In vertebrates, a neuroblast or primitive nerve cell is a postmitotic cell that does not divide further, and which will develop into a neuron after a migration phase. In invertebrates such as Drosophila, neuroblasts are neural progenitor cells which divide asymmetrically to produce a neuroblast, and a daughter cell of varying potency depending on the type of neuroblast. Vertebrate neuroblasts differentiate from radial glial cells and are committed to becoming neurons. Neural stem cells, which only divide symmetrically to produce more neural stem cells, transition gradually into radial glial cells. Radial glial cells, also called radial glial progenitor cells, divide asymmetrically to produce a neuroblast and another radial glial cell that will re-enter the cell cycle.
Formation
Neuroblasts are formed by the asymmetric division of radial glial cells. They start to migrate as soon as they are born. Neurogenesis can only take place when neural stem cells have transitioned into radial glial cells. Neuroblasts are being studied extensively as they have the potential to be used therapeutically to combat cell loss due to injury or disease in the brain, although their potential effectiveness is debated.
Migration
In the embryo neuroblasts form the middle mantle layer of the neural tube wall which goes on to form the grey matter of the spinal cord. The outer layer to the mantle layer is the marginal layer and this contains the myelinated axons from the neuroblasts forming the white matter of the spinal cord.
In humans, neuroblasts produced by stem cells in the adult subventricular zone migrate into damaged areas after brain injuries. However, they are restricted to the subtype of small interneuron-like cells, and it is unlikely that they contribute to functional recovery of striatal circuits.
Clinical significance
There are several disorders known as neuronal migration disorders that can cause serious problems. These arise from a disruption in the pattern of migration of the neuroblasts on their way to their target destinations. The disorders include, lissencephaly, microlissencephaly, pachygyria, and several types of gray matter heterotopia.
Neuroblast development in Drosophila
In the fruit fly model organism Drosophila melanogaster, a neuroblast is a neural progenitor cell which divides asymmetrically to produce a neuroblast and either a neuron, a ganglion mother cell (GMC), or an intermediate neural progenitor, depending on the type of neuroblast. During embryogenesis, embryonic neuroblasts delaminate from either the procephalic neuroectoderm (for brain neuroblasts), or the ventral nerve cord neuroectoderm (for abdominal neuroblasts). During larval development, optic lobe neuroblasts are generated from a neuroectoderm called the Outer Proliferation Center. There are more than 800 optic lobe neuroblasts, 105 central brain neuroblasts, and 30 abdominal neuroblasts per hemisegment (a bilateral half of a segment). This is partly based on the position of the neuroblast along the Anterior/Posterior and Dorsal/Ventral axes, and partly on a temporal sequence of transcription factors that are expressed in a specific order as neuroblasts undergo sequential divisions.
See also
- Neuroblastoma
- Posterior column
- List of human cell types derived from the germ layers