Your search keyword '"Ryabova, Natalya A."' showing total 2 results

1. Carbonic anhydrase amyloid fibrils composed of laterally associated protofilaments show reduced cytotoxicity.

Author

Ryabova, Natalya, Fakhranurova, Liliia, Balobanov, Vitaly, Marchenkov, Victor, Glukhov, Anatoly, Ilyina, Nelly, Kochetov, Alexey, Suvorina, Mariya, Surin, Alexey, and Katina, Natalya

Subjects

*CARBONIC anhydrase, *AMYLOID, *EUKARYOTIC cells, *MASS spectrometry, *CELL survival, *AMYLOID beta-protein

Abstract

Cytotoxicity of amyloid fibrils has been shown to depend on their structure. However, specific features of toxic and non-toxic amyloids remain unclear. Here we focus on the relationship between structural characteristics of the fibrils and their cytotoxicity. Bovine carbonic anhydrase B (BCAB) serves as the object of this study because its amyloids reduce cell viability. Limited proteolysis and mass spectrometry were used to determine BCAB regions forming the core of amyloid fibrils. Four BCAB mutants with substitutions reducing hydrophobicity in the regions important for amyloid formation were obtained to study the kinetics of aggregation, structural features, and cytotoxicity of the amyloids. We demonstrate that fibrils of WT BCAB, L78A, L139A, and M239A variants display a pronounced toxic effect on eukaryotic cells, while I208A mutation significantly reduces the cell-damaging effect of amyloids. The data obtained conclude that cytotoxicity of BCAB fibrils does not depend on their length, secondary structure, and exposure of hydrophobic groups to the solvent. A distinctive feature of the low-toxic I208A fibrils is their specific morphology characterized by the lateral protofilaments association and formation of fibril-ribbons. • Amyloid fibrils of BCAB and its mutants decrease eukaryotic cells viability. • The fibrils cytotoxicity doesn't depend on their length, secondary structure, and ANS binding. • Specific feature of the low-toxic amyloids is the lateral protofilaments association. [ABSTRACT FROM AUTHOR]

Published

2022

2. The presence of cross-β-structure as a key determinant of carbonic anhydrase amyloid fibrils cytotoxicity.

Author

Fakhranurova, Liliia, Balobanov, Vitaly, Ryabova, Natalya, Glukhov, Anatoly, Ilyina, Nelly, Markelova, Natalia, Marchenkov, Victor, and Katina, Natalya

Subjects

*AMYLOID beta-protein, *CARBONIC anhydrase, *CELL membranes, *CELL survival, *OLIGOMERS

Abstract

In most cases high cytotoxicity is characteristic of aggregates formed during lag phase of amyloid formation, whereas mature fibrils represent the depot of protein molecules incapable of damaging cell membranes. However, new experimental data show that in cases of some proteins the fibrils are the most toxic type of aggregates. Meanwhile, structural characteristics of cytotoxic fibrils and mechanisms of their cell damaging action are insufficiently explored. This work is dedicated to studying amyloid aggregation of bovine carbonic anhydrase (BCA) and effect of aggregates formed at different stages of amyloid formation on viability of the cells. Here we demonstrate that oligomers formed during lag phase do not decrease cell viability, whereas protofibrils and amyloids of BCA are cytotoxic. Obtained results allow concluding that toxicity of BCA aggregates is associated with the presence of amyloid cross-β-structure, which signature is absorbance peak at low wavenumbers at FTIR spectra (1615-1630 cm−1). Our data suppose that cross-β-core of ВСА amyloid fibrils is responsible for their cytotoxicity. • Oligomers formed during lag phase of bovine carbonic anhydrase (BCA) amyloid aggregation do not decrease cell viability. • Protofibrils and mature fibrils of BCA are cytotoxic. • Toxicity of BCA aggregates is associated with the presence of amyloid cross-β-structure. [ABSTRACT FROM AUTHOR]

Published

2020