Setsunosuke Ihara scite author profile

Alkaline phosphatase (ALP) activity was detected in the restricted mesenchymal and epithelial regions in mouse vibrissal follicles. Its localization and strength dramatically changed during the hair cycle. Activity in the dermal papilla (DP) was moderate in very early anagen, reached a maximal level in early anagen, decreased at the proximal region of DP after mid anagen, and was kept at a low level during catagen. The bulbar dermal sheath showed intense ALP activity only in early anagen. Although most bulbar epithelium did not show ALP activity, germinative epidermal cells that were adjacent to the ALP-negative DP cells became ALP-positive in mid anagen and rearranged in a single layer so as to encapsulate the DP in mid catagen. During catagen, the outermost layer of bulbar epithelium became ALP-positive, which could be follicular epithelial precursors migrating from the bulge. Before the initiation of hair formation, ALP activity in the bulbar epithelium rapidly decreased and that in DP increased. These dynamic changes of ALP expression might be related to DP's functions in hair induction and also to reconstruction of the bulbar structure during the hair cycle.

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The subsets of keratinocytes responsible for covering open wounds in neonatal rat skin

Koizumi

Matsuzaki

Ihara

2004

Cell and Tissue Research

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Full-thickness excisional wounds were made on the dorsal skin of 1-day-old rats to elucidate from where the cells move into the defect and what kinds of cells they are. Immunohistochemical analyses of the wound sites revealed that the following two subsets of keratinocytes were the major contributors to reepithelialization: first, the cells at the forefront of the migrating epithelium, termed "leading edge cells," which expressed K14 keratin, known as basal cell-specific keratin, but not K6 or K10 keratins, so that they had probably moved from the basal cell layer; and, second, the cells tentatively termed "immature spinous cells," which expressed K14 and K6 but not K10, and formed an "ingrowth region" following the leading edge cells. These two kinds of cells moved to the open wound area, as a multilayered cell sheet. Fluorescent phalloidin staining experiments indicated that actin filaments became concentrated in the leading edge cells within 6 h postwounding (PW), whereas weak signals of actin filaments were detected in the immature spinous cells. Taken together, the present findings support the view that wound covering in neonatal rat skin is accomplished by a movement en masse of keratinocytes from the bottom half of the surrounding epidermis.

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Wound healing ability of Xenopus laevis embryos. I. Rapid wound closure achieved by bisectional half embryos

et al. 2005

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We examined wound closure in 'half embryos' produced by the transverse bisection of Xenopus laevis embryos at the primary eye vesicle stage. Both the anterior-and posterior-half embryos survived for more than 6 days, and grew into 'half tadpoles'. Histology and videomicroscopy revealed that the open wound in the half embryo was rapidly closed by an epithelial sheet movement in the wound marginal zone. The time-course of wound closure showed a downward convex curve: the wound area decreased to one-fifth of the original area within 30 min, and the wound continued to contract slowly thereafter. The rapidity of closure of the epidermis as well as the absence of inflammatory cells are typical features of an embryonic type of wound healing. There was a dorso-ventral polarity in the motility of the epidermis: the wound was predominantly closed by the ventral and lateral epidermis. The change in the contour of the wound edge with time suggested a complex mechanism involved in the wound closure that could not be explained only by the purse-string theory. The present experimental system would be a unique and useful model for analyses of cellular movements in the embryonic epithelia.

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