BIOMAT Database Logo BIOMAT Database Logo

Olfactory ensheathing cells: isolation and culture from the neonatal olfactory bulb. 2008

Susan C Barnett, and A Jane Roskams
CR-UK Beatson Laboratories, Glasgow, Scotland.

Olfactory ensheathing cells (OECs), which are glia from the olfactory system, have evolved as attractive candidates for transplant-mediated repair based on long-standing knowledge that the olfactory system is one of the only central nervous system tissues that can support neurogenesis throughout life. After injury and during normal cell turnover, the olfactory receptor neurons (ORNs) die, and new nerves are generated from putative stem cells in the olfactory epithelium. OECs, which reside throughout the olfactory system, guide the ORN axons as they travel through the olfactory mucosa (olfactory epithelium and lamina propria) and the cribriform plate, terminating in synapse formation in the usually nonpermissive environment of the olfactory bulb. It is this ability to support axonal outgrowth throughout life that has made olfactory tissue such a promising focus for repair strategies. Here, we provide a method to purify OECs-from the rat olfactory bulb and in Chapter 9, from the turbinates of the mouse olfactory epithelium.

UI MeSH Term Description Entries
D009830 Olfactory Bulb Ovoid body resting on the CRIBRIFORM PLATE of the ethmoid bone where the OLFACTORY NERVE terminates. The olfactory bulb contains several types of nerve cells including the mitral cells, on whose DENDRITES the olfactory nerve synapses, forming the olfactory glomeruli. The accessory olfactory bulb, which receives the projection from the VOMERONASAL ORGAN via the vomeronasal nerve, is also included here. Accessory Olfactory Bulb,Olfactory Tract,Bulbus Olfactorius,Lateral Olfactory Tract,Main Olfactory Bulb,Olfactory Glomerulus,Accessory Olfactory Bulbs,Bulb, Accessory Olfactory,Bulb, Main Olfactory,Bulb, Olfactory,Bulbs, Accessory Olfactory,Bulbs, Main Olfactory,Bulbs, Olfactory,Glomerulus, Olfactory,Lateral Olfactory Tracts,Main Olfactory Bulbs,Olfactorius, Bulbus,Olfactory Bulb, Accessory,Olfactory Bulb, Main,Olfactory Bulbs,Olfactory Bulbs, Accessory,Olfactory Bulbs, Main,Olfactory Tract, Lateral,Olfactory Tracts,Olfactory Tracts, Lateral,Tract, Lateral Olfactory,Tract, Olfactory,Tracts, Lateral Olfactory,Tracts, Olfactory
D009831 Olfactory Mucosa That portion of the nasal mucosa containing the sensory nerve endings for SMELL, located at the dome of each NASAL CAVITY. The yellow-brownish olfactory epithelium consists of OLFACTORY RECEPTOR NEURONS; brush cells; STEM CELLS; and the associated olfactory glands. Olfactory Epithelium,Olfactory Membrane,Epithelium, Olfactory,Membrane, Olfactory,Membranes, Olfactory,Mucosa, Olfactory,Olfactory Membranes
D002469 Cell Separation Techniques for separating distinct populations of cells. Cell Isolation,Cell Segregation,Isolation, Cell,Cell Isolations,Cell Segregations,Cell Separations,Isolations, Cell,Segregation, Cell,Segregations, Cell,Separation, Cell,Separations, Cell
D002478 Cells, Cultured Cells propagated in vitro in special media conducive to their growth. Cultured cells are used to study developmental, morphologic, metabolic, physiologic, and genetic processes, among others. Cultured Cells,Cell, Cultured,Cultured Cell
D004210 Dissection The separation and isolation of tissues for surgical purposes, or for the analysis or study of their structures. Dissections
D004847 Epithelial Cells Cells that line the inner and outer surfaces of the body by forming cellular layers (EPITHELIUM) or masses. Epithelial cells lining the SKIN; the MOUTH; the NOSE; and the ANAL CANAL derive from ectoderm; those lining the RESPIRATORY SYSTEM and the DIGESTIVE SYSTEM derive from endoderm; others (CARDIOVASCULAR SYSTEM and LYMPHATIC SYSTEM) derive from mesoderm. Epithelial cells can be classified mainly by cell shape and function into squamous, glandular and transitional epithelial cells. Adenomatous Epithelial Cells,Columnar Glandular Epithelial Cells,Cuboidal Glandular Epithelial Cells,Glandular Epithelial Cells,Squamous Cells,Squamous Epithelial Cells,Transitional Epithelial Cells,Adenomatous Epithelial Cell,Cell, Adenomatous Epithelial,Cell, Epithelial,Cell, Glandular Epithelial,Cell, Squamous,Cell, Squamous Epithelial,Cell, Transitional Epithelial,Cells, Adenomatous Epithelial,Cells, Epithelial,Cells, Glandular Epithelial,Cells, Squamous,Cells, Squamous Epithelial,Cells, Transitional Epithelial,Epithelial Cell,Epithelial Cell, Adenomatous,Epithelial Cell, Glandular,Epithelial Cell, Squamous,Epithelial Cell, Transitional,Epithelial Cells, Adenomatous,Epithelial Cells, Glandular,Epithelial Cells, Squamous,Epithelial Cells, Transitional,Glandular Epithelial Cell,Squamous Cell,Squamous Epithelial Cell,Transitional Epithelial Cell
D005434 Flow Cytometry Technique using an instrument system for making, processing, and displaying one or more measurements on individual cells obtained from a cell suspension. Cells are usually stained with one or more fluorescent dyes specific to cell components of interest, e.g., DNA, and fluorescence of each cell is measured as it rapidly transverses the excitation beam (laser or mercury arc lamp). Fluorescence provides a quantitative measure of various biochemical and biophysical properties of the cell, as well as a basis for cell sorting. Other measurable optical parameters include light absorption and light scattering, the latter being applicable to the measurement of cell size, shape, density, granularity, and stain uptake. Cytofluorometry, Flow,Cytometry, Flow,Flow Microfluorimetry,Fluorescence-Activated Cell Sorting,Microfluorometry, Flow,Cell Sorting, Fluorescence-Activated,Cell Sortings, Fluorescence-Activated,Cytofluorometries, Flow,Cytometries, Flow,Flow Cytofluorometries,Flow Cytofluorometry,Flow Cytometries,Flow Microfluorometries,Flow Microfluorometry,Fluorescence Activated Cell Sorting,Fluorescence-Activated Cell Sortings,Microfluorimetry, Flow,Microfluorometries, Flow,Sorting, Fluorescence-Activated Cell,Sortings, Fluorescence-Activated Cell
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D000831 Animals, Newborn Refers to animals in the period of time just after birth. Animals, Neonatal,Animal, Neonatal,Animal, Newborn,Neonatal Animal,Neonatal Animals,Newborn Animal,Newborn Animals
D001253 Astrocytes A class of large neuroglial (macroglial) cells in the central nervous system - the largest and most numerous neuroglial cells in the brain and spinal cord. Astrocytes (from "star" cells) are irregularly shaped with many long processes, including those with "end feet" which form the glial (limiting) membrane and directly and indirectly contribute to the BLOOD-BRAIN BARRIER. They regulate the extracellular ionic and chemical environment, and "reactive astrocytes" (along with MICROGLIA) respond to injury. Astroglia,Astroglia Cells,Astroglial Cells,Astrocyte,Astroglia Cell,Astroglial Cell,Astroglias,Cell, Astroglia,Cell, Astroglial

Related Publications

Susan C Barnett, and A Jane Roskams
Isolation, characterization, and genetic profiling of subpopulations of olfactory ensheathing cells from the olfactory bulb.
March 2012, Glia,
Susan C Barnett, and A Jane Roskams
Purification of olfactory nerve ensheathing cells from the olfactory bulb.
February 1993, Developmental biology,
Susan C Barnett, and A Jane Roskams
[Isolation, culture and purification of olfactory ensheathing cells from human fetal olfactory mucosa].
November 2008, Nan fang yi ke da xue xue bao = Journal of Southern Medical University,
Susan C Barnett, and A Jane Roskams
Ultrastructural analysis of olfactory ensheathing cells derived from olfactory bulb and nerve of neonatal and juvenile rats.
February 2016, Neuroscience research,
Susan C Barnett, and A Jane Roskams
Comparative gene expression profiling of olfactory ensheathing cells from olfactory bulb and olfactory mucosa.
October 2010, Glia,
Susan C Barnett, and A Jane Roskams
Olfactory ensheathing cells from the nasal mucosa and olfactory bulb have distinct membrane properties.
May 2020, Journal of neuroscience research,
Susan C Barnett, and A Jane Roskams
Effects of fibroblasts derived from the olfactory bulb and nasal olfactory mucosa on proliferation of olfactory ensheathing cells harvested from the olfactory bulb.
January 2011, The Journal of veterinary medical science,
Susan C Barnett, and A Jane Roskams
Gene and protein expression profiles of olfactory ensheathing cells from olfactory bulb versus olfactory mucosa.
February 2022, Neural regeneration research,
Susan C Barnett, and A Jane Roskams
Ensheathing cell cultures from the olfactory bulb and mucosa.
August 2004, Glia,
Susan C Barnett, and A Jane Roskams
Olfactory bulb ensheathing cells enhance peripheral nerve regeneration.
April 1999, Neuroreport,
Copied contents to your clipboard!