Ectopic expression of c-Myc in the skin affects the hair growth cycle and causes an enlargement of the sebaceous gland.

BACKGROUND: The hair follicle continually undergoes dynamic remodelling in a cyclical manner involving tightly coordinated patterns of cell proliferation, differentiation and apoptosis. The oncoprotein c-Myc is a key regulator of these events in epidermal keratinocytes, but its importance in the hair growth cycle has not previously been determined. OBJECTIVES: To determine the role of c-Myc in the hair growth cycle. METHODS: We characterized the hair follicle phenotype of transgenic mice that permit expression of a switchable form of c-Myc (c-Myc-ER) in the suprabasal epithelial layers of the epidermis and hair follicle. RESULTS: c-Myc activation increased epithelial cell proliferation in the outer root sheath and distal hair follicle, without any substantial alteration in levels of apoptosis. Moreover, chronic c-Myc activation resulted in marked desynchronization of the murine hair growth cycle, uncoupling of hair cycle-related skin thickness and enlargement of the sebaceous gland. CONCLUSIONS: These data implicate c-Myc in the control of hair growth cycling and hair cycle-related epidermal and sebaceous gland homeostasis. We suggest that c-Myc may be activating follicular stem cells either directly or indirectly and that this has important implications for control of the 'hair cycle clock', hair growth and epidermal maintenance.

Human beta defensin-1 and -2 expression in human pilosebaceous units: upregulation in acne vulgaris lesions.

A rich residential microflora is harboured by the distal outer root sheath of the hair follicle and the hair canal - normally without causing skin diseases. Although the basic mechanisms involved in the development of inflammation during acne vulgaris remain unclear, microbial agents might play an important role in this process. In this study we have analyzed by in situ hybridization and immunohistochemistry the expression patterns of two antimicrobial peptides, human beta defensin-1 and human beta defensin-2, in healthy human hair follicles as well as in perilesional and intralesional skin of acne vulgaris lesions such as comedones, papules, and pustules. Strong defensin-1 and defensin-2 immunoreactivity was found in all suprabasal layers of the epidermis, the distal outer root sheath of the hair follicle, and the pilosebaceous duct. Marked defensin-1 and defensin-2 immunoreactivity was also found in the sebaceous gland and in the basal layer of the central outer root sheath including the bulge region. The majority of acne biopsies displayed a marked upregulation of defensin-2 immunoreactivity in the lesional and perilesional epithelium - in particular in pustules - and a less marked upregulation of defensin-1 immunoreactivity. The upregulation of beta-defensin expression in acne vulgaris lesions compared to controls suggests that beta-defensins may be involved in the pathogenesis of acne vulgaris.

Contrasting localization of c-Myc with other Myc superfamily transcription factors in the human hair follicle and during the hair growth cycle.

The mammalian hair follicle is a highly dynamic skin appendage that undergoes repeated cycles of growth and regression, involving closely co-ordinated regulation of cell proliferation, differentiation, and apoptosis. The Myc superfamily of transcription factors have been strongly implicated in the regulation of these processes in many tissues. Using immunohistochemistry, we have investigated the patterns of c-Myc, N-Myc, Max, and Mad1-4 expression at different stages of the human hair growth cycle. N-Myc, Max, Mad1, and Mad3 immunoreactivity was detected in the epidermis and the epithelium of both anagen and telogen hair follicles. Three distinct patterns of hair follicle c-Myc immunoreactivity were observed. In the infundibulum, c-Myc staining was predominantly in the basal layers, with little detectable immunoreactivity in the terminally differentiating suprabasal layers; this pattern was similar to that seen in the epidermis. In contrast, c-Myc expression in the follicle bulb was found both in the proliferating germinative epithelial cells and in the terminally differentiating matrix cells that give rise to the hair fiber. Finally, intense c-Myc immunoreactivity was detected in the bulge region of the outer root sheath. Using the C8/144B antibody as a bulge marker, we confirmed that c-Myc immunoreactivity in the outer root sheath correlates with the putative hair follicle stem cell compartment. c-Myc expression in the bulge was independent of the hair growth cycle stage. Our data suggest that Myc superfamily members serve different functions in separate epithelial compartments of the hair follicle and may play an important role in determining cell fate within the putative stem cell compartment.

Immunohistochemical analysis of burn depth.

Clinical assessment of burns is accurate for very deep and very shallow burns, but it has been suggested that there is a high degree of inaccuracy in the assessment of dermal burns. Histologic analysis has, by some, been considered too time-consuming for routine diagnosis. It also requires an expert skin histopathologist to categorize the depth. With the use of an in vitro model, we have found the use of cryosections and an immunofluorescent staining method to be quicker and more clear-cut than standard light microscopic techniques. We believe this method plays a role in helping to define burns that would benefit from early excision and grafting. However, further investigation is required to transform the method from an experimental model to standard practice in the clinical setting.