Selective block of tunneling nanotube (TNT) formation inhibits intercellular organelle transfer between PC12 cells.
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The Exocyst Complex in Health and DiseaseLong-range and short-range tumor-stroma networks synergistically contribute to tumor-associated epilepsy.Extracellular-vesicle type of volume transmission and tunnelling-nanotube type of wiring transmission add a new dimension to brain neuro-glial networksWhen cells become organelle donorsTunneling nanotubes provide a unique conduit for intercellular transfer of cellular contents in human malignant pleural mesotheliomaLong-distance communication between laryngeal carcinoma cellsMitochondria Know No Boundaries: Mechanisms and Functions of Intercellular Mitochondrial TransferMechanisms of mesenchymal stem/stromal cell functionMitochondrial function in hypoxic ischemic injury and influence of agingMesenchymal stem cells transfer mitochondria to the cells with virtually no mitochondrial function but not with pathogenic mtDNA mutationsHuman T-cell leukemia virus type 1 p8 protein increases cellular conduits and virus transmission.Human mesenchymal stem cells reprogram adult cardiomyocytes toward a progenitor-like state through partial cell fusion and mitochondria transfer.Novel microscopy-based screening method reveals regulators of contact-dependent intercellular transfer.Transfer of mitochondria via tunneling nanotubes rescues apoptotic PC12 cells.Tunneling nanotube (TNT)-mediated neuron-to neuron transfer of pathological Tau protein assembliesCell Connections by Tunneling Nanotubes: Effects of Mitochondrial Trafficking on Target Cell Metabolism, Homeostasis, and Response to Therapy.Nanotube action between human mesothelial cells reveals novel aspects of inflammatory responsesTumor exosomes induce tunneling nanotubes in lipid raft-enriched regions of human mesothelioma cellsAnimal cells connected by nanotubes can be electrically coupled through interposed gap-junction channelsMitoCeption as a new tool to assess the effects of mesenchymal stem/stromal cell mitochondria on cancer cell metabolism and functionTunneling nanotubes mediate rescue of prematurely senescent endothelial cells by endothelial progenitors: exchange of lysosomal poolGenome-scale identification of nucleosome organization by using 1000 porcine oocytes at different developmental stages.Intercellular cytosolic transfer correlates with mesenchymal stromal cell rescue of umbilical cord blood cell viability during ex vivo expansionPhysical nanoscale conduit-mediated communication between tumour cells and the endothelium modulates endothelial phenotypeDrosophila cells use nanotube-like structures to transfer dsRNA and RNAi machinery between cells.Linked in: immunologic membrane nanotube networksTunneling nanotubes: an alternate route for propagation of the bystander effect following oncolytic viral infection.Differential identity of Filopodia and Tunneling Nanotubes revealed by the opposite functions of actin regulatory complexes.Intercellular nanotubes: insights from imaging studies and beyond.Plasmodesmata: intercellular tunnels facilitating transport of macromolecules in plants.Membrane nanotubes: novel communication between distant cells.Tunneling nanotubes: Diversity in morphology and structureNovel drug-delivery approaches to the blood-brain barrier.Artificial Mitochondria Transfer: Current Challenges, Advances, and Future Applications.The growth determinants and transport properties of tunneling nanotube networks between B lymphocytes.Identification and Characterization of Tunneling Nanotubes for Intercellular Trafficking.Prion aggregates transfer through tunneling nanotubes in endocytic vesiclesLost in translation: applying 2D intercellular communication via tunneling nanotubes in cell culture to physiologically relevant 3D microenvironments.Mitochondrial transfer of induced pluripotent stem cell-derived mesenchymal stem cells to airway epithelial cells attenuates cigarette smoke-induced damage.Extracellular Vesicles, Tunneling Nanotubes, and Cellular Interplay: Synergies and Missing Links.
P2860
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P2860
Selective block of tunneling nanotube (TNT) formation inhibits intercellular organelle transfer between PC12 cells.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Selective block of tunneling n ...... e transfer between PC12 cells.
@en
Selective block of tunneling nanotube
@nl
type
label
Selective block of tunneling n ...... e transfer between PC12 cells.
@en
Selective block of tunneling nanotube
@nl
prefLabel
Selective block of tunneling n ...... e transfer between PC12 cells.
@en
Selective block of tunneling nanotube
@nl
P2093
P1433
P1476
Selective block of tunneling n ...... e transfer between PC12 cells.
@en
P2093
Erlend Hodneland
Hans-Hermann Gerdes
João F V Barroso
Nickolay V Bukoreshtliev
Steffen Gurke
Xiang Wang
P304
P356
10.1016/J.FEBSLET.2009.03.065
P407
P577
2009-04-02T00:00:00Z