathology of TDP-43 is strongly associated with worsened neurodegeneration, the pathogenic mechanism underlying the exacerbated neuron loss remains elusive. Loss of TDP-43 splicing repression occurring during the early stage of neurodegenerative disease suggests that such loss could facilitate the pathological conversion of tau. Here, we report that TDP-43 loss-of-function (LOF) in forebrain neurons (<i>Tau4R</i>;<i> CaMKII-CreER; Tardbp</i><sup><i>f/f</i></sup> mice) exacerbates tauopathy-dependent brain atrophy is associated with vulnerable neurons sensitive to caspase 3-dependent cleavage of endogenous tau. We demonstrate that TDP-43 LOF in human iPSC-derived cortical neurons promotes TDP-43 dependent cryptic splicing which precedes caspase 3-mediated endoproteolysis of tau. Using a genetic approach to seed tauopathy in <i>CaMKII-CreER; Tardbp</i><sup><i>f/f</i></sup> mice by expressing a four-repeat microtubule binding domain of human tau, we show that the amount of tau seed correlates with caspase 3-dependent tau cleavage, accelerated tauopathy and the loss of vulnerable neurons deficient in TDP-43. Together, these results strongly support the view that TDP-43 dysfunction exacerbates tauopathy-dependent brain atrophy by promoting caspase 3-dependent endoproteolysis of tau, disclosing novel mechanistic insights and therapeutic targets for human tauopathies harboring the co-pathology of TDP-43.</p>

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TDP-43 dysfunction facilitates the pathological conversion of tau

  • Meghraj S. Baghel,
  • Grace D. Burns,
  • Margarita Tsapatsis,
  • Aswathy Peethambaran Mallika,
  • Anna Lourdes F. Cruz,
  • Tianyu Cao,
  • Xiaoke K. Chen,
  • Isabel De La Rosa,
  • Shaelyn R. Marx,
  • Yingzhi Ye,
  • Shuying Sun,
  • Tong Li,
  • Jonathan P. Ling,
  • Philip C. Wong

摘要

TDP-43 proteinopathy coexists with tauopathy in a variety of neurodegenerative disorders, including Alzheimer’s Disease (AD) and AD related dementia (ADRD). While such co-pathology of TDP-43 is strongly associated with worsened neurodegeneration, the pathogenic mechanism underlying the exacerbated neuron loss remains elusive. Loss of TDP-43 splicing repression occurring during the early stage of neurodegenerative disease suggests that such loss could facilitate the pathological conversion of tau. Here, we report that TDP-43 loss-of-function (LOF) in forebrain neurons (Tau4R; CaMKII-CreER; Tardbpf/f mice) exacerbates tauopathy-dependent brain atrophy is associated with vulnerable neurons sensitive to caspase 3-dependent cleavage of endogenous tau. We demonstrate that TDP-43 LOF in human iPSC-derived cortical neurons promotes TDP-43 dependent cryptic splicing which precedes caspase 3-mediated endoproteolysis of tau. Using a genetic approach to seed tauopathy in CaMKII-CreER; Tardbpf/f mice by expressing a four-repeat microtubule binding domain of human tau, we show that the amount of tau seed correlates with caspase 3-dependent tau cleavage, accelerated tauopathy and the loss of vulnerable neurons deficient in TDP-43. Together, these results strongly support the view that TDP-43 dysfunction exacerbates tauopathy-dependent brain atrophy by promoting caspase 3-dependent endoproteolysis of tau, disclosing novel mechanistic insights and therapeutic targets for human tauopathies harboring the co-pathology of TDP-43.