The use of hormonal agents in the treatment of acne.

Hormones and androgens play an important role in the pathogenesis of acne. Multiple hormonal modulators are now available for the treatment of acne. The efficacies and side effects of currently available hormonal agents are reviewed here including the use of oral contraceptives, spironolactone, flutamide, cyproterone acetate, finasteride, and cortexolone 17α-propionate. Hormonal therapies are an efficacious treatment option for acne among females. With the growing need to reduce antibiotic exposures, hormonal therapies should be more widely studied and incorporated into acne treatment strategies.

Role of sebaceous glands in inflammatory dermatoses.

Skin is an important interface between the host and its environment. Inflammatory dermatoses often have disrupted skin barrier function, rendering patients more susceptible to allergenic triggers leading to an exaggerated immune response. The skin surface lipid film, an important component of the skin barrier, comprises a mixture of keratinocyte and sebaceous gland-derived lipids. Recent evidence demonstrated that defective keratinocyte lipid synthesis predisposes for the development of atopic dermatitis. However, the important role of sebaceous gland-derived lipids in skin inflammatory diseases may be underrecognized. This overview focuses on the importance of the contribution of sebaceous glands to barrier function. Sebaceous gland alteration may play a role in the pathogenesis of common skin diseases including acne vulgaris, atopic dermatitis, psoriasis, rosacea, and seborrheic dermatitis.

Plant-based modulation of Toll-like receptors: an emerging therapeutic model.

Plant-based extracts present a large source of natural immune modulators, many of which have been used in traditional medicine for centuries. Recent research efforts have identified plant extracts as potential modulators of Toll-like receptors (TLRs), the first responders in immunological defenses in normal and disease conditions. This review aims to provide a comprehensive discussion of the modulatory effects of plant-based extracts on TLR expression, signaling, and activation. We organized the review by extraction solvent and plant part showing how they impacted the TLRs. The phytochemical components of the extracts discovered to enable these effects are diverse and vary based on the plant part. The role of the extraction solvent and differences between the different phytochemical components, such as phenolics and polysaccharides, are discussed. Plant extracts hold promising treatments for controlling inflammation and, conversely, for stimulating the immune response. Further research is needed to identify bioactive components of the extracts, mechanisms of their action, and in vivo pharmacological effects using appropriate disease models to ultimately adapt the findings for clinical use.

Rapid cytosolic delivery of luminescent nanocrystals in live cells with endosome-disrupting polymer colloids.

Luminescent nanocrystals hold great potential for bioimaging because of their exceptional optical properties, but their use in live cells has been limited. When nanocrystals enter live cells, they are taken up in vesicles. This vesicular sequestration is persistent and precludes nanocrystals from reaching intracellular targets. Here, we describe a unique, cationic core-shell polymer colloid that translocates nanocrystals to the cytosol by disrupting endosomal membranes via a low-pH triggered mechanism. Confocal fluorescence microscopy and flow cytometry indicate that picomolar concentrations of quantum dots are sufficient for cytosolic labeling, with the process occurring within a few hours of incubation. We anticipate a host of advanced applications arising from efficient cytosolic delivery of nanocrystal imaging probes: from single particle tracking experiments to monitoring protein-protein interactions in live cells for extended periods.