Evaluation of microRNA mmu-miR-31 influence in degenerative retinal models
Details
State: Public
Version: After imprimatur
License: Not specified
Serval ID
serval:BIB_1BB5C04B0D44
Type
A Master's thesis.
Publication sub-type
Master (thesis) (master)
Collection
Publications
Institution
Title
Evaluation of microRNA mmu-miR-31 influence in degenerative retinal models
Director(s)
ARSENIJEVIC Y.
Codirector(s)
M'BEFO M.
Institution details
Université de Lausanne, Faculté de biologie et médecine
Publication state
Accepted
Issued date
2018
Language
english
Number of pages
26
Abstract
Retinitis pigmentosa (RP) is a group of inherited dystrophic retinal disease that affects 1 of
4000 people worldwide. It gradually leads to visual loss through retinal neurodegeneration
with a slow and progressive process. The underlying mechanisms of the cell death are now
well studied but their interactions remain uncertain. Just before the death of the
photoreceptor, some of the cell cycle proteins are reactivated and may play an important
role. In the laboratory, some microRNAs have been identified during the photoreceptor
relapse of the Rd1 mouse model of retinal degeneration. The objectives of this study is to
understand the potential role of the miR-31 in the control of specific cell cycle proteins. For
this experiment, a mouse photoreceptor-like cell line (661W) has been cultured and
transfected with a plasmid coding for miR-31 and GFP or a scramble sequence and GFP
(control). Western Blot and qPCR allowed us to evaluate respectively the cell cycle protein
status and the corresponding mRNA status in relation to the miR-31 overexpression.
Our experiment revealed that miR-31 downregulates E2f1 cell cycle protein in 661W cells.
These results must be confirmed with supplementary experiments in vivo studies in Rd1
mouse retina.
4000 people worldwide. It gradually leads to visual loss through retinal neurodegeneration
with a slow and progressive process. The underlying mechanisms of the cell death are now
well studied but their interactions remain uncertain. Just before the death of the
photoreceptor, some of the cell cycle proteins are reactivated and may play an important
role. In the laboratory, some microRNAs have been identified during the photoreceptor
relapse of the Rd1 mouse model of retinal degeneration. The objectives of this study is to
understand the potential role of the miR-31 in the control of specific cell cycle proteins. For
this experiment, a mouse photoreceptor-like cell line (661W) has been cultured and
transfected with a plasmid coding for miR-31 and GFP or a scramble sequence and GFP
(control). Western Blot and qPCR allowed us to evaluate respectively the cell cycle protein
status and the corresponding mRNA status in relation to the miR-31 overexpression.
Our experiment revealed that miR-31 downregulates E2f1 cell cycle protein in 661W cells.
These results must be confirmed with supplementary experiments in vivo studies in Rd1
mouse retina.
Keywords
miR-31, Neurodegeneration, Retinitis pigmentosa, Cell cycle proteins
Create date
03/09/2019 10:51
Last modification date
08/09/2020 7:08
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