cellular neuroscience Cellular neuroscience is a branch of neuroscience concerned with the study of neurons at a cellular level. This includes Morphology (biology), morphology and physiology, physiological properties of single neurons. Several techniques such as intrace ...

, an axotomy () is the cutting or otherwise severing of an axon. This type of denervation is often used in experimental studies on

neuron A neuron (American English), neurone (British English), or nerve cell, is an membrane potential#Cell excitability, excitable cell (biology), cell that fires electric signals called action potentials across a neural network (biology), neural net ...

al physiology and neuronal death or survival as a method to better understand

nervous system disease Nervous system diseases, also known as nervous system or neurological disorders, refers to a small class of medical conditions affecting the nervous system. This category encompasses over 600 different conditions, including genetic disorders, inf ...

s."Online Medical Dictionary"
/ref> Axotomy may cause neuronal

cell death Cell death is the event of a biological cell ceasing to carry out its functions. This may be the result of the natural process of old cells dying and being replaced by new ones, as in programmed cell death, or may result from factors such as di ...

, especially in

embryo An embryo ( ) is the initial stage of development for 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 sp ...

nic or

neonatal In common terminology, a baby is the very young offspring of adult human beings, while infant (from the Latin word ''infans'', meaning 'baby' or 'child') is a formal or specialised synonym. The terms may also be used to refer to Juvenile (orga ...

animals, as this is the period in which neurons are dependent on their targets for the supply of survival factors. In mature animals, where survival factors are derived locally or via

autocrine Autocrine signaling is a form of cell signaling in which a cell secretes a hormone or chemical messenger (called the autocrine agent) that binds to autocrine receptors on that same cell, leading to changes in the cell. This can be contrasted with ...

loops, axotomy of peripheral neurons and motoneurons can lead to a robust regenerative response without any neuronal death. In both cases,

autophagy Autophagy (or autophagocytosis; from the Greek language, Greek , , meaning "self-devouring" and , , meaning "hollow") is the natural, conserved degradation of the cell that removes unnecessary or dysfunctional components through a lysosome-depe ...

is observed to markedly increase. Autophagy could either clear the way for neuronal degeneration or it could be a medium for cell destruction.Rubinsztein DC et al. (2005) Autophagy and Its Possible Roles in Nervous System Diseases, Damage and Repair. Autophagy 1(1):11-22. __TOC__

Axotomy response

Peripheral (extrinsic)

Upon injury of a peripheral axon, the entire neuron immediately reacts in order to regenerate the axon. This reaction requires an increased metabolic activity and is initiated by chromatolysis. Chromatolysis is characterized as the dissolution of protein-producing structures in the cell body of a neuron and is a term used to characterize apoptosis of neuronal cells. During chromatolysis, the soma and nucleus round and enlarge, the Nissl bodies and Golgi bodies both disintegrate, and the cytocentrum is cleared. In most cases, the axotomy response in peripheral axons ends in cell healing and regeneration, though it may occasionally end in cell death. Regeneration occurs because of microglial

hyperplasia Hyperplasia (from ancient Greek ὑπέρ ''huper'' 'over' + πλάσις ''plasis'' 'formation'), or hypergenesis, is an enlargement of an organ or tissue caused by an increase in the amount of Tissue (biology), organic tissue that results from ...

and astroglial hypertrophy, activities that are lacking in the central axotomy response.

Central (intrinsic)

In contrast to the peripheral response, the axotomy response in central neurons (neurons in the

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

) almost always leads to cell death. The mode of cell death is often apoptosis. Central neurons, upon being severed, generally fail to up-regulate the expression of trophic factors, a type of regeneration-associated protein. These trophic factors are responsible for the regulation of neuron vitality and are a critical aspect of neuroprotection. Trophic factors guarantee the survival of neuron synapsing, meaning they essentially maintain the functionality of the neuron. The lack of increased expression of these proteins will ultimately lead to cellular atrophy.

Surgical axotomy

When performing neurosurgery, professionals are often required to intentionally sever axons. Laser axotomy is a technique is under development that allows for precise axon severing. Laser axotomy could enable doctors to better understand the downstream effects of a severed axon so that they can develop more effective treatment arms. Being able to precisely sever specific axons will enable researchers to study direct correlation of axons to functionality.

Associated injuries and pathologies

Although many times axotomy occurs due to intended surgical treatment, it is also often directly related to one of many pathologies/injuries. The following is a preliminary list of some of the known associated injuries and pathologies.

Multiple sclerosis

Multiple sclerosis Multiple sclerosis (MS) is an autoimmune disease resulting in damage to myelinthe insulating covers of nerve cellsin the brain and spinal cord. As a demyelinating disease, MS disrupts the nervous system's ability to Action potential, transmit ...

is a disease that demyelinates the nerves of the central nervous system, leading to deteriorated bodily function. The underlying pathologies are mostly unknown and not understood. It is hypothesized by many that the demyelination in multiple sclerosis lesions leads to axonal transection and ultimately axonal degeneration. This axon death could potentially be the cause of the irreversible effects of multiple sclerosis. Using what is known about the axotomy response, doctors and researchers are looking to implement neuro-protective rehabilitation to patients in the early stages of multiple sclerosis in order to prevent the disease from running its course and causing irreversible disability. These rehabilitations would include the utilization of trophic factors to aid in neuron survival and maintenance of synapsing function.

Traumatic brain injuries

traumatic brain injury A traumatic brain injury (TBI), also known as an intracranial injury, is an injury to the brain caused by an external force. TBI can be classified based on severity ranging from mild traumatic brain injury (mTBI/concussion) to severe traumati ...

is defined as a blunt non-missile penetrating or missile injury to the head. It has been shown that the extent of the damage incurred after a head trauma correlates more directly with the amount of deformation incurred by the brain than the amount of stress per area applied to the head. There are two modes of axotomy that can occur as a result of a TBI. Primary axotomy occurs immediately and is characterized as complete mechanical transaction of axons. More often, secondary axotomy occurs, evolving over time and ultimately leading to disconnection. While this type of injury is often irreversible, the axons do occasionally recover. Researchers are currently working towards utilizing this potential for recovery to develop therapies for patients with traumatic brain injuries. These therapies rely on the scientific understanding of the axotomy response. Two mechanisms that aid in the reinnervation process are acute inflammation and the activation of molecules in the extracellular matrix surrounding the synapse. Immediate acute inflammation leads to the removal of the severed axons by activating the local glia. The inflammation response also recruits growth factors that aid in the repopulation of postsynaptic sites. The negative effects of this inflammation may be difficult to detect immediately post injury. Inflammation of the head is often slow to onset after injury, and can lead to a fatal rise in cerebral pressure. A recently discovered and understood cytokine is currently being used to try to treat the axotomy before the rise in pressure occurs. This cytokine, called

osteopontin Osteopontin (OPN), also known as bone /sialoprotein I (BSP-1 or BNSP), early T-lymphocyte activation (ETA-1), secreted phosphoprotein 1 (SPP1), 2ar and Rickettsia resistance (Ric), is a protein that in humans is encoded by the ''SPP1'' gene (sec ...

, may be able to aid in axon regeneration by exposing its integrin receptor binding sites. Osteopontin secretion may be able to regulate synaptogenesis and target the necessary neuroglia required for the repair of the axons. A study done by Julie L. Chan proves the functionality of osteopontin in initiating the immune response necessary for synaptic repair and reorganization after injury (axotomy).[ Chan, Julie L., Thomas M. Reeves, and Linda L. Phillips. "Osteopontin Expression in Acute Immune Response Mediates Hippocampal Synaptogenesis and Adaptive Outcome following Cortical Brain Injury." Experimental Neurology 261 (2014): 757-71. Web.] Though the study effectively proved the functionality of osteopontin in diminishing the intense inflammatory response following a traumatic brain injury, it did not provide evidence of the long-term effects of implanting this as a treatment option. Altering the inflammatory response may unintentional halt the beneficial aspects of inflammation and have devastating effects on the brain's ability to heal itself.

References

{{Peripheral nervous system tests and procedures Neurology procedures