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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Rho family of GTPases plays key roles in the regulation of cell motility and morphogenesis. They also regulate protein kinase cascades, gene expression, and cell cycle progression. This multiplicity of roles requires that the Rho GTPases interact with a wide variety of downstream effector proteins. An understanding of their functions at a molecular level therefore requires the identification of the entire set of such effectors. Towards this end, we performed a two-hybrid screen using the TC10 GTPase as bait and identified a family of putative effector proteins related to MSE55, a murine stromal and epithelial cell protein of 55 kDa. We have named this family the Borg (binder of Rho GTPases) proteins. Complete open reading frames have been obtained for Borg1 through Borg3. We renamed MSE55 as
Borg5
. Borg1, Borg2, Borg4, and
Borg5
bind both TC10 and Cdc42 in a GTP-dependent manner. Surprisingly, Borg3 bound only to Cdc42. An intact CRIB (Cdc42, Rac interactive binding) domain was required for binding. No interaction of the Borgs with Rac1 or RhoA was detectable. Three-hemagglutinin epitope (HA(3))-tagged Borg3 protein was mostly cytosolic when expressed ectopically in NIH 3T3 cells, with some accumulation in membrane ruffles. The phenotype induced by Borg3 was reminiscent of that caused by an inhibition of Rho function and was reversed by overexpression of Rho. Surprisingly, it was independent of the ability to bind Cdc42. Borg3 also inhibited Jun kinase activity by a mechanism that was independent of Cdc42 binding. HA(3)-Borg3 expression caused substantial delays in the spreading of cells on fibronectin surfaces after replating, and the spread cells lacked stress fibers. We propose that the Borg proteins function as negative regulators of Rho GTPase signaling.
Mol
Cell Biol 1999 Oct
PMID:The Borgs, a new family of Cdc42 and TC10 GTPase-interacting proteins. 1049 May 98
The microvasculature is important for vertebrate organ development and homeostasis. However, the molecular mechanism of microvascular angiogenesis remains incompletely understood. Through studying
Borg5
(Binder of the Rho GTPase 5), which belongs to a family of poorly understood effector proteins of the Cdc42 GTPase, we uncover a role for
Borg5
in microvascular angiogenesis. Deletion of
Borg5
in mice results in defects in retinal and cardiac microvasculature as well as heart development.
Borg5
promotes angiogenesis by regulating persistent directional migration of the endothelial cells (ECs). In primary mouse cardiac ECs (MCECs),
Borg5
associates with septins in the perinuclear region and colocalizes with actomyosin fibers. Both
Borg5
deletion and septin 7 knockdown lead to a disruption of the perinuclear actomyosin and persistent directional migration. Our findings suggest that
Borg5
and septin cytoskeleton spatially control actomyosin activity to ensure persistent directional migration of MCECs and efficient microvascular angiogenesis. Our studies reported here should offer a new avenue to further investigate the functions of
Borg5
, septin, and actomyosin in the microvasculature in the context of development and disease.
Mol
Biol Cell 2014 Mar
PMID:Borg5 is required for angiogenesis by regulating persistent directional migration of the cardiac microvascular endothelial cells. 2445 Dec 59
