Amyloidosis is a protein conformational disorder in which amyloid fibrils accumulate in the extracellular space and induce organ dysfunction. Recently, two different amyloidogenic proteins, transthyretin (TTR) and apolipoprotein A-I (Apo A-I), were identified in amyloid deposits in knee joints in patients with knee osteoarthritis (OA). However, clinicopathological differences related to those two kinds of amyloid deposits in the knee joint remain to be clarified. Here, we investigated the clinicopathological features related to these knee amyloid deposits associated with knee OA and the biochemical characteristics of the amyloid deposits. We found that all of our patients with knee OA had amyloid deposits in the knee joints, especially in the meniscus, and those deposits were primarily derived from TTR and/or Apo A-I. Some patients with knee OA, however, had unclassified amyloid deposits. One of our interesting observations concerned the different effects of aging on each type of amyloid formed. The frequency of formation of ATTR deposits clearly increased with age, but that of AApo A-I deposits decreased. Furthermore, we found that ∼16% of patients with knee OA developed ATTR/AApo A-I double deposits in the meniscus. Amyloid deposition may therefore be a common histopathological feature associated with knee OA. Also, aging may induce ATTR formation in the knee joint in elderly patients with knee OA, whereas AApo A-I formation may be inversely correlated with age.
Familial amyloid polyneuropathy is a hereditary systemic amyloidosis caused by a mutation in the transthyretin (TTR) gene. Amyloid deposits in tissues of patients contain not only full-length TTR but also C-terminal TTR fragments. However, in vivo models to evaluate the pathogenicity of TTR fragments have not yet been developed. Here, we generated transgenic Caenorhabditis elegans strains expressing several types of TTR fragments or full-length TTR fused to enhanced green fluorescent protein in the body wall muscle cells and analyzed the phenotypes of the worms. The transgenic strain expressing residues 81–127 of TTR, which included the β-strands F and H, formed aggregates and caused defective worm motility and a significantly shortened lifespan compared with other strains. These findings suggest that the C-terminal fragments of TTR may contribute to cytotoxicity of TTR amyloidosis in vivo. By using this C. elegans model system, we found that (−)-epigallocatechin-3-gallate, a major polyphenol in green tea, significantly inhibited the formation of aggregates, the defective motility, and the shortened lifespan caused by residues 81–127 of TTR. These results suggest that our newly developed C. elegans model system will be useful for in vivo pathological analyses of TTR amyloidosis as well as drug screening.
Background: Familial amyloid polyneuropathy is caused by a variant transthyretin, which is a serum protein secreted by the liver. We previously reported that mutated transthyretins were detected in serum samples by surface-enhanced laser desorption/ionization time-of-flight mass spectrometry (SELDI-TOF MS). The aim of this study was to evaluate the clinical usefulness of SELDI-TOF MS for diagnosis of transthyretin-related amyloidosis. Methods: We used 106 serum samples obtained from patients who were clinically suspected of having amyloidosis between February 2011 and April 2014. SELDI-TOF MS allowed analysis for transthyretin via a 3-h one-step procedure. Results: Of the 106 patients, 51 are transthyretin amyloidosis. Mutated transthyretins were detected in serum samples from 30 of 51 patients with transthyretin amyloidosis. The results of genetic analysis showed that all of those patients had mutations in the transthyretin gene. For all 18 patients with senile systemic amyloidosis of 51 patients with transthyretin amyloidosis, SELDI-TOF MS detected only wild-type transthyretin peaks, not mutated transthyretin peaks. Conclusion: SELDI-TOF MS is a clinically useful tool for diagnosis of transthyretin-related amyloidosis.
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