Histochemistry of the intercellular substance of the normal and psoriatic human epidermis

Development and characterization of new and scalable topical formulations containing N-acetyl-d-glucosamine-loaded solid lipid nanoparticles

N-Acetyl-d-glucosamine (NAG) has been recently considered for topical treatment of hyperpigmentation disorders due to its inhibitory effect on thyrosinase enzymes in melanocytes. NAG is a precursor of hyaluronic acid, increasing its amount in skin, and consequently, preserving the skin hydration and elasticity. It may also act as an emulsion stabilizer. Solid lipid nanoparticles (SLN) are advanced delivery systems successfully used in pharmaceutical and cosmetic formulations for the improvement of active molecules penetration into the skin. Therefore, this work aimed to develop and characterize stable and scalable topical formulations containing NAG-loaded SLN. NAG was incorporated in SLN which were prepared by two high shear homogenizers and characterized regarding its morphology and particle size by transmission electron microscopy and photon correlation spectroscopy, respectively. Oil emulgel and hydrogel were used as carriers of NAG-loaded SLN. Several parameters were evaluated, including the droplet size distribution, rheology, pH and topical delivery by different techniques. It was observed that SLN size was significantly dependent on NAG incorporation and homogenization process. Most tested SLN parameters appeared to be quite suitable, that is, spherical and well-defined SLN with approximately 258 nm and -30 mV. Hereafter, both gels containing SLN presented a pseudoplastic flow. Emulgel formulation containing NAG-loaded SLN allowed a higher NAG permeation through the SC compared to the respective control (about 0.8 μgcm^-2h^-1). According to the results obtained, it can be suggested that NAG acts as an emulsion stabilizer. This stabilization was also particularly dependent on the homogenizer type which is quite important for scale-up process. This study demonstrated the potential of scalable SLN formulations to improve NAG topical delivery contributing to the improvement of skin properties on several skin disorders.

The binding of Helix pomatia and Ulex europeus agglutinins to normal and psoriatic skin

We have compared the staining patterns of Ulex europeus agglutinin (UEA) I-FITC and Helix pomatia agglutinin (HPA)-FITC on normal and psoriatic epidermis in order to follow the production of the binding sites as a function of maturation. We have further characterized them with respect to solvent extraction and enzyme digestion. The bandlike pattern of membrane staining by UEA I in the upper spinous and granular layer cells of normal epidermis is lost in psoriasis. Instead there is a fainter cytoplasmic staining which is largely sensitive to chloroform/methanol extraction, and thus presumably is glycolipid in nature. Epidermal binding of HPA to normal skin sections is mainly seen in cell membranes. It spares the basal layer and then increases from the suprabasal region to the granular layer. HPA staining in the spinous layer is destroyed by extraction with Triton X-100. In contrast, binding to the membranes of cells in psoriatic epidermis is triton-resistant. The result indicates the production of a component early in the maturation pathway which has no counterpart in normal skin. HPA binding to the spinous cells of symptomless skin from psoriatic patients shows decreased sensitivity to Triton X-100 by comparison with normal. The results are discussed in terms of changes in the pathway of keratinocyte maturation in psoriasis.

Ultrastructural studies on migrating epidermal cells during the wound healing stage of regeneration in the adult newt, Notophthalmus viridescens

The ultrastructure of the epidermal cells which migrate over the wound surface of the amputated limb of the adult newt, Notophthalmus viridescens, was observed with transmission (TEM) and scanning (SEM) electron microscopy. In order to aid in the visualization of polyanionic surface materials on the wound epithelium and wound surface with TEM, the basic dye, ruthenium red, was introduced into the fixatives and buffer. Control limbs were processed without ruthenium red. Shortly after amputation, basal cells at the wound margin possessed elongated, flattened profiles with long pseudopodial projections (lamellipodia and filopodia) that appeared to make contact with the fibrin exudate covering the stump tissues. Epidermal cells proximal to the site of amputation were also in a state of mobilization. Large intercellular spaces and a reduction in the number of desmosomes were observed in the migrating cells. Epidermal cell nuclei became characteristically euchromatic with well-developed nucleoli. Microfilaments were seen within the cytoplasm, extending toward the plasma membrane of cellular processes. Phagocytosed material was also present in the migrating cells. By approximately 9 hours post-amputation, wound closure was complete, and the wound epithelium consisted of three to four cell layers of a non-cornified epidermis. Generally, the amount of extracellular material present on the surface and in the enlarged intercellular spaces of migrating epidermal cells remained the same throughout the period of wound closure. A layer of polyanionic material was observed consistently over the fibrin meshwork covering the wound surface with TEM.