Acute barrier perturbation abolishes the Ca2+ and K+ gradients in murine epidermis: quantitative measurement using PIXE. Read more about Acute barrier perturbation abolishes the Ca2+ and K+ gradients in murine epidermis: quantitative measurement using PIXE.
Differential regulation of vitamin D responsive elements in normal and transformed keratinocytes. Read more about Differential regulation of vitamin D responsive elements in normal and transformed keratinocytes.
Formation of the epidermal calcium gradient coincides with key milestones of barrier ontogenesis in the rodent. Read more about Formation of the epidermal calcium gradient coincides with key milestones of barrier ontogenesis in the rodent.
Glucosylceramides stimulate mitogenesis in aged murine epidermis. Read more about Glucosylceramides stimulate mitogenesis in aged murine epidermis.
Keratinocyte differentiation is stimulated by activators of the nuclear hormone receptor PPARalpha. Read more about Keratinocyte differentiation is stimulated by activators of the nuclear hormone receptor PPARalpha.
Permeability barrier disruption coordinately regulates mRNA levels for key enzymes of cholesterol, fatty acid, and ceramide synthesis in the epidermis. Read more about Permeability barrier disruption coordinately regulates mRNA levels for key enzymes of cholesterol, fatty acid, and ceramide synthesis in the epidermis.
Epithelial-stromal interactions modulating penetration of matrigel membranes by HPV 16-immortalized keratinocytes. Read more about Epithelial-stromal interactions modulating penetration of matrigel membranes by HPV 16-immortalized keratinocytes.
Keratinocyte K+ channels mediate Ca2+-induced differentiation. Read more about Keratinocyte K+ channels mediate Ca2+-induced differentiation.
UVB-induced alterations in permeability barrier function: roles for epidermal hyperproliferation and thymocyte-mediated response. Read more about UVB-induced alterations in permeability barrier function: roles for epidermal hyperproliferation and thymocyte-mediated response.
Intrinsically aged epidermis displays diminished UVB-induced alterations in barrier function associated with decreased proliferation. Read more about Intrinsically aged epidermis displays diminished UVB-induced alterations in barrier function associated with decreased proliferation.
