The extracellular matrix contributes to mechanotransduction in uterine fibroids.


Autoria(s): Leppert, PC; Jayes, Friederike Luking; Segars, JH
Cobertura

United States

Data(s)

2014

Resumo

The role of the extracellular matrix (ECM) and mechanotransduction as an important signaling factor in the human uterus is just beginning to be appreciated. The ECM is not only the substance that surrounds cells, but ECM stiffness will either compress cells or stretch them resulting in signals converted into chemical changes within the cell, depending on the amount of collagen, cross-linking, and hydration, as well as other ECM components. In this review we present evidence that the stiffness of fibroid tissue has a direct effect on the growth of the tumor through the induction of fibrosis. Fibrosis has two characteristics: (1) resistance to apoptosis leading to the persistence of cells and (2) secretion of collagen and other components of the ECM such a proteoglycans by those cells leading to abundant disposition of highly cross-linked, disoriented, and often widely dispersed collagen fibrils. Fibrosis affects cell growth by mechanotransduction, the dynamic signaling system whereby mechanical forces initiate chemical signaling in cells. Data indicate that the structurally disordered and abnormally formed ECM of uterine fibroids contributes to fibroid formation and growth. An appreciation of the critical role of ECM stiffness to fibroid growth may lead to new strategies for treatment of this common disease.

Formato

783289 - ?

Identificador

http://www.ncbi.nlm.nih.gov/pubmed/25110476

Obstet Gynecol Int, 2014, 2014 pp. 783289 - ?

1687-9589

http://hdl.handle.net/10161/12662

Idioma(s)

eng

Relação

Obstet Gynecol Int

10.1155/2014/783289

Tipo

Journal Article