William J. Landis scite author profile

Numerous studies have documented that matrix vesicles are unique extracellular membrane-bound microparticles that serve as initial sites for mineral formation in the growth plate and most other vertebrate mineralizing tissues. Microparticle generation is not confined to hard tissues, as cells in soft tissues generate similar structures; numerous studies have shown that a common type of extracellular particle, termed an exosome, a product of the endosomal pathway, shares many characteristics of matrix vesicles. Indeed, analyses of size, morphology and lipid and protein content indicate that matrix vesicles and exosomes are homologous structures. Such a possibility impacts our understanding of the biogenesis, processing and function of matrix vesicles (exosomes) in vertebrate hard tissues and explains in part how cells control the earliest stages of mineral deposition. Moreover, since exosomes influence a spectrum of functions, including cell-cell communication, it is suggested that this type of microparticle may provide a mechanism for the transfer of signaling molecules between cells within the growth plate and thereby regulate endochondral bone development and formation.

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Electron microscopic observations of bone tissue prepared anhydrously in organic solvents

Landis¹,

Paine²,

Glimcher³

1977

Journal of Ultrastructure Research

187

118

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William J. Landis

Mineral and Organic Matrix Interaction in Normally Calcifying Tendon Visualized in Three Dimensions by High-Voltage Electron Microscopic Tomography and Graphic Image Reconstruction

The strength of a calcified tissue depends in part on the molecular structure and organization of its constituent mineral crystals in their organic matrix

Structural relations between collagen and mineral in bone as determined by high voltage electron microscopic tomography

Mineralization of Collagen May Occur on Fibril Surfaces: Evidence from Conventional and High-Voltage Electron Microscopy and Three-Dimensional Imaging

Organization of apatite crystals in human woven bone

Formation of Phalanges and Small Joints by Tissue-Engineering*†

Matrix vesicles: Are they anchored exosomes?

Electron microscopic observations of bone tissue prepared anhydrously in organic solvents

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