The CRAL/TRIO and GOLD domain protein TAP-1 regulates RAF-1 activation

The activation of the protein kinase Raf at the cell membrane is a critical step in cell signaling during development, but the mechanisms that regulate Raf activity remain incompletely defined. We previously demonstrated that the C. elegans cgr-1 gene encodes a CRAL/TRIO domain-containing protein th...

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Veröffentlicht in:	Developmental biology 2010-05, Vol.341 (2), p.464-471
Hauptverfasser:	Johnson, Kenneth G., Kornfeld, Kerry
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Sprache:	eng
Schlagworte:	Animals ATP-Binding Cassette Sub-Family B Member 2 ATP-Binding Cassette Transporters - metabolism Cancer Cell Line, Tumor Cell Membrane - metabolism Cell Proliferation CGR-1 CRAL/TRIO GOLD Humans Mice Proto-Oncogene Proteins c-raf - metabolism Raf Ras signaling pathway Signal Transduction TAP-1
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container_title	Developmental biology
container_volume	341
creator	Johnson, Kenneth G. Kornfeld, Kerry
description	The activation of the protein kinase Raf at the cell membrane is a critical step in cell signaling during development, but the mechanisms that regulate Raf activity remain incompletely defined. We previously demonstrated that the C. elegans cgr-1 gene encodes a CRAL/TRIO domain-containing protein that is a critical modulator of Ras-dependent cell fate specification during C. elegans development. Here we identify the mammalian α-tocopherol associated protein-1 (TAP-1) as a functional ortholog of cgr-1. TAP-1 mRNA was expressed in many tissues, and TAP-1 protein colocalized with Ras and Raf at the cell membrane. Reducing TAP-1 expression by RNA interference increased Ras/ERK signaling in multiple cell types. These functional studies demonstrate that CRAL/TRIO domain proteins play a conserved role in regulating Ras signaling. Biochemical analyses indicated that TAP-1 operates at the level of Raf, since TAP-1 function negatively regulated the amount of Raf-1 recruited to GTP-bound Ras at the cell membrane. TAP-1 plays a significant physiological role in controlling cell division, since reducing TAP-1 expression increased the oncogenic capacity of Ras transformed human cancer cell lines. These studies identify TAP-1 as a critical modulator of Ras-mediated cellular signaling.
doi_str_mv	10.1016/j.ydbio.2010.03.003
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We previously demonstrated that the C. elegans cgr-1 gene encodes a CRAL/TRIO domain-containing protein that is a critical modulator of Ras-dependent cell fate specification during C. elegans development. Here we identify the mammalian α-tocopherol associated protein-1 (TAP-1) as a functional ortholog of cgr-1. TAP-1 mRNA was expressed in many tissues, and TAP-1 protein colocalized with Ras and Raf at the cell membrane. Reducing TAP-1 expression by RNA interference increased Ras/ERK signaling in multiple cell types. These functional studies demonstrate that CRAL/TRIO domain proteins play a conserved role in regulating Ras signaling. Biochemical analyses indicated that TAP-1 operates at the level of Raf, since TAP-1 function negatively regulated the amount of Raf-1 recruited to GTP-bound Ras at the cell membrane. TAP-1 plays a significant physiological role in controlling cell division, since reducing TAP-1 expression increased the oncogenic capacity of Ras transformed human cancer cell lines. 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We previously demonstrated that the C. elegans cgr-1 gene encodes a CRAL/TRIO domain-containing protein that is a critical modulator of Ras-dependent cell fate specification during C. elegans development. Here we identify the mammalian α-tocopherol associated protein-1 (TAP-1) as a functional ortholog of cgr-1. TAP-1 mRNA was expressed in many tissues, and TAP-1 protein colocalized with Ras and Raf at the cell membrane. Reducing TAP-1 expression by RNA interference increased Ras/ERK signaling in multiple cell types. These functional studies demonstrate that CRAL/TRIO domain proteins play a conserved role in regulating Ras signaling. Biochemical analyses indicated that TAP-1 operates at the level of Raf, since TAP-1 function negatively regulated the amount of Raf-1 recruited to GTP-bound Ras at the cell membrane. 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subjects	Animals ATP-Binding Cassette Sub-Family B Member 2 ATP-Binding Cassette Transporters - metabolism Cancer Cell Line, Tumor Cell Membrane - metabolism Cell Proliferation CGR-1 CRAL/TRIO GOLD Humans Mice Proto-Oncogene Proteins c-raf - metabolism Raf Ras signaling pathway Signal Transduction TAP-1
title	The CRAL/TRIO and GOLD domain protein TAP-1 regulates RAF-1 activation
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