Table 2.
Evidences of proteinopathy for tau vs. MAP2.
| Evidence of proteinopathy | Tau | MAP2 |
|---|---|---|
| Mutation of the encoding gene is associated with disease | Mutations in MAPT gene lead to FTDP-17 as well as other neurodegenerative disorders similar to Pick’s disease, corticobasal degeneration and supranuclear palsy (Strang et al., 2019) | Autism-associated rare 2q34 microdeletions encompass the MAP2 gene (Pescucci et al., 2003); however, mutations selective to MAP2 have not to date been associated with disorder |
| Modifications of transcript or protein are associated with disease | Tau protein hyperphosphorylation is a hallmark of tauopathy, contributing to its aggregation/formation of NFTs (Noble et al., 2013). Missplicing of Tau pre-mRNA- in some cases associated with MAPT mutation- is also associated with various tauopathies (Park et al., 2016) | Changes in expression, post-translational modification and/or splicing of MAP2 have been described in various disorders (see Table 1) |
| Experimental manipulation of the protein causes disease-associated pathology | Mutant Tau mouse lines such as rTg4150 can replicate key features of tauopathy including neuron loss and memory impairments (Denk and Wade-Martins, 2009). Phosphomimicry of Tau can lead to learning and memory deficits in Drosophila and mice (Beharry et al., 2013; Di et al., 2016) | MAP2 knockdown can lead to impairments in LTP and dendritic outgrowth, which are implicated in neurodevelopmental and neurodegenerative disorder (Kim et al., 2020). Mimicry of a schizophrenia-associated MAP2 phosphorylation event leads to reduced dendritic arborization and spine density (Grubisha et al., 2021). Other disease-relevant modifications of MAP2, such as altered splicing or cleavage, have not been modeled. Behavioral/cognitive outcomes of mutant MAP2 animals have not yet been reported |
| Protein dysregulation precedes functional impairments | Tau deposition precedes clinical symptoms of disorder in humans (Jack et al., 2010) | Time course of MAP2 PTMs, splicing alterations, etc remain unknown |
| Degree of protein dysregulation scales with disease pathology | Burden of tau PET binding correlates with cognitive symptoms and severity of regional atrophy (Cho et al., 2016). Higher NFT burden is also associated with faster cognitive decline (Jefferson-George et al., 2017) | MAP2 phosphopeptide levels correlate with dendritic spine density and socioeconomic status in individuals with schizophrenia (Grubisha et al., 2021). Additionally, MAP2-IR loss statistically mediates dendritic spine loss in primary auditory cortex of subjects with schizophrenia (McKinney et al., 2019). Associations of MAP2 expression/phosphorylation with pathology in other disorders remains uninvestigated |
Bold face text highlights current gaps in knowledge regarding MAP2 pathology.