Yeast red pigment modifies Amyloid beta growth in Alzheimer disease models in both Saccharomyces cerevisiae and Drosophila melanogaster
Yeast red pigment modifies Amyloid beta growth in Alzheimer disease models in both Saccharomyces cerevisiae and Drosophila melanogaster
The effect of yeast red pigment on amyloid-β (Aβ) aggregation and fibril growth was studied in yeasts, fruit flies and in vitro. Yeast strains accumulating red pigment (red strains) contained less amyloid and had better survival rates compared to isogenic strains without red pigment accumulation (white strains). Confocal and fluorescent microscopy was used to visualise fluorescent Aβ-GFP aggregates. Yeast cells containing less red pigment had more Aβ-GFP aggregates despite the lower level of overall GFP fluorescence. Western blot analysis with anti-GFP, anti-Aβ and A11 antibodies also revealed that red cells contained a considerably lower amount of Aβ GFP aggregates as compared to white cells. Similar results were obtained with exogenous red pigment that was able to penetrate yeast cells. In vitro experiments with thioflavine and TEM showed that red pigment effectively decreased Aβ fibril growth. Transgenic flies expressing Aβ were cultivated on medium containing red and white isogenic yeast strains. Flies cultivated on red strains had a significant decrease in Aβ accumulation levels and brain neurodegeneration. They also demonstrated better memory and learning indexes and higher locomotor ability
100-111
Nevzglyadova, O.V.
872186f1-4278-4833-8476-6e61c91c683c
Mikhailova, E.V.
c471888d-2cea-4293-a3ba-97b89d9fc3ac
Amen, T.R.
388dc540-e819-4d07-8f1e-ee0f3949a54b
Zenin, V.V.
fd3ac49c-fbf7-4ca6-9ea8-644e2df1bd3e
Artemov, A.V.
24be05cb-b681-4cd3-95ad-25aba3a4da6d
Kostyleva, E.I.
986c2d0d-6545-4fae-9fd1-6b44bcd9bb24
Mezhenskaya, D.A.
92b057f1-d4f5-42d7-be40-f4b416d9fb4a
Saifitdinova, A.F.
3732bf51-cbcd-4141-ad52-4a6da43c617b
Rodin, D.I.
1b0c9085-003a-4a73-9972-ec07f05f9df8
Khodorkovskii, M.A.
00fc46bc-3f34-4581-9c24-1000ba8b2e77
Sarantseva, S.V.
b55da16b-ce33-436a-8184-5097028c93ec
Soidla, T.R.
29c49139-91f9-4b92-94d1-9106bf2346be
2015
Nevzglyadova, O.V.
872186f1-4278-4833-8476-6e61c91c683c
Mikhailova, E.V.
c471888d-2cea-4293-a3ba-97b89d9fc3ac
Amen, T.R.
388dc540-e819-4d07-8f1e-ee0f3949a54b
Zenin, V.V.
fd3ac49c-fbf7-4ca6-9ea8-644e2df1bd3e
Artemov, A.V.
24be05cb-b681-4cd3-95ad-25aba3a4da6d
Kostyleva, E.I.
986c2d0d-6545-4fae-9fd1-6b44bcd9bb24
Mezhenskaya, D.A.
92b057f1-d4f5-42d7-be40-f4b416d9fb4a
Saifitdinova, A.F.
3732bf51-cbcd-4141-ad52-4a6da43c617b
Rodin, D.I.
1b0c9085-003a-4a73-9972-ec07f05f9df8
Khodorkovskii, M.A.
00fc46bc-3f34-4581-9c24-1000ba8b2e77
Sarantseva, S.V.
b55da16b-ce33-436a-8184-5097028c93ec
Soidla, T.R.
29c49139-91f9-4b92-94d1-9106bf2346be
Nevzglyadova, O.V., Mikhailova, E.V. and Amen, T.R.
,
et al.
(2015)
Yeast red pigment modifies Amyloid beta growth in Alzheimer disease models in both Saccharomyces cerevisiae and Drosophila melanogaster.
Amyloid, 22 (2), .
(doi:10.3109/13506129.2015.1010038).
Abstract
The effect of yeast red pigment on amyloid-β (Aβ) aggregation and fibril growth was studied in yeasts, fruit flies and in vitro. Yeast strains accumulating red pigment (red strains) contained less amyloid and had better survival rates compared to isogenic strains without red pigment accumulation (white strains). Confocal and fluorescent microscopy was used to visualise fluorescent Aβ-GFP aggregates. Yeast cells containing less red pigment had more Aβ-GFP aggregates despite the lower level of overall GFP fluorescence. Western blot analysis with anti-GFP, anti-Aβ and A11 antibodies also revealed that red cells contained a considerably lower amount of Aβ GFP aggregates as compared to white cells. Similar results were obtained with exogenous red pigment that was able to penetrate yeast cells. In vitro experiments with thioflavine and TEM showed that red pigment effectively decreased Aβ fibril growth. Transgenic flies expressing Aβ were cultivated on medium containing red and white isogenic yeast strains. Flies cultivated on red strains had a significant decrease in Aβ accumulation levels and brain neurodegeneration. They also demonstrated better memory and learning indexes and higher locomotor ability
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Published date: 2015
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Local EPrints ID: 483173
URI: http://eprints.soton.ac.uk/id/eprint/483173
ISSN: 1350-6129
PURE UUID: 42028a04-144f-40bd-bef6-46b65eca8cc0
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Date deposited: 25 Oct 2023 17:14
Last modified: 18 Mar 2024 04:16
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Contributors
Author:
O.V. Nevzglyadova
Author:
E.V. Mikhailova
Author:
T.R. Amen
Author:
V.V. Zenin
Author:
A.V. Artemov
Author:
E.I. Kostyleva
Author:
D.A. Mezhenskaya
Author:
A.F. Saifitdinova
Author:
D.I. Rodin
Author:
M.A. Khodorkovskii
Author:
S.V. Sarantseva
Author:
T.R. Soidla
Corporate Author: et al.
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