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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
EB1 is a microtubule associated protein which interacts with the
APC
tumour suppressor protein and components of the cytoplasmic dynein/
dynactin
complex. EB1 is also a specific marker of growing microtubule tips. Here we demonstrate that EB1 protein levels are increased during axon but not dendrite formation in differentiated N2A neuroblastoma cells, and that EB1 localises to microtubule tips throughout extending neurites in these cells. In N2A axons, analysis of the ratio of EB1/beta-tubulin fluorescence demonstrated that the distal tip region contained the highest proportion of polymerising microtubules. Time-lapse confocal imaging of an EB1-GFP fusion protein in transfected N2A cells directly revealed the dynamics of microtubule extension in neurites, and demonstrated the existence of unusual, discrete knots of microtubule polymerisation at the periphery of non-process bearing cells which may represent an early event in neurite outgrowth. We conclude that EB1 localisation can be used to identify and analyse sites of microtubule polymerisation at a high resolution during neurite development, a process to which it may contribute.
...
PMID:EB1 identifies sites of microtubule polymerisation during neurite development. 1183 7
Spindle checkpoint proteins, such as Mad2 and BubR1, and the motors dynein/
dynactin
and CENP-E usually leave kinetochores prior to anaphase onset by microtubule-dependent mechanisms. Likewise, 'chromosome passenger proteins' including INCENP are depleted from the centromeres after anaphase onset and then move to the midzone complex, an event that is essential for cytokinesis. Here we test whether the cell cycle changes that occur at anaphase onset require or contribute to the depletion of kinetochore and centromere proteins independent of microtubules. This required the development of a novel non-antibody method to induce precocious anaphase onset in vivo by using a bacterially expressed fragment of the spindle checkpoint protein Mad1 capable of activating the
APC
/C, called GST-Mad1F10. By injecting PtK1 cells in nocodazole with GST-Mad1F10 and processing the cells for immunofluorescence microscopy after anaphase sister chromatid separation in nocodazole we found that Mad2, BubR1, cytoplasmic dynein, CENP-E and the 3F3/2 phosphoepitope remain on kinetochores. Thus depletion of these proteins (or phosphoepitope) at kinetochores is not required for anaphase onset and anaphase onset does not produce their depletion independent of microtubules. In contrast, both microtubules and anaphase onset are required for depletion of the 'chromosome passenger' protein INCENP from centromeres, as INCENP does not leave the chromosomes prior to anaphase onset in the presence or absence of microtubules, but does leave the centromeres after anaphase onset in the presence of microtubules.
...
PMID:Anaphase onset does not require the microtubule-dependent depletion of kinetochore and centromere-binding proteins. 1223 89
EB1 is a microtubule tip-associated protein that interacts with the
APC
tumor suppressor protein and components of the dynein/
dynactin
complex. We have found that the C-terminal 50 and 84 amino acids (aa) of EB1 were sufficient to mediate the interactions with
APC
and
dynactin
, respectively. EB1 formed mutually exclusive complexes with
APC
and
dynactin
, and a direct interaction between EB1 and p150(Glued) was identified. EB1-GFP deletion mutants demonstrated a role for the N-terminus in mediating the EB1-microtubule interaction, whereas C-terminal regions contributed to both its microtubule tip localization and a centrosomal localization. Cells expressing the last 84 aa of EB1 fused to GFP (EB1-C84-GFP) displayed profound defects in microtubule organization and centrosomal anchoring. EB1-C84-GFP expression severely inhibited microtubule regrowth, focusing, and anchoring in transfected cells during recovery from nocodazole treatment. The recruitment of gamma-tubulin and p150(Glued) to centrosomes was also inhibited. None of these effects were seen in cells expressing the last 50 aa of EB1 fused to GFP. Furthermore, EB1-C84-GFP expression did not induce Golgi apparatus fragmentation. We propose that a functional interaction between EB1 and p150(Glued) is required for microtubule minus end anchoring at centrosomes during the assembly and maintenance of a radial microtubule array.
...
PMID:Evidence that an interaction between EB1 and p150(Glued) is required for the formation and maintenance of a radial microtubule array anchored at the centrosome. 1238 62
Several microtubule-binding proteins including EB1,
dynactin
,
APC
, and CLIP-170 localize to the plus-ends of growing microtubules. Although these proteins can bind to microtubules independently, evidence for interactions among them has led to the hypothesis of a plus-end complex. Here we clarify the interaction between EB1 and
dynactin
and show that EB1 binds directly to the N-terminus of the p150(Glued) subunit. One function of a plus-end complex may be to regulate microtubule dynamics. Overexpression of either EB1 or p150(Glued) in cultured cells bundles microtubules, suggesting that each may enhance microtubule stability. The morphology of these bundles, however, differs dramatically, indicating that EB1 and
dynactin
may act in different ways. Disruption of the
dynactin
complex augments the bundling effect of EB1, suggesting that
dynactin
may regulate the effect of EB1 on microtubules. In vitro assays were performed to elucidate the effects of EB1 and p150(Glued) on microtubule polymerization, and they show that p150(Glued) has a potent microtubule nucleation effect, whereas EB1 has a potent elongation effect. Overall microtubule dynamics may result from a balance between the individual effects of plus-end proteins. Differences in the expression and regulation of plus-end proteins in different cell types may underlie previously noted differences in microtubule dynamics.
...
PMID:The microtubule plus-end proteins EB1 and dynactin have differential effects on microtubule polymerization. 1268 97
The generation of a polarized microtubule organization is critically important for proper cellular functions, such as cell division, differentiation and migration. Microtubules themselves are highly dynamic structures, and this dynamic property is temporally and spatially regulated within cells, especially at their plus ends. To explain how microtubules set up and make contacts with cellular structures, a "search-and-capture" mechanism has been proposed, in which the microtubule plus ends dynamically search for and capture specific sites, such as mitotic kinetochores and cell cortex. To date, several classes of proteins have been shown to be associated with microtubule plus ends in a wide range of organisms from fungi to humans and to play critical roles in the "search-and-capture" mechanism. In this review, we overview our current understanding of the "plus-end-binding proteins" (+TIPs), including
APC
(adenomatous polyposis coli) tumor suppressor protein, cytoplasmic linker proteins (CLIPs), CLIP-associating proteins (CLASPs), cytoplasmic dynein/
dynactin
, and EB1, an
APC
-interacting protein.
...
PMID:"Search-and-capture" of microtubules through plus-end-binding proteins (+TIPs). 1456 16
In animal cells, microtubules (MTs) of the mitotic apparatus (MA) communicate with the cell cortex to stimulate cytokinesis; however, the molecular nature of this stimulus remains elusive . A signal for cytokinesis likely involves the MT plus end binding family of proteins, which includes EB1, p150glued,
APC
, LIS1, and CLIP-170. These proteins modulate MT dynamics and facilitate interactions between growing MTs and their intracellular targets, including kinetochores, organelles, and the cell cortex . The dynein-
dynactin
complex mediates many of these microtubule capture events . We report that EB1 and p150glued interactions are required for stimulation of cytokinesis in dividing sea urchin eggs. Injected antibodies against EB1 or p150glued suppressed furrow ingression but did not prevent elongation of anaphase astral MTs toward the cortex, suggesting that EB1 and
dynactin
are both required for communication between the MA and the cortex. Targeted disruption of the interaction between EB1 and p150glued suppressed anaphase astral MT elongation and resulted in a delay of cytokinesis that could not be overcome by manipulation of the asters toward the cortex. We conclude that EB1 and
dynactin
participate in stimulation of the cleavage furrow, and their interaction promotes elongation of astral MTs at anaphase onset.
...
PMID:Interaction between EB1 and p150glued is required for anaphase astral microtubule elongation and stimulation of cytokinesis. 1636 Jun 86
Cyclin-dependent kinase 1 (Cdk1) initiates mitosis and later activates the anaphase-promoting complex/cyclosome (
APC
/C) to destroy cyclins. Kinetochore-derived checkpoint signaling delays
APC
/C-dependent cyclin B destruction, and checkpoint-independent mechanisms cooperate to limit
APC
/C activity when kinetochores lack checkpoint components in early mitosis. The
APC
/C and cyclin B localize to the spindle and poles, but the significance and regulation of these populations remain unclear. Here we describe a critical spindle pole-associated mechanism, called the END (Emi1/NuMA/dynein-
dynactin
) network, that spatially restricts
APC
/C activity in early mitosis. The
APC
/C inhibitor Emi1 binds the spindle-organizing NuMA/dynein-
dynactin
complex to anchor and inhibit the
APC
/C at spindle poles, and thereby limits destruction of spindle-associated cyclin B. Cyclin B/Cdk1 activity recruits the END network and establishes a positive feedback loop to stabilize spindle-associated cyclin B critical for spindle assembly. The organization of the
APC
/C on the spindle also provides a framework for understanding microtubule-dependent organization of protein destruction.
...
PMID:The END network couples spindle pole assembly to inhibition of the anaphase-promoting complex/cyclosome in early mitosis. 1760 8
In early mitosis, the END (Emi1/NuMA/Dynein-
dynactin
) network anchors the anaphase-promoting complex/cyclosome (
APC
/C) to the mitotic spindle and poles. Spindle anchoring restricts
APC
/C activity, thereby limiting the destruction of spindle-associated cyclin B and ensuring maintenance of spindle integrity. Emi1 binds directly to hypophosphorylated
APC
/C, linking the
APC
/C to the spindle via NuMA. However, whether the phosphorylation state of the
APC
/C is important for its association with the spindle and what kinases and phosphatases are necessary for regulating this event remain unknown. Here, we describe the regulation of
APC
/C-mitotic spindle pole association by phosphorylation. We find that only hypophosphorylated
APC
/C associates with microtubule asters, suggesting that phosphatases are important. Indeed, a specific form of PPP2 (CA/R1A/R2B) binds
APC
/C, and PPP2 activity is necessary for Cdc27 dephosphorylation. Screening by RNA interference, we find that inactivation of CA, R1A, or R2B leads to delocalization of
APC
/C from spindle poles, early mitotic spindle defects, a failure to congress chromosomes, and decreased levels of cyclin B on the spindle. Consistently, inhibition of cyclin B/Cdk1 activity increased
APC
/C binding to microtubules. Thus, cyclin B/Cdk1 and PPP2 regulate the dynamic association of
APC
/C with spindle poles in early mitosis, a step necessary for proper spindle formation.
...
PMID:A specific form of phospho protein phosphatase 2 regulates anaphase-promoting complex/cyclosome association with spindle poles. 2008 42
