Formalin RT-QuIC assay detects prion-seeding activity in formalin-fixed brain samples from sporadic Creutzfeldt-Jakob disease patients.

BACKGROUND: The neuropathology of sporadic Creutzfeldt-Jakob disease (sCJD) is usually investigated using formalin-fixed and formic acid-treated brain tissue. However, formalin and formic acid treatment can interfere with immunostaining of abnormal prion protein. Therefore, there is a need for biochemical methods other than immunostaining to investigate abnormal prion protein in postmortem tissue. We developed RT-QuIC to quantitate the seeding activity (SD50) of sCJD brain tissue treated with formalin and formic acid. METHODS: We used endpoint RT-QuIC assays to analyze SD50 in formalin-fixed brain tissue from 19 sCJD patients (14 MM1 cases, 3 MM2-thalamic form [MM2T] cases and 2 MM2-cortical form [MM2C] cases) diagnosed according to Parchi's classification. We assessed SD50 in brains after incubation in formalin solution for over 1 month, and after treating formalin-fixed brain tissue with formic acid. We also examined how the SD50 values from formalin-fixed brain samples compared with neuropathological and immunohistochemical findings. RESULTS: The SD50 values of formalin-fixed brain samples from 14 MM1 cases, 2 MM2C cases, and 2 MM2T cases were 107.77±0.57/g tissue, 107.44±0.24/g tissue and 106.00±0.77/g tissue, respectively. The average SD50 value in MM1 unfixed brains decreased by 102.04 after formalin fixation for 1 month. In MM1 cases, after combined formalin and formic acid treatment, the SD50 value was reduced by approximately 105.16 compared with that of unfixed tissue. The SD50 values of formalin-fixed tissue showed a consistent pattern with the neuropathological findings in most brain regions examined. CONCLUSION: RT-QuIC enables the study of formalin-fixed brain tissue from sCJD patients that has not previously been amenable to analysis.

The Latest Research on RT-QuIC Assays-A Literature Review.

The misfolding of proteins such as the prion protein, α-synuclein, and tau represents a key initiating event for pathogenesis of most common neurodegenerative disorders, and its presence correlates with infectivity. To date, the diagnosis of these disorders mainly relied on the recognition of clinical symptoms when neurodegeneration was already at an advanced phase. In recent years, several efforts have been made to develop new diagnostic tools for the early diagnosis of prion diseases. The real-time quaking-induced conversion (RT-QuIC) assay, an in vitro assay that can indirectly detect very low amounts of PrPSc aggregates, has provided a very promising tool to improve the early diagnosis of human prion diseases. Over the decade since RT-QuIC was introduced, the diagnosis of not only prion diseases but also synucleinopathies and tauopathies has greatly improved. Therefore, in our study, we summarize the current trends and knowledge of RT-QuIC assays, as well as discuss the diagnosis of neurodegenerative diseases using RT-QuIC assays, which have been updated in recent years.