Journal ArticleDOI
Imaging real-time neurite outgrowth and cytoskeletal reorganization with an atomic force microscope.
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TLDR
An atomic force microscope can be used for high-resolution real-time studies of the dynamic subcellular mechanisms that drive cell behavior and reorganization of the growth cone, especially the appearance and disappearance of beadlike features and fibrous organization.Abstract:
An atomic force microscope was used to image the morphology and structural reorganization of rat NIH/3T3 fibroblasts and PC-12 cells growing in petri dishes. NIH/3T3 fibroblasts had a uniform morphology and an extensive cytoskeletal network. Cell thickness varied from approximately 2-3 microns above the nucleus to approximately 20-30 nm over the distal processes, and cytoskeletal fibers as small as 30 nm wide were observed. Imaging over an extended period of time showed a limited degree of cytoskeletal reorganization. Localized force dissection did not induce significant retraction of cellular processes and immediate cell death. Differentiating PC-12 cells with a neuronal phenotype had a nonuniform morphology, abundant cytoskeletal elements, neuritic processes, and growth cones. The cell thickness varied from approximately 5-8 microns over the nucleus to approximately 100-500 nm over the neuritic processes; growth cones approximately 50-700 nm wide and end structures approximately 30-150 nm wide were visible. Repeated imaging showed reorganization of the growth cone, especially the appearance and disappearance of beadlike features and fibrous organization. Thus an atomic force microscope can be used for high-resolution real-time studies of the dynamic subcellular mechanisms that drive cell behavior.read more
Citations
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References
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Atomic force microscope
TL;DR: The atomic force microscope as mentioned in this paper is a combination of the principles of the scanning tunneling microscope and the stylus profilometer, which was proposed as a method to measure forces as small as 10-18 N. As one application for this concept, they introduce a new type of microscope capable of investigating surfaces of insulators on an atomic scale.
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Establishment of a noradrenergic clonal line of rat adrenal pheochromocytoma cells which respond to nerve growth factor.
TL;DR: A single cell clonal line which responds reversibly to nerve growth factor (NGF) has been established from a transplantable rat adrenal pheochromocytoma and should be a useful model system for neurobiological and neurochemical studies.
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Actin filament dynamics in living glial cells imaged by atomic force microscopy
TL;DR: This study demonstrates that F-actin can be readily resolved in living cells with the AFM and that the dynamic properties of F-Actin are easily observed.
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Shear stress-induced reorganization of the surface topography of living endothelial cells imaged by atomic force microscopy.
TL;DR: The first topographical data of the surface of living endothelial cells at sub-light-microscopic resolution is reported, measurements essential for a detailed understanding of force distribution in the endothelium subjected to flow.
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Biochemistry of Altered Brain Proteins in Alzheimer's Disease
TL;DR: The progressive dysfunction of limbic and association cortices in patients with AD is accompanied by the formation of unusual intraneuronal and extracellular proteinaceous filaments, which provide a cytopathological signature of the disease, a feature often lacking in other neurodegenerative disorders.