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Browsing by Author "Cabrera Hernandez, Luis O."
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Item ATTRv-V30M Type A amyloid fibrils from heart and nerves exhibit structural homogeneity(bioRxiv, 2024-05-14) Nguyen, Binh An; Afrin, Shumaila; Yakubovska, Anna; Singh, Virender; Alicea, Jaime Vaquer; Kunach, Peter; Singh, Preeti; Pekala, Maja; Ahmed, Yasmin; Fernandez-Ramirez, Maria del Carmen; Cabrera Hernandez, Luis O.; Pedretti, Rose; Bassett, Parker; Wang, Lanie; Lemoff, Andrew; Villalon, Layla; Kluve-Beckerman, Barbara; Saelices, Lorena; Pathology and Laboratory Medicine, School of MedicineATTR amyloidosis is a systemic disease characterized by the deposition of amyloid fibrils made of transthyretin, a protein integral to transporting retinol and thyroid hormones. Transthyretin is primarily produced by the liver and circulates in blood as a tetramer. The retinal epithelium also secretes transthyretin, which is secreted to the vitreous humor of the eye. Because of mutations or aging, transthyretin can dissociate into amyloidogenic monomers triggering amyloid fibril formation. The deposition of transthyretin amyloid fibrils in the myocardium and peripheral nerves causes cardiomyopathies and neuropathies, respectively. Using cryo-electron microscopy, here we determined the structures of amyloid fibrils extracted from cardiac and nerve tissues of an ATTRv-V30M patient. We found that fibrils from both tissues share a consistent structural conformation, similar to the previously described structure of cardiac fibrils from an individual with the same genotype, but different from the fibril structure obtained from the vitreous humor. Our study hints to a uniform fibrillar architecture across different tissues within the same individual, only when the source of transthyretin is the liver. Moreover, this study provides the first description of ATTR fibrils from the nerves of a patient and enhances our understanding of the role of deposition site and protein production site in shaping the fibril structure in ATTRv-V30M amyloidosis.Item Structural polymorphism of amyloid fibrils in ATTR amyloidosis revealed by cryo-electron microscopy(Springer Nature, 2024-01-17) Nguyen, Binh An; Singh, Virender; Afrin, Shumaila; Yakubovska, Anna; Wang, Lanie; Ahmed, Yasmin; Pedretti, Rose; Fernandez-Ramirez, Maria del Carmen; Singh, Preeti; Pękała, Maja; Cabrera Hernandez, Luis O.; Kumar, Siddharth; Lemoff, Andrew; Gonzalez-Prieto, Roman; Sawaya, Michael R.; Eisenberg, David S.; Benson, Merrill Douglas; Saelices, Lorena; Pathology and Laboratory Medicine, School of MedicineATTR amyloidosis is caused by the deposition of transthyretin in the form of amyloid fibrils in virtually every organ of the body, including the heart. This systemic deposition leads to a phenotypic variability that has not been molecularly explained yet. In brain amyloid conditions, previous studies suggest an association between clinical phenotype and the molecular structures of their amyloid fibrils. Here we investigate whether there is such an association in ATTRv amyloidosis patients carrying the mutation I84S. Using cryo-electron microscopy, we determined the structures of cardiac fibrils extracted from three ATTR amyloidosis patients carrying the ATTRv-I84S mutation, associated with a consistent clinical phenotype. We found that in each ATTRv-I84S patient, the cardiac fibrils exhibited different local conformations, and these variations can co-exist within the same fibril. Our finding suggests that one amyloid disease may associate with multiple fibril structures in systemic amyloidoses, calling for further studies.