PKC signalling regulates tight junction membrane assembly in the pre-implantation mouse embryo
PKC signalling regulates tight junction membrane assembly in the pre-implantation mouse embryo
Epithelial differentiation including tight junction (TJ) formation occurs exclusively within the trophectoderm (TE) lineage of the mouse blastocyst. Here we examine mechanisms by which TJ protein membrane assembly might be regulated by protein kinase C (PKC) in the embryo. To overcome the inherent staging asynchrony of individual blastomeres within intact embryos, we have used isolated inner cell masses (ICMs) from early blastocysts to induce epithelial differentiation in their outer cells responding to their new cell contact pattern. Two TJ proteins examined retain their order of membrane assembly in isolated ICMs in culture as during normal development (early-assembling ZO-2 and late-assembling ZO-1{alpha}+), but this process is highly accelerated. Using six chemical modulators of PKC activity, we show here that PKC signalling is involved in the regulation of TJ membrane assembly. While indolactam-mediated PKC activation stimulates membrane assembly of both TJ proteins, TPA-mediated PKC activation stimulates only that of ZO-1{alpha}+. The PKC inhibitors Ro-31-8220, Ro-31-8425 and Gö 6983 suppress the stimulatory effect of both PKC activators on membrane assembly to varying extents according to inhibitor and TJ protein examined. Gö 6983 similarly inhibits ZO-2 and ZO-1{alpha}+ membrane assembly. PKC inhibition by Gö 6976 appeared to stimulate TJ membrane assembly. Despite the broad PKC isotype specificity of the inhibitors used, these data suggest that the two TJ proteins are differently regulated by PKC isotypes or subfamilies. As Gö 6983 uniquely affects aPKC (particularly PKC{zeta}) and we find that both PKC{delta} and {zeta} relocate upon activator treatment to colocalise partially with the TJ proteins in isolated ICMs, we suggest that at least PKC{delta} and {zeta} may play a central role in regulating TJ membrane assembly.
653-667
Eckert, Judith J.
729bfa49-7053-458d-8e84-3e70e4d98e57
McCallum, Amanda
13df1cf2-9b9d-47fc-a184-1f768d429672
Mears, Andrew
36c51693-c476-4f3f-a5a0-bc18b935e38f
Rumsby, Martin G.
ffedf189-2943-4a8d-9b75-bcfb9fa8323c
Cameron, Iain T.
f7595539-efa6-4687-b161-e1e93ff710f2
Fleming, Tom P.
2abf761a-e5a1-4fa7-a2c8-12e32d5d4c03
June 2004
Eckert, Judith J.
729bfa49-7053-458d-8e84-3e70e4d98e57
McCallum, Amanda
13df1cf2-9b9d-47fc-a184-1f768d429672
Mears, Andrew
36c51693-c476-4f3f-a5a0-bc18b935e38f
Rumsby, Martin G.
ffedf189-2943-4a8d-9b75-bcfb9fa8323c
Cameron, Iain T.
f7595539-efa6-4687-b161-e1e93ff710f2
Fleming, Tom P.
2abf761a-e5a1-4fa7-a2c8-12e32d5d4c03
Eckert, Judith J., McCallum, Amanda, Mears, Andrew, Rumsby, Martin G., Cameron, Iain T. and Fleming, Tom P.
(2004)
PKC signalling regulates tight junction membrane assembly in the pre-implantation mouse embryo.
Reproduction, 127 (6), .
(doi:10.1530/rep.1.00150).
Abstract
Epithelial differentiation including tight junction (TJ) formation occurs exclusively within the trophectoderm (TE) lineage of the mouse blastocyst. Here we examine mechanisms by which TJ protein membrane assembly might be regulated by protein kinase C (PKC) in the embryo. To overcome the inherent staging asynchrony of individual blastomeres within intact embryos, we have used isolated inner cell masses (ICMs) from early blastocysts to induce epithelial differentiation in their outer cells responding to their new cell contact pattern. Two TJ proteins examined retain their order of membrane assembly in isolated ICMs in culture as during normal development (early-assembling ZO-2 and late-assembling ZO-1{alpha}+), but this process is highly accelerated. Using six chemical modulators of PKC activity, we show here that PKC signalling is involved in the regulation of TJ membrane assembly. While indolactam-mediated PKC activation stimulates membrane assembly of both TJ proteins, TPA-mediated PKC activation stimulates only that of ZO-1{alpha}+. The PKC inhibitors Ro-31-8220, Ro-31-8425 and Gö 6983 suppress the stimulatory effect of both PKC activators on membrane assembly to varying extents according to inhibitor and TJ protein examined. Gö 6983 similarly inhibits ZO-2 and ZO-1{alpha}+ membrane assembly. PKC inhibition by Gö 6976 appeared to stimulate TJ membrane assembly. Despite the broad PKC isotype specificity of the inhibitors used, these data suggest that the two TJ proteins are differently regulated by PKC isotypes or subfamilies. As Gö 6983 uniquely affects aPKC (particularly PKC{zeta}) and we find that both PKC{delta} and {zeta} relocate upon activator treatment to colocalise partially with the TJ proteins in isolated ICMs, we suggest that at least PKC{delta} and {zeta} may play a central role in regulating TJ membrane assembly.
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Published date: June 2004
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Local EPrints ID: 25424
URI: http://eprints.soton.ac.uk/id/eprint/25424
ISSN: 0022-4251
PURE UUID: 044a97a8-1cfb-4043-88d0-49c8e943b1eb
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Date deposited: 07 Apr 2006
Last modified: 16 Mar 2024 03:00
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Author:
Amanda McCallum
Author:
Andrew Mears
Author:
Martin G. Rumsby
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