Difference between revisions of "Somite Development - Anatomy & Physiology"
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==Introduction== | ==Introduction== | ||
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*''Somitogenesis; the formation of somites.'' | *''Somitogenesis; the formation of somites.'' | ||
− | #Paraxial mesoderm forms during [[ | + | #Paraxial mesoderm forms during [[Gastrulation - Anatomy & Physiology|gastrulation]]. |
#It forms a mesenchymal ''pre - somitic mesoderm'' tissue starting at the anterior and moving posteriorly. | #It forms a mesenchymal ''pre - somitic mesoderm'' tissue starting at the anterior and moving posteriorly. | ||
#At the anterior, the pre - somitic mesoderm becomes organsised into blocks of cells called '''somitomeres'''. | #At the anterior, the pre - somitic mesoderm becomes organsised into blocks of cells called '''somitomeres'''. |
Revision as of 15:00, 10 September 2010
Introduction
In the verterbrate embryo, as the primitive streak is regressing the paraxial mesoderm divides into blocks of cells called somites. These divisions can be seen either side of the notochord. Somites are transient structures that will give rise to cells of the vertebrae and ribs, dermis of the dorsum, skeletal muscle of the body wall, back and limbs. Somites begin to develop at the anterior of the embryo first, and appear at regular intervals.
Somitogenesis
- Somitogenesis; the formation of somites.
- Paraxial mesoderm forms during gastrulation.
- It forms a mesenchymal pre - somitic mesoderm tissue starting at the anterior and moving posteriorly.
- At the anterior, the pre - somitic mesoderm becomes organsised into blocks of cells called somitomeres.
- Somitomeres are compacted and cells undergo a mesenchymal to epithelial transition.
- Somitomeres then separate from the rest of the pre - somitic mesoderm to from somites.
- As somites "bud off" at the anterior, more pre - somitic mesoderm develops posteriorly. Thus, the total length of the pre - somitic mesoderm remains constant.
- Pre - somitic mesoderm forms somites at regular intervals; one forms every 90 minutes.
- This suggests that cells have an intrinsic clock, goverened by the expression of a gene called "hairy".
- "Hairy" is expressed for 90 minutes at a time, and 12 cycles of 90 minutes each are required to make a somite.
- Somites are named beginning with the most newly formed somite. Therefore, the greater the number of the somite, the older the and closer to the anterior of the embryo it is.
- As cycle one of somite one ends, cycle one of somite two begins; one somite forms every minute.
Somite Maturation
- Somites differentiate to produce:
- Scelerotome - develops into axial skeleton, ribs and vertebrae.
- Dermomyotome - develops into myotome and dermotome.
- Myotome - develops into skeletal muscle of the limbs and body.
- Dermotome - develops into the dermis.
- Somites develop in an identical manner, although those at the posterior develop after those at the anterior.
- Somitic derivatives form according to the somite's position along the anterior - posterior axis.
- Formation of sclerotome, myotome and dermotome is not intrinsic, but governed by environmental signals.
- However, positional information is predetermined and intrinsic to the somite. Positional information is important to form the appropriate type of vertebrae, muscle and skin along the anterior - posterior axis.
- Positional information is governed by HOX gene expression. Each somite expresses a unique number of HOX genes.
- The chick has 12 somites.
Stages of somite maturation as observed along the anterior - posterior axis of the chick embryo:
Somites I - III
- These are the most newly formed somites, and are therefore at the posterior of the embryo.
- Somites are simple at this stage, with epithelial cells surrounding an inner cavity that is filled with mesenchymal pre - somitic mesoderm cells. These cells are called somitocoel cells.
- All cells are undergoing mitosis.
Somites IV - X
- Epithelial cells on the dorsal aspect of the somite develop into the dermomyotome.
- Epithelial cells of the ventral - medial portion of the somites develop into the sclerotome.
- Cells undergo an epithelial to mesenchymal transition.
- Somitocoel cells join these new mesenchymal cells to also become part of the sclerotome.
- The prospective sclerotome migrates to surround the notochord and neural tube.
- The scelerotome needs to be at the midline to form the vertebrae.
Somites VI Onward
- At the dorsal aspect of the somite, some cells of the dermomyotome are ingressing to form a new layer between the dermomytome and sclerotome; the myotome.
- Ingression occurs at two points; ventral - laterally and dorsal - medially.
- Ventral - lateral ingression develops into hypaxial muscle. This forms muscle of the body and limb.
- Dorsal - medial ingression develops intp the epaxial muscle. This forms the muscles of the dorsum.
- Myotomal cells do not have the ability to undergo mitosis. To increase cell numbers, cells are recruited from the dermomyotome.
- After all the myotomal cells have ingressed what remains of the dermomyotome becomes the dermotome.
- The dermotome, which lies dorsally in the somite, forms the dermis.
Somites XI Onward
- The sclerotome surrounds the notochord and breaks it down.
- Thus far, somite development has been segmented. Cells need to be adjacent to each other to function appropriately, so the sclerotome, in the ventral part of the somite, resegments.
- A fissure develops in the middle of the sclerotome, dividing each somite into an anterior and posterior portion.
- The anterior portion of one somite unites with the posterior portion of the adjacent somite - resegmentation.
- But; because only the sclerotome resegments, the muscle derived from the myotome remains to unite the original anterior and posterior pairs together.
- The sclerotome surrounds the neural tube and differentiates firstly to cartilage and secondly bone. It forms the vertebrae.