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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tyrosine phosphorylation of cytoskeletal proteins plays an important role in the regulation of focal adhesions and stress fiber organization. In the present study we examined the role of tyrosine phosphatases in this process using p125FAK and
paxillin
as substrates. We show that tyrosine phosphatase activity in Swiss 3T3 cells was markedly increased when actin stress fibers were disassembled by cell detachment from the substratum, by serum
starvation
, or by cytochalasin D treatment. This activity was blocked by phenylarsine oxide, an inhibitor of a specific class of tyrosine phosphatases characterized by two vicinal thiol groups in the active site. Phenylarsine oxide treatment of serum-starved cells induced increased tyrosine phosphorylation of p125FAK and
paxillin
in a dose-dependent manner and induced assembly of focal adhesions and actin stress fibers, showing that inhibition of one or more phenylarsine oxide-sensitive tyrosine phosphatases is a sufficient stimulus for triggering focal adhesion and actin stress fiber formation in adherent cells.
...
PMID:Focal adhesion and stress fiber formation is regulated by tyrosine phosphatase activity. 898 14
The expression of the myristoylated PKC substrate MARCKS is reduced in tumor-derived choroidal melanoma cells (OCM-1). We transfected the OCM-1 cells with MARCKS cDNA and we selected clones with stable overexpression of the protein. Tyrosine phosphorylation of
paxillin
, a biochemical marker of focal contact formation, was conserved upon serum
starvation
when MARCKS was overexpressed, while it was almost abolished in the control cells. Immunofluorescent labelling of
paxillin
and vinculin, another component of focal contact, revealed that these structures were conserved upon serum
starvation
when MARCKS was overexpressed but not in the control cells. Furthermore, the cell morphology was affected by the ectopic expression of MARCKS, leading to increased spreading and formation of membrane processes. These data suggest the involvement of MARCKS in cell spreading and focal contact formation.
...
PMID:The major myristoylated PKC substrate (MARCKS) is involved in cell spreading, tyrosine phosphorylation of paxillin, and focal contact formation. 942 27
Cell adhesion complexes are sensors that interact with the extracellular environment and allow for the transmission of signals found outside the cell across the plasma membrane to the cell interior. Keap1 is a newly identified component of cell adhesion complexes. We investigated Keap1's association with these complexes in diverse tissues and cell types. Keap1 is present in focal adhesion (FA)-like assemblies in kidney proximal tubule cells where it colocates with actin. In liver, Keap1 is found in the adherens junctions (AJ) and at the base of the bile canaliculi. To study Keap1's involvement in both the integrin-based FA and the cadherin-based AJ, we induced formation of these complexes in fibroblasts, using a serum
starvation
followed by a serum supplementation method. When compared with vinculin, a component of all FA, we found that Keap1 assembles only in the peripheral FA. Within the peripheral FA, Keap1 was present in distinct foci along the length of the FA and these foci were different from vinculin, talin,
paxillin
, and phospho-tyrosine rich regions of the FA. Unlike most FA components, Keap1 was also recruited to the newly formed AJ. As Keap1 homologues are actin-bundling proteins, we hypothesize that Keap1's function is to bundle F-actin within these diverse types of cell adhesion components.
...
PMID:Keap1 in adhesion complexes. 1450 8
Autophagy is a conserved cellular process of macromolecule recycling that involves vesicle-mediated degradation of cytoplasmic components. Autophagy plays essential roles in normal cell homeostasis and development, the response to stresses such as nutrient
starvation
, and contributes to disease processes including cancer and neurodegeneration. Although many of the autophagy components identified from genetic screens in yeast are well conserved in higher organisms, the mechanisms by which this process is regulated in any species are just beginning to be elucidated. In a genetic screen in Drosophila melanogaster, we have identified a link between the focal adhesion protein
paxillin
and the Atg1 kinase, which has been previously implicated in autophagy. In mammalian cells, we find that
paxillin
is redistributed from focal adhesions during nutrient deprivation, and
paxillin
-deficient cells exhibit defects in autophagosome formation. Together, these findings reveal a novel evolutionarily conserved role for
paxillin
in autophagy.
...
PMID:Genetic interactions between Drosophila melanogaster Atg1 and paxillin reveal a role for paxillin in autophagosome formation. 1831 41
DdEGFL1, a synthetic epidermal growth factor-like (EGFL) peptide based on the first EGFL repeat of the extracellular matrix, cysteine-rich, calmodulin-binding protein CyrA, has previously been shown to sustain the threonine phosphorylation of a 210kDa protein during the
starvation
of Dictyostelium cells. Immunoprecipitation coupled with a LC/MS/MS analysis identified the 210kDa protein as vinculin B (VinB). VinB shares sequence similarity with mammalian vinculin, a protein that links the actin cytoskeleton to the plasma membrane. Both threonine phosphorylated VinB (P-VinB) and VinB-GFP localized to the cytoplasm and cytoskeleton of Dictyostelium amoebae. VinB-GFP was also shown to be threonine phosphorylated and co-immunoprecipitated with established vinculin-binding cytoskeletal proteins (e.g. myosin II heavy chain, actin, alpha-actinin, talin). P-VinB and VinB-GFP were detected in DdEGFL1 pull-down assays, which also identified a 135kDa phosphothreonine protein and two phosphotyrosine proteins (35 and 32kDa) as potential components of the DdEGFL1 signaling pathway. DdEGFL1-enhanced cell movement required the cytoskeletal proteins talin B and
paxillin
B and tyrosine kinase activity mediated by PKA signaling, however VinB threonine phosphorylation was shown to be independent of PI3K/PLA2 signaling and PI3K and PKA kinase activity. Finally, VinB-GFP over-expression suppressed DdEGFL1-enhanced random cell movement, but not folic acid-mediated chemotaxis. Together, this study provides the first evidence for VinB function plus new insight into the signaling pathway(s) mediating EGFL repeat/peptide-enhanced cell movement in Dictyostelium. This information is integrated into an emerging model that summarizes existing knowledge.
...
PMID:EGF-like peptide-enhanced cell movement in Dictyostelium is mediated by protein kinases and the activity of several cytoskeletal proteins. 2258 27
Autophagy is an essential catabolic intracellular pathway that maintains homeostasis by degrading long-lived proteins, damaged organelles, and provides an energy source during nutrient
starvation
. It is now understood that autophagy has discrete functions as a selective lysosomal degradation pathway targeting large cytosolic structural and signaling complexes to influence cell motility and adhesion. We provide evidence suggesting the primary autophagy regulators Atg5 and FIP200 both play a role in cell motility and extracellular matrix adhesion. However, their loss of function has a differential impact on focal adhesion composition and organization, as well as signaling in response to fibronectin induced cell spreading. This differential impact on focal adhesions is illustrated by smaller focal adhesion complexes and a decrease in FAK,
paxillin
, and vinculin expression associated with FIP200 loss of function. In contrast, Atg5 loss of function results in production of large and stable focal adhesions, characterized by their retention of phosphorylated FAK and Src, which correlates with increased vinculin and FAK protein expression. Importantly, autophagy is upregulated during processes associated with focal adhesion reorganization and their exhibits colocalization of autophagosomes with focal adhesion cargo. Interestingly, FIP200 localizes to vinculin-rich focal adhesions and its loss negatively regulates FAK phosphorylation. These data collectively suggest FIP200 and Atg5 may have both autophagy-dependent and -independent functions that provide distinct mechanisms and impacts on focal adhesion dynamics associated with cell motility.
...
PMID:Loss of the Essential Autophagy Regulators FIP200 or Atg5 Leads to Distinct Effects on Focal Adhesion Composition and Organization. 3285 Aug 45
