M Carmen Barrio scite author profile

The Tgf-β₃ null mutant mouse palate presents several cellular anomalies that lead to the appearance of cleft palate. One of them concerns the cell proliferation of both the palatal medial edge epithelium and mesenchyme. In this work, our aim was to determine whether there was any variation in the presence/distribution of several cell proliferation-related molecules that could be responsible for the cell proliferation defects observed in these palates. Our results showed no difference in the presence of EGF-R, PDGF-A, TGF-β₂, Bmp-2, and Bmp-4, and differences were minimal for FGF-10 and Shh. However, the expression of EGF and Msx-1 changed substantially. The shift of the EGF protein expression was the one that most correlated with that of cell proliferation. This molecule is regulated by TGF-β₃, and experiments blocking its activity in culture suggest that EGF misexpression in the Tgf-β₃ null mutant mouse palate plays a role in the cell proliferation defect observed.

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X-ray micro-computed tomography of postmortem brain tissue using potassium dichromate as a contrast agent

Herrera

Notario²,

Barrio³

et al. 2018

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Epidermal Growth Factor Impairs Palatal Shelf Adhesion and Fusion in the Tgf-β3 Null Mutant

Barrio

Río

Murillo

et al. 2014

Cells Tissues Organs

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The cleft palate presented by transforming growth factor-β3 (Tgf-β₃) null mutant mice is caused by altered palatal shelf adhesion, cell proliferation, epithelial-to-mesenchymal transformation and cell death. The expression of epidermal growth factor (EGF), transforming growth factor-β1 (Tgf-β₁) and muscle segment homeobox-1 (Msx-1) is modified in the palates of these knockout mice, and the cell proliferation defect is caused by the change in EGF expression. In this study, we aimed to determine whether this change in EGF expression has any effect on the other mechanisms altered in Tgf-β₃ knockout mouse palates. We tested the effect of inhibiting EGF activity in vitro in the knockout palates via the addition of Tyrphostin AG 1478. We also investigated possible interactions between EGF, Tgf-β₁ and Msx-1 in Tgf-β₃ null mouse palate cultures. The results show that the inhibition of EGF activity in Tgf-β₃ null mouse palate cultures improves palatal shelf adhesion and fusion, with a particular effect on cell death, and restores the normal distribution pattern of Msx-1 in the palatal mesenchyme. Inhibition of TGF-β₁ does not affect either EGF or Msx-1 expression.

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M Carmen Barrio

Interactions between TGF-β1 and TGF-β3 and their role in medial edge epithelium cell death and palatal fusion in vitro

Analysis of the Presence of Cell Proliferation-Related Molecules in the <i>Tgf-</i>β<sub><i>3</i></sub> Null Mutant Mouse Palate Reveals Misexpression of EGF and <i>Msx-1</i>

X-ray micro-computed tomography of postmortem brain tissue using potassium dichromate as a contrast agent

Epidermal Growth Factor Impairs Palatal Shelf Adhesion and Fusion in the <b><i>Tgf-β</i></b><sub>3</sub> Null Mutant

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