Alpha-synuclein aggregates are phosphatase resistant.
S G ChoiT TittleD Garcia-PradaJeffrey H KordowerRonald MelkiBryan A KillingerPublished in: bioRxiv : the preprint server for biology (2024)
Phosphorylated alpha-synuclein (PSER129) was widely regarded as a sensitive, specific marker for pathological aggregates in synucleinopathies until recent data demonstrated that PSER129 is abundant in the healthy mammalian nervous system and results from normal neuronal activity. Differentiating pathological (i.e., aggregated PSER129) and biological (non-aggregated PSER129) has thus become of critical importance to the field. Here, we describe our discovery that aggregated-PSER129 is impervious to enzymatic dephosphorylation. We leverage this discovery to develop a technique (CIAP-PSER129) to detect normal or pathological PSER129 selectively. Our technique allowed us to unambiguously differentiate pathological inclusions in brain regions and mouse models where excessive non-aggregated PSER129 severely limits the sensitivity of aggregate detection. CIAP-PSER129 is nondestructive and compatible with most downstream assays, including mass spectrometry-based peptide identification. These findings have important implications and utility for the synucleinopathy field and may have applicability to other neuropathological proteins (e.g., tau).