Pioneer axon is the classification given to

axons An axon (from Greek ἄξων ''áxōn'', axis), or nerve fiber (or nerve fibre: see American and British English spelling differences#-re, -er, spelling differences), is a long, slender projection of a nerve cell, or neuron, in vertebrates, th ...

that are the first to grow in a particular region. They originate from

pioneer neuron A pioneer neuron is a cell that is a derivative of the preplate in the early stages of corticogenesis of the brain. Pioneer neurons settle in the marginal zone of the cortex and project to sub-cortical levels. In the rat, pioneer neurons are only ...

s, and have the main function of laying down the initial growing path that subsequent growing axons, dubbed follower axons, from other neurons will eventually follow. Several theories relating to the structure and function of pioneer axons are currently being explored. The first theory is that pioneer axons are specialized structures, and that they play a crucial role in guiding follower axons. The second is that pioneer axons are no different from follower axons, and that they play no role in guiding follower axons. Anatomically, there are no differences between pioneer and follower axons, although there are morphological differences. The mechanisms of pioneer axons and their role in

axon guidance Axon guidance (also called axon pathfinding) is a subfield of neural development concerning the process by which neurons send out axons to reach their correct targets. Axons often follow very precise paths in the nervous system, and how they mana ...

is currently being explored. In addition, many studies are being conducted in model organisms, such grasshoppers, zebrafish, and fruit flies to study the effects of manipulations of pioneer axons on neuronal development.

History

Santiago Ramon y Cajal Santiago (, ; ), also known as Santiago de Chile, is the capital and largest city of Chile as well as one of the largest cities in the Americas. It is the center of Chile's most densely populated region, the Santiago Metropolitan Region, whose ...

, considered the father of modern

neuroscience Neuroscience is the scientific study of the nervous system (the brain, spinal cord, and peripheral nervous system), its functions and disorders. It is a multidisciplinary science that combines physiology, anatomy, molecular biology, development ...

, was one of the first to physically observe growing axons. Moreover, he observed that axons grew in a structured, guided manner. He advocated that axons were guided by

chemotactic Chemotaxis (from '' chemo-'' + '' taxis'') is the movement of an organism or entity in response to a chemical stimulus. Somatic cells, bacteria, and other single-cell or multicellular organisms direct their movements according to certain chemica ...

cues. Indeed, later experiments showed that in both

invertebrate Invertebrates are a paraphyletic group of animals that neither possess nor develop a vertebral column (commonly known as a ''backbone'' or ''spine''), derived from the notochord. This is a grouping including all animals apart from the chordate ...

and

vertebrate Vertebrates () comprise all animal taxa within the subphylum Vertebrata () ( chordates with backbones), including all mammals, birds, reptiles, amphibians, and fish. Vertebrates represent the overwhelming majority of the phylum Chordata, ...

models, axons grew along pre-determined routes to create a reproducible scaffold of nerves. Ramon y Cajal's views faced some competition from those of

Paul Alfred Weiss Paul Alfred Weiss (March 21, 1898 – September 8, 1989) was an Austrian biologist who specialised in morphogenesis, development, differentiation and neurobiology. A teacher, experimenter and theorist, he made a lasting contribution to scien ...

, his contemporary neuroscientist during the 1920s and 1930s. Weiss argued that functional specificity did not depend on specific axon connections, and that nonspecific mechanical cues participated in guiding axons. Subsequent investigations into chemotactics cues that started in the 1970s eventually proved that Ramon y Cajal's initial ideas were intuitive and ahead of his time.Raper, J., & Mason, C. (2010). Cellular Strategies of Axonal Pathfinding. rticle Cold Spring Harbor Perspectives in Biology, 2(9). doi: a00193310.1101/cshperspect.a001933

Mechanisms of growth

The mechanism of growth of

s has been investigated in the central and peripheral nervous systems of invertebrate animals. Observations of axon growth during the early embryonic period have led to conclusions that axons are actively guided to specific locations. Within these animal models, several factors have been identified as playing a role in determining the direction of growth.

Guidepost cells Guidepost cells are cells which assist in the subcellular organization of both neural axon growth and migration. They act as intermediate targets for long and complex axonal growths by creating short and easy pathways, leading axon growth cones tow ...

are specialized early differentiating sensory cells. These cells are essential in providing navigational information to pioneer axons. Arrays of pioneer neurons create short segments of pioneer axons extending distal to proximal within an appendage. The resulting trajectories are due to pioneer axons growing from guidepost to guidepost cells. In addition, pioneer axons can act as guidepost cells to more distant pioneer neurons. Studies that involved selective destruction of guidepost cells resulted in pioneer axons becoming unable to navigate normally to the CNS from the PNS. Instead, the pioneer axons assumed alternate configurations and followed different trajectories. In addition, without the guidepost cells, the pioneer axons did not find the stereotyped route that pioneer axons would normally navigate.Bentley, D., & Caudy, M. (1983). Pioneer axons lose directed growth after selective killing of guidepost cells. Nature, 304(5921), 62–65. It has been shown that

glial cells Glia, also called glial cells (gliocytes) or neuroglia, are non-neuronal cells in the central nervous system (brain and spinal cord) and the peripheral nervous system that do not produce electrical impulses. They maintain homeostasis, form myel ...

also play a role in axon guidance in various ways. In particular, glial cells demonstrate an interaction with the

growth cones Growth may refer to: Biology * Auxology, the study of all aspects of human physical growth * Bacterial growth * Cell growth * Growth hormone, a peptide hormone that stimulates growth * Human development (biology) * Plant growth * Secondary grow ...

of pioneer axons. The route of extending growth cones has been shown to be abundant in glial cells, which are in turn part of a cellular mesh including other intermediate neurons and filopodia. Glial cells also participate in the fasciculation and defasciculation of axons, which are essential in shaping the pathways that are eventually followed.Hidalgo, A., & Booth, G. E. (2000). Glia dictate pioneer axon trajectories in the Drosophila embryonic CNS. rticle Development, 127(2), 393–402. A proposed mechanism involves the creation of a scaffold made out of interface glia, which growth cones contact during the establishment of axon tracts. Ablation of the interface glia leads to a complete loss of longitudinal pioneer axon tracts. In addition, ablation of glia in later embryonic development also interfered with guidance of follower axons, showing that glial cells are necessary in maintaining scaffold needed for contacting growth cones.Hidalgo, A., Urban, J., & Brand, A. H. (1995). Targeted ablation of glia disrupts axon tract formation in the Drosophila CNS. Development, 121(11), 3703–3712.

Chemotactic influences

A variety of chemotactic cues provide essential signaling directing the directional growth of pioneer axons. Chemotactic cues are unique in that they can be multifunctional and versatile. A single chemotactic cue can both act as an attractant or repellent to pioneer axons, and may work from either a distance or within the immediate vicinity. More specifically, the interactions between chemotactic cues and growth cones can offer a possible explanation for the diversity that is observed in their behavior. Guidance molecules are heavily involved in steering the directions of growth cones. For example, guidance molecules can initiate, extend, stabilize, or retract individual

filopodia Filopodia (singular filopodium) are slender cytoplasmic projections that extend beyond the leading edge of lamellipodia in migrating cells. Within the lamellipodium, actin ribs are known as ''microspikes'', and when they extend beyond the lame ...

, as well as attract various adhesion molecules to impact their physical state. Some of the various chemotactic cues that have been explored in the mechanisms of pioneer axons include

netrin Netrins are a class of proteins involved in axon guidance. They are named after the Sanskrit word "netr", which means "one who guides". Netrins are genetically conserved across nematode worms, fruit flies, frogs, mice, and humans. Structurall ...

ephrin Ephrins (also known as ephrin ligands or Eph family receptor interacting proteins) are a family of proteins that serve as the ligands of the Eph receptor. Eph receptors in turn compose the largest known subfamily of receptor protein-tyrosine kinas ...

semaphorin Semaphorins are a class of secreted and membrane proteins that were originally identified as axonal growth cone guidance molecules. They primarily act as short-range inhibitory signals and signal through multimeric receptor complexes. Semaphorins ...

Slit-Robo Slit-Robo is the name of a cell signaling protein complex with many diverse functions including axon guidance and angiogenesis. Slit (gene), Slit refers to a secreted protein that is most widely known as a repulsive axon guidance cue, and Roundab ...

, and Notch. Receptors for these molecules have also been studied. Netrins primarily function as attractions of pioneer axons towards the midline. They can act from a distance as much as a few millimeters, as well as act in short range. Netrins can also act as a repellant. Unique among chemoattractants is that the function of netrin has been conserved among a variety of species across 600 million years. Like netrin, ephrin can function as both an attractant and repellant. Ephrins primarily play a role in setting a gradient along the anterior-poster axis for the guidance of developing retinal axons. Semaphorins, which were first identified on specific axons in the grasshopper CNS, function primarily as short-range inhibitory cues that steer pioneer axons away from less ideal regions. Receptor complexes for semaphorins include neuropilins and

plexins A plexin is a protein which acts as a receptor for semaphorin family signaling proteins. It is classically known for its expression on the surface of axon growth cones and involvement in signal transduction to steer axon growth away from the sou ...

.Dickson, B. J. (2002). Molecular mechanisms of axon guidance. Science, 298(5600), 1959–1964. doi: 10.1126/science.1072165 The Slit-Robo cell signaling pathway plays an important role in guiding pioneer axons, especially pioneer longitudinal axons. These axons, which function to connect major parts of the CNS, are mainly present during

embryonic development An embryo is an initial stage of development of a multicellular organism. In organisms that reproduce sexually, embryonic development is the part of the life cycle that begins just after fertilization of the female egg cell by the male sperm ...

. The Slit family mainly functions as a repellent towards longitudinal axons, guiding them away from the ventral midline. The loss of Slit in ''Drosophila'' caused the presence of longitudinal axons in the midline. In conjunction with the Robo receptor, Slit signaling played a role in determining tract positions parallel to the midline for longitudinal axons to follow during development. The loss of either Slit or Robo caused dysfunction in the development of longitudinal pioneer neurons in the

midbrain The midbrain or mesencephalon is the forward-most portion of the brainstem and is associated with vision, hearing, motor control, sleep and wakefulness, arousal (alertness), and temperature regulation. The name comes from the Greek ''mesos'', " ...

and

hindbrain The hindbrain or rhombencephalon or lower brain is a developmental categorization of portions of the central nervous system in vertebrates. It includes the medulla, pons, and cerebellum. Together they support vital bodily processes. Metencephalo ...

of ''Drosophila''.Mastick, G. S., Farmer, W. T., Altick, A. L., Nural, H. F., Dugan, J. P., Kidd, T., & Charron, F. (2010). Longitudinal axons are guided by Slit/Robo signals from the

floor plate The floor plate is a structure integral to the developing nervous system of vertebrate organisms. Located on the ventral midline of the embryonic neural tube, the floor plate is a specialized glial structure that spans the anteroposterior axis f ...

. Cell Adh Migr, 4(3), 337–341. Furthermore, it has been shown that Robo plays a diversified role in pioneer axon guidance in different areas of the brain during embryonic development. Primarily, Robo 1 is crucial towards pioneer longitudinal axon guidance in the ventral tract, while Robo 2 is important in the dorsal tract.Kim, M., Roesener, A. P., Mendonca, P. R., & Mastick, G. S. (2011). Robo1 and Robo2 have distinct roles in pioneer longitudinal axon guidance. Dev Biol, 358(1), 181–188. doi: 10.1016/j.ydbio.2011.07.025 The signaling associated with the receptor Notch, as well as non-canonical Notch/Abl signaling, have been shown to play a role in the development of longitudinal pioneer neurons in the ''Drosophila''

ventral nerve cord The ventral nerve cord is a major structure of the invertebrate central nervous system. It is the functional equivalent of the vertebrate spinal cord. The ventral nerve cord coordinates neural signaling from the brain to the body and vice versa, i ...

. The Notch receptor has been shown to interact with interface glia to form a path that longitudinal pioneer neurons can follow. Notch/Abl signaling in the pioneer neurons increases the motility of the growth cones of longitudinal pioneer axons while stimulating filopodia development. It has also been noted that Notch signaling is also important in the migration of neurons in the mammalian cortex.Kuzina, I., Song, J. K., & Giniger, E. (2011). How Notch establishes longitudinal axon connections between successive segments of the Drosophila CNS. Development, 138(9), 1839–1849. doi: 10.1242/dev.062471

Anatomy

The directed growth of axons depends on structure at the end of the tip of a growing axon referred to as a growth cone.

Growth cones Growth may refer to: Biology * Auxology, the study of all aspects of human physical growth * Bacterial growth * Cell growth * Growth hormone, a peptide hormone that stimulates growth * Human development (biology) * Plant growth * Secondary grow ...

, in brief, are motile structures that explore the environment and ultimately guide the extension of the axon. The response of growth cones to various signaling molecules dictates the correct pathway and direction of growth of the axon. Growth cones possess a sheetlike expansion at the tip called the

lamellipodium The lamellipodium (plural lamellipodia) (from Latin ''lamella'', related to ', "thin sheet", and the Greek radical ''pod-'', "foot") is a cytoskeletal protein actin projection on the leading edge of the cell. It contains a quasi-two-dimensional ...

, from which extend fine processes called

. The growth cone is necessary for the construction of neural pathways. Although pioneer axons and follower axons both possess growth cones, there are several morphological differences related to the function of pioneer axons. The structure of the growth cone changes whenever an axon reaches a territory not previously innervated, or if a choice in direction is required. Mainly, the lamellipodium increase in size and extend numerous filopodia in order to collect as much sensory information as possible.Purves, D., Augustine, G. J., Fitzpatrick, D., Hall, W. C., LaMantia, A.-S., McNamara, J. O., & White, L. E. (2008). Neuroscience (4 ed.). Sunderland: Sinauer Associates Inc.

Role in neuronal development

The role of pioneer axons in neuronal development has been studied extensively in various invertebrate and vertebrate systems in both the

central nervous system The central nervous system (CNS) is the part of the nervous system consisting primarily of the brain and spinal cord. The CNS is so named because the brain integrates the received information and coordinates and influences the activity of all par ...

and

peripheral nervous system The peripheral nervous system (PNS) is one of two components that make up the nervous system of bilateral animals, with the other part being the central nervous system (CNS). The PNS consists of nerves and ganglia, which lie outside the brain ...

. Although these experiments have shed light on the functions of the pioneer axons, the results reveal conflicting information into the extent of the effect of pioneer axons on proper development. In addition, other studies have shown that certain cells that interact with pioneer axons are also crucial in the eventual development of neural pathways, and that loss of these cells results in improper navigation of pioneer axons. Furthermore, identical pathways and homologous neurons across different species reflect different pathfinding abilities of growth cones in pioneer neurons. Axonal pathfinding and fasciculation behaviour in the embryonic ventral nerve cord of Drosophila

Axonal pathfinding and fasciculation behaviour in the embryonic ventral nerve cord of Drosophila

An investigation was conducted looking into the role of pioneer axons in the formation of both CNS and PNS axon pathways in a ''Drosophila'' embryo. Using a method to ablate specific neurons, the ablation of the aCC axon, which plays a role in pioneering the intersegmental nerve in the ''Drosophila'' PNS, resulted in the three typical follower axons becoming delayed and prone to pathfinding errors. Despite these consequences, eventually the pathway was formed in the majority of subjects. Ablation of the pioneer axons that formed the longitudinal tracts in the ''Drosophila'' CNS resulted in similar difficulties in the formation and organization of longitudinal pathways in 70% of observed segments. Ultimately, like in the PNS, the longitudinal pathways formed in about 80% of observed segments. Thus, it was shown that the pioneer axons played a role in the development of the CNS and PNS, and without the pioneer axons, the growth of the followers was delayed. Remarkably, the majority of the tracts formed, indicating that other factors play a role in axon guidance that can correct for the loss of pioneer neurons.Lin, D. M., Auld, V. J., & Goodman, C. S. (1995). Targeted neuronal cell ablation in the Drosophila embryo: pathfinding by follower growth cones in the absence of pioneers. Neuron, 14(4), 707–715. Although studies of the mechanisms of pioneer axons have mostly been in invertebrate models, studies have also begun exploring the role of pioneer axons in the development of large vertebrate axon tracts. The primary model for these experiments has been in the zebrafish. Like in ''Drosophila'', there is evidence to show that although pioneer axons play an important role in guiding the growth cones of follower axons, they may not be completely essential. The brain of the early zebrafish presents an ideal environment in which to study the behavior of developing axon tracts. The earliest differentiating pioneer neurons create a scaffold, with which growth cones of follower axons interact with. Deletion of pioneer axons which create the scaffold have an effect on the growth cones of the neurons of the nucleus of the posterior commissure, in that they cannot follow the normal path of extending ventrally, then posteriorly. Despite the compromised pioneer neuron scaffold, the follower growth cones extend ventrally normally. However, around half of the followers do not follow the posterior longitudinal path correctly, while the other half do. This suggests that other cues other than those from pioneer axons play a role in guiding follower axon growth, and that pioneer axons may play different roles in different parts of neuronal development.Patel, C. K., Rodriguez, L. C., & Kuwada, J. Y. (1994). Axonal outgrowth within the abnormal scaffold of brain tracts in a zebrafish mutant. J Neurobiol, 25(4), 345–360. doi: 10.1002/neu.480250402 In a different study, replacement or removal of the early-born retinal ganglion cells, which function as pioneer neurons, had a significantly deleterious effect on the ability of later axons to exit the eye. Subsequent axon-axon interactions were also shown to be necessary, as misrouting of retinal axons led to chiasm defasciculaiton, telencephalic and ventral hindbrain projections, or aberrant crossing in the

posterior commissure The posterior commissure (also known as the epithalamic commissure) is a rounded band of white fibers crossing the middle line on the dorsal aspect of the rostral end of the cerebral aqueduct. It is important in the bilateral pupillary light refle ...

.Pittman, A. J., Law, M. Y., & Chien, C. B. (2008). Pathfinding in a large vertebrate axon tract: isotypic interactions guide retinotectal axons at multiple choice points. Development, 135(17), 2865–2871. doi: 10.1242/dev.025049

References