TGFβ3: Difference between revisions

Latest revision as of 21:00, 12 March 2025

TGFβ3 (Transforming Growth Factor Beta 3) is a member of the Transforming Growth Factor Beta (TGFβ) superfamily, which is involved in the regulation of cell growth, differentiation, and development in both embryonic and adult tissues. TGFβ3 is one of three isoforms of TGFβ, the others being TGFβ1 and TGFβ2.

Structure and Function[edit]

TGFβ3 is a cytokine that plays a crucial role in embryogenesis, tissue homeostasis, and wound healing. It is synthesized as a large precursor molecule that is proteolytically processed to release the mature, active form. The active TGFβ3 protein functions by binding to a complex of TGFβ receptors, which then activate intracellular signaling pathways, including the SMAD pathway.

Role in Development[edit]

During embryonic development, TGFβ3 is essential for the proper formation of the palate, lungs, and heart. It is particularly important in the process of epithelial-mesenchymal transition (EMT), which is critical for the development of various tissues and organs.

Clinical Significance[edit]

Mutations or dysregulation of TGFβ3 can lead to various developmental disorders and diseases. For instance, defects in TGFβ3 signaling are associated with cleft palate, a common congenital deformity. Additionally, TGFβ3 has been implicated in the progression of certain cancers, fibrosis, and cardiovascular diseases.

Research and Therapeutic Potential[edit]

TGFβ3 is a target of interest in regenerative medicine and tissue engineering due to its role in promoting wound healing and scar formation. Researchers are exploring the potential of TGFβ3 in developing therapies for fibrotic diseases and enhancing tissue repair.

Related Pages[edit]

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-#REDIRECT [[Transforming growth factor, beta 3]]
+'''TGFβ3''' (Transforming Growth Factor Beta 3) is a member of the [[Transforming Growth Factor Beta]] (TGFβ) superfamily, which is involved in the regulation of cell growth, differentiation, and development in both embryonic and adult tissues. TGFβ3 is one of three isoforms of TGFβ, the others being [[TGFβ1]] and [[TGFβ2]].
+==Structure and Function==
+TGFβ3 is a [[cytokine]] that plays a crucial role in [[embryogenesis]], [[tissue homeostasis]], and [[wound healing]]. It is synthesized as a large precursor molecule that is proteolytically processed to release the mature, active form. The active TGFβ3 protein functions by binding to a complex of [[TGFβ receptors]], which then activate intracellular signaling pathways, including the [[SMAD]] pathway.
+==Role in Development==
+During [[embryonic development]], TGFβ3 is essential for the proper formation of the [[palate]], [[lungs]], and [[heart]]. It is particularly important in the process of [[epithelial-mesenchymal transition]] (EMT), which is critical for the development of various tissues and organs.
+==Clinical Significance==
+Mutations or dysregulation of TGFβ3 can lead to various developmental disorders and diseases. For instance, defects in TGFβ3 signaling are associated with [[cleft palate]], a common congenital deformity. Additionally, TGFβ3 has been implicated in the progression of certain [[cancers]], [[fibrosis]], and [[cardiovascular diseases]].
+==Research and Therapeutic Potential==
+TGFβ3 is a target of interest in regenerative medicine and [[tissue engineering]] due to its role in promoting [[wound healing]] and [[scar formation]]. Researchers are exploring the potential of TGFβ3 in developing therapies for [[fibrotic diseases]] and enhancing tissue repair.
+==Related Pages==
+* [[Transforming Growth Factor Beta]]
+* [[TGFβ1]]
+* [[TGFβ2]]
+* [[SMAD pathway]]
+* [[Cleft palate]]
+* [[Epithelial-mesenchymal transition]]
+* [[Cytokine]]
+* [[Embryogenesis]]
+[[Category:Growth factors]]
+[[Category:Cytokines]]
+[[Category:Developmental biology]]
+{{hospital-stub}}