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61.
Hlne Bouvrais Laurent Chesneau Yann Le Cunff Danielle Fairbrass Nina Soler Sylvain Pastezeur Thierry Pcot Charles Kervrann Jacques Pcraux 《EMBO reports》2021,22(5)
In Caenorhabditis elegans zygote, astral microtubules generate forces essential to position the mitotic spindle, by pushing against and pulling from the cortex. Measuring microtubule dynamics there, we revealed the presence of two populations, corresponding to pulling and pushing events. It offers a unique opportunity to study, under physiological conditions, the variations of both spindle‐positioning forces along space and time. We propose a threefold control of pulling force, by polarity, spindle position and mitotic progression. We showed that the sole anteroposterior asymmetry in dynein on‐rate, encoding pulling force imbalance, is sufficient to cause posterior spindle displacement. The positional regulation, reflecting the number of microtubule contacts in the posterior‐most region, reinforces this imbalance only in late anaphase. Furthermore, we exhibited the first direct proof that dynein processivity increases along mitosis. It reflects the temporal control of pulling forces, which strengthens at anaphase onset following mitotic progression and independently from chromatid separation. In contrast, the pushing force remains constant and symmetric and contributes to maintaining the spindle at the cell centre during metaphase. 相似文献
62.
63.
Abdala Hiam David Sebastien Bekesi George Fellous Arlette Jorge Kalil Patrice Le Pape 《Journal of enzyme inhibition and medicinal chemistry》2013,28(3):305-312
A new family of antimicrotubule drugs named (3-haloacetamidobenzoyl) ureas and ethyl 3-haloacetamidobenzoates were found to be cytotoxic to the Leishmania parasite protozoa. While the benzoylureas were shown to strongly inhibit in vitro mammalian brain microtubule assembly, the ethyl ester derivatives were characterized as very poor inhibitors of this process. Ethyl 3-chloroacetamidobenzoate, MF29, was found to be the most efficient drug on the promastigote stage of three Leishmania species (IC50: 0.3–1.8 μM). MF29 maintained its activity against the clinical relevant intracellular stage of L. mexicana with IC50 value of 0.33 μM. It was the only compound that exhibits a high activity on all the Leishmania species tested. This compound appeared to alter parasite microtubule organisation as demonstrated by using antibodies directed against microtubule components and more precisely the class of microtubule decorated by the MAP2-like protein. It is interesting to notice that this MAP2-like protein was identified for the first time in a Leishmania parasite 相似文献
64.
《Cell cycle (Georgetown, Tex.)》2013,12(8):1554-1563
Centrosomal proteins intricately regulate diverse microtubule-mediated cellular activities, including cell polarization and migration. However, the direct participation of these proteins in angiogenesis, which involves vascular endothelial cell migration from preexisting blood vessels, remains elusive. Here we show that the centrosomal protein Cep70 is necessary for angiogenic response in mice. This protein is also required for tube formation and capillary sprouting in vitro from vascular endothelial cells. Wound healing and transwell assays reveal that Cep70 plays a significant role in endothelial cell migration. Depletion of Cep70 results in severe defects in membrane ruffling and centrosome reorientation, indicating a requirement for this protein in cell polarization. In addition, Cep70 is critically involved in microtubule rearrangement in response to the migratory stimulus. Our data further demonstrate that Cep70 is important for Cdc42 and Rac1 activation to promote angiogenesis. These findings thus establish Cep70 as a crucial regulator of the angiogenic process and emphasize the significance of microtubule rearrangement and cell polarization and migration in angiogenesis. 相似文献
65.
Comment on: Atwood A, et al. Proc Natl Acad Sci U S A 2011; 108:18560-5. 相似文献
66.
In dividing animal cells, the centrosome, comprising centrioles and surrounding pericentriolar-material (PCM), is the major interphase microtubule-organizing center (MTOC), arranging a polarized array of microtubules (MTs) that controls cellular architecture. The mouse embryo is a unique setting for investigating the role of centrosomes in MT organization, since the early embryo is acentrosomal, and centrosomes emerge de novo during early cleavages. Here we use embryos from a GFP::CETN2 transgenic mouse to observe the emergence of centrosomes and centrioles in embryos, and show that unfocused acentriolar centrosomes first form in morulae (~16–32-cell stage) and become focused at the blastocyst stage (~64–128 cells) concomitant with the emergence of centrioles. We then used high-resolution microscopy and dynamic tracking of MT growth events in live embryos to examine the impact of centrosome emergence upon interphase MT dynamics. We report that pre-implantation mouse embryos of all stages employ a non-canonical mode of MT organization that generates a complex array of randomly oriented MTs that are preferentially nucleated adjacent to nuclear and plasmalemmal membranes and cell-cell interfaces. Surprisingly, however, cells of the early embryo continue to employ this mode of interphase MT organization even after the emergence of centrosomes. Centrosomes are found at MT-sparse sites and have no detectable impact upon interphase MT dynamics. To our knowledge, the early embryo is unique among proliferating cells in adopting an acentrosomal mode of MT organization despite the presence of centrosomes, revealing that the transition to a canonical mode of interphase MT organization remains incomplete prior to implantation. 相似文献
67.
《Cell cycle (Georgetown, Tex.)》2013,12(12):2359-2366
Fidgetin is a member of the AAA protein superfamily with important roles in mammalian development. Here we show that human Fidgetin is a potent microtubule severing and depolymerizing the enzyme used to regulate mitotic spindle architecture, dynamics and anaphase A. In vitro, recombinant human Fidgetin severs taxol-stabilized microtubules along their length and promotes depolymerization, primarily from their minus-ends. In cells, human Fidgetin targets to centrosomes, and its depletion with siRNA significantly reduces the velocity of poleward tubulin flux and anaphase A chromatid-to-pole motion. In addition, the loss of Fidgetin induces a microtubule-dependent enlargement of mitotic centrosomes and an increase in the number and length of astral microtubules. Based on these data, we propose that human Fidgetin actively suppresses microtubule growth from and attachment to centrosomes. 相似文献
68.
《Fly》2013,7(1):12-15
The ability of the microtubule cytoskeleton to rapidly and locally reorganize itself in response to intra- and extracellular signals is essential to its wide range of functions. A site of tightly regulated microtubule dynamics—and the major interface between the microtubule cytoskeleton and the extracellular environment—is the cell cortex, where the selective stabilization and destabilization of microtubule plus-ends is required for normal cell division, morphogenesis and migration. In a recent study, we found that the cortex of Drosophila S2 and D17 cells is coated with the microtubule severing enzyme and plus-end depolymerase, Kat-60, which actively suppresses microtubule growth and stability along the cell edge. We have proposed that cortical Kat-60 functions by uncapping plus-ends, thereby activating another microtubule depolymerase, KLP10A, preloaded onto the end. The localized destruction of microtubule plus-ends at a specific cortical could feed into larger regulatory pathways, such as those in control of the actin cytoskeleton, to influence cell polarization and motility. 相似文献
69.
DNA damage created by endogenous or exogenous genotoxic agents can exist in multiple forms, and if allowed to persist, can promote genome instability and directly lead to various human diseases, particularly cancer, neurological abnormalities, immunodeficiency and premature aging. To avoid such deleterious outcomes, cells have evolved an array of DNA repair pathways, which carry out what is typically a multiple-step process to resolve specific DNA lesions and maintain genome integrity. To fully appreciate the biological contributions of the different DNA repair systems, one must keep in mind the cellular context within which they operate. For example, the human body is composed of non-dividing and dividing cell types, including, in the brain, neurons and glial cells. We describe herein the molecular mechanisms of the different DNA repair pathways, and review their roles in non-dividing and dividing cells, with an eye toward how these pathways may regulate the development of neurological disease. 相似文献
70.
目的:分析经额底纵裂入路治疗鞍上第三脑室底垂体瘤的疗效,探讨其临床适用性。方法:选择从2011年1月~2013年1月与我院行额底纵裂入路手术治疗的30例鞍上第三脑室底垂体瘤的患者,术中行单侧额或双侧额弧形切口,根据术中所见肿瘤位置,由终板、视神经一颈内动脉等存在的生理间隙处切除肿瘤,观察所有患者的手术疗效。结果:所有患者术中可见肿瘤位于鞍内鞍上,部分或全部突入第三脑室底,其中有6例患者伴有脑积水。术中肿瘤全切23例,次全切5例,大部切除2例,无手术死亡病例。术前25例患者视力减退,术后23例患者视力均获得不同程度改善,仅1例暂无明显变化。术后19例出现电解质紊乱,患者经治疗后均已纠正;12例出现不同程度的尿崩症,给予患者药物治疗后,病情得到缓解。术后随访6个月,23例肿瘤全切患者病灶无复发,另外4例次全切者病灶也无明显变化,仅1例次全切和2例大部切除患者于术后行伽马刀再次治疗。结论:经额底纵裂入路治疗鞍上第三脑室底垂体瘤可以达到视野清晰,直观下进行肿瘤切除,手术效果好,并发症较少,适合临床长期推广应用。 相似文献