SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2074515542> ?p ?o ?g. }

Showing items 1 to 100 of ±116 with 100 items per page.

W2074515542 endingPage "730" @default.
W2074515542 startingPage "720" @default.
W2074515542 abstract "The role of the different cytoskeletal structures like microfilaments (MF), microtubuli (MT), and intermediate filaments (IF) in phagosome motion is unclear. These cytoskeletal units play an important role in macrophage function (migration, phagocytosis, phagosome transport). We investigated ferromagnetic phagosome motions by cell magnetometry. J774A.1 macrophages were incubated with 1.3-microm spherical magnetite particles for 24 h, after which more than 90% of the particles had been phagocytized. Phagosome motions can be caused either by the cell itself (relaxation) or by applying magnetic twisting forces, yielding cell stiffness and viscoelastic properties of the cytoskeleton. Apparent viscosity of the cytoplasm was non-Newtonian and showed a shear-rate-dependent power law behavior. Elastically stored energy does not force the magnetic phagosomes back to their initial orientation: 57% of the twisting shear was not recoverable. Cytoskeletal drugs, like Cytochalasin D (CyD, 2 - 4 microM), Colchicine (CoL, 10 microM), or Acrylamide (AcL, 40 mM) were added in order to disturb the different cytoskeletal structures. AcL disintegrates IF, but affected neither stochastic (relaxation) nor directed phagosome motions. CyD disrupts MF, resulting in a retarded stochastic phagosome motion (relative decay 0.53 +/- 0.01 after 5 min versus 0.34 +/- 0.01 in control), whereas phagosome twisting shows only a small response with a 9% increase of stiffness and a small reduction of recoverable strain. CoL depolymerizes the MT, inducing a moderately accelerated relaxation (relative decay 0.28 +/- 0.01 after 5 min) and a 10% increase of cell stiffness, where the pure viscous shear is increased and the viscoelastic recoil is inhibited by 40%. Combining the two drugs conserves both effects. After disintegrating either MF or MT, phagosome motion and cytoskeletal stiffness reflect the behavior of either MT or MF, respectively. The results verify that the dominant phagosome transport mechanism is MF-associated. MT depolymerization by CoL induces an activation of the F-actin synthesis, which may induce an accelerated relaxation and an increase of stiffness. Cell mechanical properties are not modulated by MF depolymerization, whereas MT depolymerization causes a loss of viscous resistance and a loss of cell elasticity. The mean energy for stochastic phagosome transport is 5*10(-18) Joules and corresponds to a force of 7 pN on a single 1.3-microm phagosome." @default.
W2074515542 created "2016-06-24" @default.
W2074515542 creator A5000400639 @default.
W2074515542 creator A5022095447 @default.
W2074515542 creator A5029522874 @default.
W2074515542 creator A5066782725 @default.
W2074515542 creator A5074032470 @default.
W2074515542 date "2000-08-01" @default.
W2074515542 modified "2023-09-26" @default.
W2074515542 title "Magnetic Phagosome Motion in J774A.1 Macrophages: Influence of Cytoskeletal Drugs" @default.
W2074515542 cites W130130726 @default.
W2074515542 cites W1493564682 @default.
W2074515542 cites W1495035446 @default.
W2074515542 cites W154467355 @default.
W2074515542 cites W1605123818 @default.
W2074515542 cites W1965291477 @default.
W2074515542 cites W1965344276 @default.
W2074515542 cites W1969872444 @default.
W2074515542 cites W1976907957 @default.
W2074515542 cites W1978500894 @default.
W2074515542 cites W1986677906 @default.
W2074515542 cites W1998841338 @default.
W2074515542 cites W2004042700 @default.
W2074515542 cites W2009649815 @default.
W2074515542 cites W2011034055 @default.
W2074515542 cites W2011086252 @default.
W2074515542 cites W2014808433 @default.
W2074515542 cites W2017370133 @default.
W2074515542 cites W2017457274 @default.
W2074515542 cites W2030463167 @default.
W2074515542 cites W2035950632 @default.
W2074515542 cites W2048464939 @default.
W2074515542 cites W2052766715 @default.
W2074515542 cites W2056210736 @default.
W2074515542 cites W2061272721 @default.
W2074515542 cites W2061502071 @default.
W2074515542 cites W2074291314 @default.
W2074515542 cites W2075078491 @default.
W2074515542 cites W2082988704 @default.
W2074515542 cites W2089121353 @default.
W2074515542 cites W2090376595 @default.
W2074515542 cites W2105973785 @default.
W2074515542 cites W2111655844 @default.
W2074515542 cites W2119261959 @default.
W2074515542 cites W2123508117 @default.
W2074515542 cites W2127685293 @default.
W2074515542 cites W2130851152 @default.
W2074515542 cites W2138478503 @default.
W2074515542 cites W2153356740 @default.
W2074515542 cites W2165991313 @default.
W2074515542 cites W2182565206 @default.
W2074515542 cites W2412463516 @default.
W2074515542 cites W2044433525 @default.
W2074515542 doi "https://doi.org/10.1016/s0006-3495(00)76330-2" @default.
W2074515542 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/1300972" @default.
W2074515542 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/10920006" @default.
W2074515542 hasPublicationYear "2000" @default.
W2074515542 type Work @default.
W2074515542 sameAs 2074515542 @default.
W2074515542 citedByCount "45" @default.
W2074515542 countsByYear W20745155422012 @default.
W2074515542 countsByYear W20745155422014 @default.
W2074515542 countsByYear W20745155422015 @default.
W2074515542 countsByYear W20745155422017 @default.
W2074515542 countsByYear W20745155422019 @default.
W2074515542 crossrefType "journal-article" @default.
W2074515542 hasAuthorship W2074515542A5000400639 @default.
W2074515542 hasAuthorship W2074515542A5022095447 @default.
W2074515542 hasAuthorship W2074515542A5029522874 @default.
W2074515542 hasAuthorship W2074515542A5066782725 @default.
W2074515542 hasAuthorship W2074515542A5074032470 @default.
W2074515542 hasBestOaLocation W20745155421 @default.
W2074515542 hasConcept C12554922 @default.
W2074515542 hasConcept C125705527 @default.
W2074515542 hasConcept C142669718 @default.
W2074515542 hasConcept C1491633281 @default.
W2074515542 hasConcept C160448771 @default.
W2074515542 hasConcept C161478664 @default.
W2074515542 hasConcept C185592680 @default.
W2074515542 hasConcept C55493867 @default.
W2074515542 hasConcept C86803240 @default.
W2074515542 hasConcept C95444343 @default.
W2074515542 hasConceptScore W2074515542C12554922 @default.
W2074515542 hasConceptScore W2074515542C125705527 @default.
W2074515542 hasConceptScore W2074515542C142669718 @default.
W2074515542 hasConceptScore W2074515542C1491633281 @default.
W2074515542 hasConceptScore W2074515542C160448771 @default.
W2074515542 hasConceptScore W2074515542C161478664 @default.
W2074515542 hasConceptScore W2074515542C185592680 @default.
W2074515542 hasConceptScore W2074515542C55493867 @default.
W2074515542 hasConceptScore W2074515542C86803240 @default.
W2074515542 hasConceptScore W2074515542C95444343 @default.
W2074515542 hasIssue "2" @default.
W2074515542 hasLocation W20745155421 @default.
W2074515542 hasLocation W20745155422 @default.
W2074515542 hasLocation W20745155423 @default.
W2074515542 hasLocation W20745155424 @default.
W2074515542 hasOpenAccess W2074515542 @default.