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Amyloid-Forming Corpora Amylacea and Spheroid-Type Amyloid Deposition: Comprehensive Analysis Using Immunohistochemistry, Proteomics, and a Literature Review
Ichimata, S.; Hata, Y.; Yoshinaga, T.; Katoh, N.; Kametani, F.; Yazaki, M.; Sekijima, Y.; Nishida, N. Amyloid-Forming Corpora Amylacea and Spheroid-Type Amyloid Deposition: Comprehensive Analysis Using Immunohistochemistry, Proteomics, and a Literature Review. Int. J. Mol. Sci.2024, 25, 4040.
Ichimata, S.; Hata, Y.; Yoshinaga, T.; Katoh, N.; Kametani, F.; Yazaki, M.; Sekijima, Y.; Nishida, N. Amyloid-Forming Corpora Amylacea and Spheroid-Type Amyloid Deposition: Comprehensive Analysis Using Immunohistochemistry, Proteomics, and a Literature Review. Int. J. Mol. Sci. 2024, 25, 4040.
Ichimata, S.; Hata, Y.; Yoshinaga, T.; Katoh, N.; Kametani, F.; Yazaki, M.; Sekijima, Y.; Nishida, N. Amyloid-Forming Corpora Amylacea and Spheroid-Type Amyloid Deposition: Comprehensive Analysis Using Immunohistochemistry, Proteomics, and a Literature Review. Int. J. Mol. Sci.2024, 25, 4040.
Ichimata, S.; Hata, Y.; Yoshinaga, T.; Katoh, N.; Kametani, F.; Yazaki, M.; Sekijima, Y.; Nishida, N. Amyloid-Forming Corpora Amylacea and Spheroid-Type Amyloid Deposition: Comprehensive Analysis Using Immunohistochemistry, Proteomics, and a Literature Review. Int. J. Mol. Sci. 2024, 25, 4040.
Abstract
This study aimed to elucidate the similarities and differences between amyloid-forming corpora amylacea (CA) in the prostate and lung, examine the nature of CAs in cystic tumors of the atrioventricular node (CTAVN), and clarify the distinctions between amyloid-forming CA and spheroid-type amyloid deposition. We conducted proteomics analyses using liquid chromatography–tandem mass spectrometry with laser microdissection and immunohistochemistry to validate the characteristics of CAs in the lung and prostate. Our findings revealed that CAs in these organs primarily consist of common proteins (β2-microglobulin and lysozyme) and locally produced proteins. Moreover, we observed a discrepancy between the histopathological and proteomic analysis results in CTAVN-associated CAs. In addition, while the histopathological appearance of amyloid-forming CAs and spheroid-type amyloid deposits were nearly identical, the latter deposition lacked β2-microglobulin and lysozyme, and exhibited evident destruction of surrounding tissue. A literature review further supported these findings. These results suggest that amyloid-forming CAs in the lung and prostate are formed through a shared mechanism, serving as waste containers (wasteosomes) and/or storage for excess proteins (functional amyloids). In contrast, we hypothesize that while amyloid-forming CA and spheroid-type amyloid deposits are formed, in part, through common mechanisms, the latter are pathological.
Medicine and Pharmacology, Pathology and Pathobiology
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