The neural fold is a structure that arises during neurulation in the embryonic development of both

bird Birds are a group of warm-blooded vertebrates constituting the class Aves (), characterised by feathers, toothless beaked jaws, the laying of hard-shelled eggs, a high metabolic rate, a four-chambered heart, and a strong yet lightweig ...

s and mammals among other organisms. This structure is associated with primary neurulation, meaning that it forms by the coming together of tissue layers, rather than a clustering, and subsequent hollowing out, of individual cells (known as secondary neurulation). In humans, the neural folds are responsible for the formation of the anterior end of the

neural tube In the developing chordate (including vertebrates), the neural tube is the embryonic precursor to the central nervous system, which is made up of the brain and spinal cord. The neural groove gradually deepens as the neural fold become elevated, ...

. The neural folds are derived from the

neural plate The neural plate is a key developmental structure that serves as the basis for the nervous system. Cranial to the primitive node of the embryonic primitive streak, ectodermal tissue thickens and flattens to become the neural plate. The region ant ...

, a preliminary structure consisting of elongated ectoderm cells. The folds give rise to neural crest cells, as well as bringing about the formation of the

Development

In the embryo, the formation of the neural folds originates from the area where the

and the surrounding ectoderm converge. This region of the embryo is formed after gastrulation, and consists of epithelial tissue. Here, the epithelial cells elongate by means of microtubule polymerization, increasing their height. The thumbnail below shows this process, as well as the subsequent formation of the neural crest cells and the neural tube, which arise from the joining of the neural folds.

Folding

The formation of the neural fold is initiated by the release of

calcium Calcium is a chemical element with the symbol Ca and atomic number 20. As an alkaline earth metal, calcium is a reactive metal that forms a dark oxide-nitride layer when exposed to air. Its physical and chemical properties are most similar t ...

from within the cells. The released calcium interacts with proteins that can modify the

actin Actin is a family of globular multi-functional proteins that form microfilaments in the cytoskeleton, and the thin filaments in muscle fibrils. It is found in essentially all eukaryotic cells, where it may be present at a concentration of ov ...

filaments in the outer epithelial tissue, or ectoderm, in order to induce the dynamic cell movements necessary to create the fold. These cells are held together by cadherins (specifically E and N-cadherin), types of intercellular binding protein. When the cells at the peaks of the neural folds come in proximity with each other, it is the affinity for similar cadherin molecules (N-cadherins) that allows these cells to bind to each other. Thus, when the neural tube precursor cells begin expressing N-cadherin in the place of E-cadherin, this causes the neural tube to form and separate from the ectoderm and settle inside the embryo. When the cells fail to associate in a manner that is not part of the normal course of development, severe diseases can occur.

Process overview

The process of folding begins when the cells in the central region of the neural plate, the medial hinge point cells, bind to the notochord beneath them. This creates a central anchoring point for the process of folding to occur, and subsequently creates the

neural groove The neural groove is a shallow median groove of the neural plate between the neural folds of an embryo. The neural plate is a thick sheet of ectoderm surrounded on either side by the neural folds, two longitudinal ridges in front of the primit ...

. As the neural folds continue to extend, dorsolateral hinge points form, allowing the folds to curve into a tube-like structure. When the peaks of the folds (known as the neural crest regions) touch, they merge and involute, creating the neural tube beneath the newly formed epidermal layer.

Mechanism

The molecular mechanism behind this process lies in the expression and repression of bone morphogenetic proteins (BMPs). BMPs are a wide family of proteins that perform many functions throughout the growing embryo, including stimulating the growth of cartilage and bone. In order to allow for the growth of precursor neural tissues, as opposed to precursor bone or cartilage tissues, BMP expression is decreased in the neural plate, specifically along the medial line, where the neural groove will soon form. The proteins produced from the

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s ''

Noggin Noggin may refer to: General * Noggin or gill (volume), a unit of volume * Noggin (cup), a small cup * Noggin, slang for head A head is the part of an organism which usually includes the ears, brain, forehead, cheeks, chin, eyes, nose, an ...

'' and '' Chordin'' inhibit these BMPs, and subsequently allow neural commitment genes, like ''

SOX Sox most often refers to: * Boston Red Sox, an MLB team * Chicago White Sox, an MLB team * An alternate spelling of socks Sox may also refer to: Places * SOX, Sogamoso Airport's IATA airport code, an airport in Colombia Computing and technolo ...

'', to be expressed. These genes encode

transcription factor In molecular biology, a transcription factor (TF) (or sequence-specific DNA-binding factor) is a protein that controls the rate of transcription of genetic information from DNA to messenger RNA, by binding to a specific DNA sequence. The f ...

s, which alter the genomic expression of these cells, furthering them along the path of neural cell commitment. This process of BMP inhibition allows for the anchoring of the medial hinge point cells, providing the neural folds with the foundation necessary for folding and closure to occur. ''Noggin'' and ''Chordin'' have other roles in the neurulation process, including stimulating the neural crest cells to emigrate from the newly formed neural tube. The '' Sonic hedgehog'' gene also plays a role in attenuating BMP expression, forming the medial hinge point while inhibiting the formation of the dorsolateral hinge points, and in ensuring the proper closure of the neural folds. The prechordal plate, notochord, and non-neural ectoderm are believed to be important inducer tissues that release these chemical signals, in order to trigger neural plate folding. The final adhesion of the converging neural folds is due to several different types of intercellular binding proteins. Cadherins and their CAM receptor molecules, for example, are present in two types in the neural precursor tissue: E-cadherin keeps the cells of the neural plate and surrounding ectoderm adhered to each other, while N-cadherin does the same for the cells of the neural fold. Only cells expressing the same kind of cadherin can bind to each other; since the peaks of the neural folds both express N-cadherin, they are able to merge into a continuous sheet of cells. Likewise, it is this diminished affinity between cells expressing different types of cadherin that allows the neural tube precursor cells to separate from the ectoderm, forming the neural tube on the interior of the embryo and the true epidermis on the exterior. Another set of molecules involved with the merging of the neural folds are the ephrin molecules and their Eph receptors, which adhere in a similar manner to the cadherin molecules discussed above.

Derivative structures

The merging of the neural folds gives rise to many structures including the neural tube (the precursor to 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 p ...

), neural crest cells(which give rise to a variety of diverse

mesenchymal Mesenchyme () is a type of loosely organized animal embryonic connective tissue of undifferentiated cells that give rise to most tissues, such as skin, blood or bone. The interactions between mesenchyme and epithelium help to form nearly every ...

cells), and to the true epidermal layer. The neural fold is an extremely important structure in that this mechanism is needed to produce these diverse kinds of cells in the right places.

Clinical significance

There are many potential diseases that can arise from the improper adhesion or merging of the neural folds. During folding, the openings that are formed at the cranial and caudal regions are termed the cranial and caudal neuropores. If the caudal neuropore fails to close, a condition called

spina bifida Spina bifida (Latin for 'split spine'; SB) is a birth defect in which there is incomplete closing of the spine and the membranes around the spinal cord during early development in pregnancy. There are three main types: spina bifida occulta, men ...

can occur, in which the bottom of the spinal cord remains exposed. Often this condition can be detected during prenatal examinations and be treated before birth, though in more severe cases the individual may cope with the condition for the rest of his or her life. Depending on the severity and the affected area, individuals can experience a variety of symptoms, including a varying motor function and mobility, bladder control, and/or sexual function. If the failure is instead in the cranial neuropore,

anencephaly Anencephaly is the absence of a major portion of the brain, skull, and scalp that occurs during embryonic development. It is a cephalic disorder that results from a neural tube defect that occurs when the rostral (head) end of the neural tube ...

occurs. In this condition, the brain tissue is directly exposed to the amniotic fluid, and is subsequently degraded. If the entire neural tube fails to close, the condition is referred to as craniorachischisis.

References

External links

YouTube Video of Embryonic Chick Neurulation
{{Authority control Embryology of nervous system