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Lateral plate mesoderm

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Lateral plate mesoderm
Transverse section of a chick embryo of forty-five hours' incubation.
* Axial mesoderm: yellow, at notochord.
* Paraxial mesoderm: red, at somite.
* Intermediate mesoderm: purple, near Wolffian duct.
* Lateral plate mesoderm: purple, divided into "Somatic mesoderm" and "Splanchic mesoderm".
Diagram of vertebrate embryo showing divided lateral plate mesoderm forming the intraembryonic coelom. Somatic mesoderm at outer layer, splanchnic at inner layer.
Details
Carnegie stage9
PrecursorMesoderm
Gives rise toSomatopleure, splanchnopleure
Identifiers
Latinmesoderma laminae lateralis
TEplate mesoderm_by_E5.0.3.0.0.0.2 E5.0.3.0.0.0.2
Anatomical terminology

The lateral plate mesoderm is the mesoderm that is found at the periphery of the embryo. It is to the side of the paraxial mesoderm, and further to the axial mesoderm. The lateral plate mesoderm is separated from the paraxial mesoderm by a narrow region of intermediate mesoderm. The mesoderm is the middle layer of the three germ layers, between the outer ectoderm and inner endoderm.

During the third week of embryonic development the lateral plate mesoderm splits into two layers forming the intraembryonic coelom.

The outer layer of lateral plate mesoderm adheres to the ectoderm to become the somatic or parietal layer known as the somatopleure. The inner layer adheres to the endoderm to become the splanchnic or visceral layer known as the splanchnopleure.

Development

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The lateral plate mesoderm will split into two layers, the somatopleuric mesenchyme, and the splanchnopleuric mesenchyme.

  • The somatopleuric layer forms the future body wall.
  • The splanchnopleuric layer forms the circulatory system.

Spaces within the lateral plate are enclosed and forms the intraembryonic coelom.

It is formed by the secretion of BMP-4 by the ectoderm.[1]

Serosal mesoderms

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Lateral plate mesoderm gives rise to the serosal mesoderms.[2]

  • forms a ventral layer associated with endoderm, the splanchnopleuric mesoderm. This forms the viscera and heart
  • forms a dorsal layer associated with ectoderm, the somatopleuric mesoderm. This forms the body wall lining and dermis.
  • Abdominal portion becomes contained in dorsal mesentery, part of the serosal mesoderm.
  • When the two layers form, a cardiogenic plate is visible. Later, this will form the myocardial primordium, which will contribute to the tubular heart.

Cavities

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In the 4th week the coelom divides into pericardial, pleural and peritoneal cavities.[2]

  • This will be translocated later into the diaphragm and ventral mesentery.
  • Divides the coelom into primitive pericardial and peritoneal cavities
  • Pleuropericardial folds appear on the lateral wall of primitive pericardial cavity, which will eventually cause a partition to form the pericardial and pleural cavities.
  • Communication between these partitions formed by the pericardioperitoneal canals. However, pleuroperitoneal membranes will grow to fuse with the septum transversum to close off these canals.
  • At day 22, lung buds form, remaining ensheathed in a splanchnopleuric mesoderm

Limb development

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Cells from the lateral plate mesoderm and the myotome migrate to the limb field and proliferate to create the limb bud. The lateral plate cells produce the cartilaginous and skeletal portions of the limb while the myotome cells produce the muscle components. The lateral plate mesodermal cells secrete a fibroblast growth factor (FGF7 and FGF10, presumably) to induce the overlying ectoderm to form an important organizing structure called the apical ectodermal ridge (AER). The AER reciprocatively secretes FGF8 and FGF4 which maintains the FGF10 signal and induces proliferation in the mesoderm.[3] The position of FGF10 expression is regulated by Wnt8c in the hindlimb and Wnt2b in the forelimb. The forelimb and the hindlimb are specified by their position along the anterior/posterior axis and possibly by two T-box containing transcription factors: Tbx5 and Tbx4, respectively.

Additional images

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See also

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References

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Public domain This article incorporates text in the public domain from page 50 of the 20th edition of Gray's Anatomy (1918)

  1. ^ Tonegawa A, Funayama N, Ueno N, Takahashi Y (1997). "Mesodermal subdivision along the mediolateral axis in chicken controlled by different concentrations of BMP-4". Development. 124 (10): 1975–84. doi:10.1242/dev.124.10.1975. PMID 9169844.
  2. ^ a b Larsen, William J. (1998). Essentials of human embryology. Edinburgh: Churchill Livingstone. ISBN 0-443-07514-X.
  3. ^ Ohuchi, Hideyo; Nakagawa, Takashi; Yamamoto, Atsuyo; Araga, Akihiro; Ohata, Takeshi; Ishimaru, Yoshiyasu; Yoshioka, Hidefumi; Kuwana, Takashi; Nohno, Tsutomu; Yamasaki, Masahiro; Itoh, Nobuyuki; Noji, Sumihare (1 June 1997). "The mesenchymal factor, FGF10, initiates and maintains the outgrowth of the chick limb bud through interaction with FGF8, an apical ectodermal factor". Development. 124 (11): 2235–2244. doi:10.1242/dev.124.11.2235. PMID 9187149. Retrieved 8 March 2023.
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