bp(GO:"one-carbon metabolic process")
The deregulation of PP2A methylation in AD is especially interesting, not only because it can lead to a loss of PP2A/Bα, a major tau regulator, but also because PP2A methylation state is intimately linked to the integrity of one-carbon metabolism, which regulates SAM supply (Reviewed in Fowler,2005). PubMed:24653673
The deregulation of PP2A methylation in AD is especially interesting, not only because it can lead to a loss of PP2A/Bα, a major tau regulator, but also because PP2A methylation state is intimately linked to the integrity of one-carbon metabolism, which regulates SAM supply (Reviewed in Fowler,2005). PubMed:24653673
Remarkably, impairment of one-carbon metabolism in animal models can reproduce AD-like pathological features: accumulation of P-tau (Sontag et al.,2007; Zhang et al.,2008; Wei et al.,2011); enhanced amyloidogenesis (Pacheco-Quinto et al.,2006; Zhang et al.,2009; Zhuo et al.,2010; Zhuo and Pratico,2010); increased phosphorylation of APP at the regulatory Thr-668 site (Sontag et al.,2007; Zhang et al.,2009); increased sensitivity to amyloid toxicity (Kruman et al.,2002); and cognitive impairment (Bernardo et al.,2007; Wei et al.,2011; Rhodehouse et al., 2013). PubMed:24653673
Remarkably, impairment of one-carbon metabolism in animal models can reproduce AD-like pathological features: accumulation of P-tau (Sontag et al.,2007; Zhang et al.,2008; Wei et al.,2011); enhanced amyloidogenesis (Pacheco-Quinto et al.,2006; Zhang et al.,2009; Zhuo et al.,2010; Zhuo and Pratico,2010); increased phosphorylation of APP at the regulatory Thr-668 site (Sontag et al.,2007; Zhang et al.,2009); increased sensitivity to amyloid toxicity (Kruman et al.,2002); and cognitive impairment (Bernardo et al.,2007; Wei et al.,2011; Rhodehouse et al., 2013). PubMed:24653673
Remarkably, impairment of one-carbon metabolism in animal models can reproduce AD-like pathological features: accumulation of P-tau (Sontag et al.,2007; Zhang et al.,2008; Wei et al.,2011); enhanced amyloidogenesis (Pacheco-Quinto et al.,2006; Zhang et al.,2009; Zhuo et al.,2010; Zhuo and Pratico,2010); increased phosphorylation of APP at the regulatory Thr-668 site (Sontag et al.,2007; Zhang et al.,2009); increased sensitivity to amyloid toxicity (Kruman et al.,2002); and cognitive impairment (Bernardo et al.,2007; Wei et al.,2011; Rhodehouse et al., 2013). PubMed:24653673
Remarkably, impairment of one-carbon metabolism in animal models can reproduce AD-like pathological features: accumulation of P-tau (Sontag et al.,2007; Zhang et al.,2008; Wei et al.,2011); enhanced amyloidogenesis (Pacheco-Quinto et al.,2006; Zhang et al.,2009; Zhuo et al.,2010; Zhuo and Pratico,2010); increased phosphorylation of APP at the regulatory Thr-668 site (Sontag et al.,2007; Zhang et al.,2009); increased sensitivity to amyloid toxicity (Kruman et al.,2002); and cognitive impairment (Bernardo et al.,2007; Wei et al.,2011; Rhodehouse et al., 2013). PubMed:24653673
Remarkably, impairment of one-carbon metabolism in animal models can reproduce AD-like pathological features: accumulation of P-tau (Sontag et al.,2007; Zhang et al.,2008; Wei et al.,2011); enhanced amyloidogenesis (Pacheco-Quinto et al.,2006; Zhang et al.,2009; Zhuo et al.,2010; Zhuo and Pratico,2010); increased phosphorylation of APP at the regulatory Thr-668 site (Sontag et al.,2007; Zhang et al.,2009); increased sensitivity to amyloid toxicity (Kruman et al.,2002); and cognitive impairment (Bernardo et al.,2007; Wei et al.,2011; Rhodehouse et al., 2013). PubMed:24653673
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