Abstract

Transthyretin (TTR) is a major amyloidogenic protein associated with hereditary (ATTRm) and nonhereditary (ATTRwt) intractable systemic transthyretin amyloidosis. The pathological mechanisms of ATTR-associated amyloid fibril formation are incompletely understood, and there is a need for identifying compounds that target ATTR. C-terminal TTR fragments are often present in amyloid-laden tissues of most patients with ATTR amyloidosis, and on the basis of in vitro studies, these fragments have been proposed to play important roles in amyloid formation. Here, we found that experimentally-formed aggregates of full-length TTR are cleaved into C-terminal fragments, which were also identified in patients' amyloid-laden tissues and in SH-SY5Y neuronal and U87MG glial cells. We observed that a 5-kDa C-terminal fragment of TTR, TTR81-127, is highly amyloidogenic in vitro, even at neutral pH. This fragment formed amyloid deposits and induced apoptosis and inflammatory gene expression also in cultured cells. Using the highly amyloidogenic TTR81-127 fragment, we developed a cell-based high-throughput screening method to discover compounds that disrupt TTR amyloid fibrils. Screening a library of 1280 off-patent drugs, we identified two candidate repositioning drugs, pyrvinium pamoate and apomorphine hydrochloride. Both drugs disrupted patient-derived TTR amyloid fibrils ex vivo, and pyrvinium pamoate also stabilized the tetrameric structure of TTR ex vivo in patient plasma. We conclude that our TTR81-127-based screening method is very useful for discovering therapeutic drugs that directly disrupt amyloid fibrils. We propose that repositioning pyrvinium pamoate and apomorphine hydrochloride as TTR amyloid-disrupting agents may enable evaluation of their clinical utility for managing ATTR amyloidosis.

Highlights

  • Transthyretin (TTR) is a major amyloidogenic protein associated with hereditary (ATTRm) and nonhereditary (ATTRwt) intractable systemic transthyretin amyloidosis

  • Our in vitro studies revealed that the 5-kDa C terminus of TTR, TTR81–127, quite formed amyloid fibrils at neutral pH and induced apoptosis, probably via the Fas-dependent pathway in cultured cells

  • With this highly amyloidogenic TTR81– 127 fragment, we developed a novel cell-based high-throughput screening (HTS) method to find candidate drugs that would directly disrupt disease-causing TTR amyloid fibrils, and we successfully found candidate drugs by using a screening library of 1280 off-patent drugs

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Summary

ARTICLE cro

A cell-based high-throughput screening method to directly examine transthyretin amyloid fibril formation at neutral pH. We observed that a 5-kDa C-terminal fragment of TTR, TTR81– 127, is highly amyloidogenic in vitro, even at neutral pH This fragment formed amyloid deposits and induced apoptosis and inflammatory gene expression in cultured cells. Using the highly amyloidogenic TTR81–127 fragment, we developed a cell-based high-throughput screening method to discover compounds that disrupt TTR amyloid fibrils. We first discovered that full-length TTR aggregates were cleaved into C-terminal fragments in cultured neuronal and glial cells and that a 5-kDa C-terminal fragment of TTR, TTR81–127, was highly amyloidogenic, even at neutral pH, in test tubes and in cultured cells With this highly amyloidogenic TTR81–127, we developed a novel cell-based high-throughput screening (HTS) method so as to detect a new class of drugs that would disrupt amyloid fibrils, and we succeeded in finding candidate repositioning drugs by using a screening library of 1280 off-patent drugs

Results
Amyloid formation by TTR fragments in vitro
Novel screening method to detect antiamyloid drugs for drug repositioning
Discussion
Recombinant TTR expression and purification
Cells and cell culture studies
Amino acid sequences of TTR fragments
Detection of TTR fragments in vitreous amyloid deposits
In vitro formation of amyloid fibrils at neutral pH
Electron microscopic analyses of the morphology of amyloid fibrils
ThT fluorescence assay
Analyses of cytotoxicity and apoptosis in cultured cells
Evaluation of the stability of TTR tetramers
Statistical analysis

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