Live imaging and modeling of inner nuclear membrane targeting reveals its molecular requirements in mammalian cells
Live imaging and modeling of inner nuclear membrane targeting reveals its molecular requirements in mammalian cells
Targeting of inner nuclear membrane (INM) proteins is essential for nuclear architecture and function, yet its mechanism remains poorly understood. Here, we established a new reporter that allows real-time imaging of membrane protein transport from the ER to the INM using Lamin B receptor and Lap2β as model INM proteins. These reporters allowed us to characterize the kinetics of INM targeting and establish a mathematical model of this process and enabled us to probe its molecular requirements in an RNA interference screen of 96 candidate genes. Modeling of the phenotypes of genes involved in transport of these INM proteins predicted that it critically depended on the number and permeability of nuclear pores and the availability of nuclear binding sites, but was unaffected by depletion of most transport receptors. These predictions were confirmed with targeted validation experiments on the functional requirements of nucleoporins and nuclear lamins. Collectively, our data support a diffusion retention model of INM protein transport in mammalian cells.
705–720
Boni, A
9272f75a-591e-4bea-830b-ee8bec78d293
Politi, AZ
871fe135-9a46-4bb8-b438-6584dfabfb77
Strnad, P
2e194c59-8e46-4daa-a3ac-4b59dd1c03c5
Xiang, W
d53e5b56-ad11-4264-9cb8-10c9d8b9d434
Hossain, MJ
bba1b875-7604-462b-a55b-ba0b54f728e8
Ellenberg, J
7b8ab9a9-8076-4db1-b7a2-8445accc9b54
8 June 2015
Boni, A
9272f75a-591e-4bea-830b-ee8bec78d293
Politi, AZ
871fe135-9a46-4bb8-b438-6584dfabfb77
Strnad, P
2e194c59-8e46-4daa-a3ac-4b59dd1c03c5
Xiang, W
d53e5b56-ad11-4264-9cb8-10c9d8b9d434
Hossain, MJ
bba1b875-7604-462b-a55b-ba0b54f728e8
Ellenberg, J
7b8ab9a9-8076-4db1-b7a2-8445accc9b54
Boni, A, Politi, AZ, Strnad, P, Xiang, W, Hossain, MJ and Ellenberg, J
(2015)
Live imaging and modeling of inner nuclear membrane targeting reveals its molecular requirements in mammalian cells.
Journal of Cell Biology, 209 (5), .
(doi:10.1083/jcb.201409133).
Abstract
Targeting of inner nuclear membrane (INM) proteins is essential for nuclear architecture and function, yet its mechanism remains poorly understood. Here, we established a new reporter that allows real-time imaging of membrane protein transport from the ER to the INM using Lamin B receptor and Lap2β as model INM proteins. These reporters allowed us to characterize the kinetics of INM targeting and establish a mathematical model of this process and enabled us to probe its molecular requirements in an RNA interference screen of 96 candidate genes. Modeling of the phenotypes of genes involved in transport of these INM proteins predicted that it critically depended on the number and permeability of nuclear pores and the availability of nuclear binding sites, but was unaffected by depletion of most transport receptors. These predictions were confirmed with targeted validation experiments on the functional requirements of nucleoporins and nuclear lamins. Collectively, our data support a diffusion retention model of INM protein transport in mammalian cells.
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Published date: 8 June 2015
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Local EPrints ID: 457579
URI: http://eprints.soton.ac.uk/id/eprint/457579
PURE UUID: 6a054cb6-0ec8-4fe5-98de-d664b9080dcc
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Date deposited: 13 Jun 2022 16:44
Last modified: 17 Mar 2024 04:12
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Author:
A Boni
Author:
AZ Politi
Author:
P Strnad
Author:
W Xiang
Author:
MJ Hossain
Author:
J Ellenberg
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