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相关概念视频

Cytoskeletal Coordination in Cell Migration01:32

Cytoskeletal Coordination in Cell Migration

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A migrating cell changes its shape during the cyclic events of attachment and detachment from the substratum and repositions the cell organelles correspondingly. These complex events are orchestrated by the dynamic cytoskeletal network comprising actin filaments, intermediate filaments, and microtubules. Cytoskeletal crosstalk — the direct and indirect communication between the different components — is crucial for this coordination. Direct communication involves various linker...
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Role of Myosin in Cell Migration01:18

Role of Myosin in Cell Migration

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Myosins are multimeric motor proteins involved in various cellular processes such as migration, adhesion, and proliferation. Myosin II is the most common type in animal cells, which binds and cross-links actin filaments.
Myosin II  is a hexamer comprising two heavy chains with globular heads and coiled-coil tails, two regulatory light chains, and two essential light chains. The ATPase sites on the myosin heads hydrolyze ATP, and the released phosphate generates the force for contraction....
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Cell Migration01:09

Cell Migration

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Cell migration, the process by which cells move from one location to another, is essential for the proper development and viability of organisms throughout their life. When cells are not able to migrate properly to their ordained locations, various disorders may occur. For example, disruption in cell migration causes chronic inflammatory diseases such as arthritis.
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Actin Polymerization and Cell Motility01:13

Actin Polymerization and Cell Motility

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Actin is a family of globular proteins that are highly abundant in eukaryotic cells. It makes up approximately 1-5% of total cell protein concentration. Actin monomers polymerize to form a complex network of polarized filaments, the actin cytoskeleton, that plays a crucial role in many cellular processes, including cell motility, division, endocytosis, and metastasis of cancer cells.
Actin cytoskeleton dynamics can produce pushing, pulling, and resistance forces that help the cell to migrate....
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Cancer Cell Migration through Invadopodia01:35

Cancer Cell Migration through Invadopodia

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Invadosome is a broad category of cell surface structures with proteolytic activity that  degrades the extracellular matrix (ECM). Invadosomes are present in normal cell types, including macrophages, endothelial cells, and neurons, as well as tumor cells. Although the macrophage podosomes and tumor cell invadopodia are classified as invadosomes, they have different structures, molecular pathways, and functions. Podosomes are short structures that last for a few minutes. However,...
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Mechanism of Lamellipodia Formation01:31

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Cells migrating in response to external stimuli form lamellipodia, which are thin membrane protrusions supported by a mesh of linked, branched, or unbranched actin filaments. These actin filaments interact with myosin motor proteins, creating the dynamic actomyosin complex within the cytoskeleton. Contractility, or the ability to generate contractile stress, is inherent to the actomyosin complex. It helps cells detect the stiffness of the surrounding ECM and exert contractile force for...
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Evaluation of Cancer Stem Cell Migration Using Compartmentalizing Microfluidic Devices and Live Cell Imaging
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通过核动力学在阿米波体迁移期间通过核动力学寻找适应性路径.

Janina Kroll1, Robert Hauschild2, Artur Kuznetcov1

  • 1Biomedical Center Munich (BMC), Walter Brendel Center of Experimental Medicine, Institute of Cardiovascular Physiology and Pathophysiology, University Hospital, Ludwig Maximilians University Munich, Munich, Germany.

The EMBO journal
|November 21, 2023
PubMed
概括

氨基体细胞利用核重定位 (核动力学) 导航复杂的环境. 这个过程使细胞能够适应竞争信号,这对免疫力和疾病至关重要.

关键词:
细胞迁移 细胞迁移细胞极性是细胞的极性.机械化学的线索.肌肉酶 肌肉酶 是一种核定位核定位 核定位

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科学领域:

  • 细胞生物学 细胞生物学
  • 生物物理学的生物物理.
  • 机械生物学 机械生物学

背景情况:

  • 移动细胞通过多个指导线索在复杂的微环境中导航.
  • 了解细胞如何响应竞争信号对于细胞迁移至关重要.

研究的目的:

  • 调查核重定位 (核动力学) 在阿米细胞路径寻找中的作用.
  • 阐明在异质环境中适应性导航的基础机制.

主要方法:

  • 研究了哺乳动物的免疫细胞和Dictyostelium discoideum.
  • 观察和分析细胞迁移期间的核重新定位.
  • 研究了髓二力在核动力学中的作用.

主要成果:

  • 频繁,快速的核动力学对于阿米的路径发现至关重要.
  • 核动力学使细胞能够在竞争的线索之间重新定位.
  • 核动力学受损导致导航缺陷和细胞停止.

结论:

  • 核动力是阿米细胞导航的基本机制.
  • 这一过程对于单细胞生物,免疫力和涉及细胞迁移的疾病进展至关重要.