Expression of mesenchymal stem cell marker CD90 on dermal sheath cells of the anagen hair follicle in canine species

The dermal sheath (DS) of the hair follicle is comprised by fibroblast-like cells and extends along the follicular epithelium, from the bulb up to the infundibulum. From this structure, cells with stem characteristics were isolated: they have a mesenchymal origin and express CD90 protein, a typical marker of mesenchymal stem cells. It is not yet really clear in which region of hair follicle these cells are located but some experimental evidence suggests that dermal stem cells are localized prevalently in the lower part of the anagen hair follicle.As there are no data available regarding DS stem cells in dog species, we carried out a morphological analysis of the hair follicle DS and performed both an immunohistochemical and an immunocytochemical investigation to identify CD90⁺ cells. We immunohistochemically evidenced a clear and abundant positivity to CD90 protein in the DS cells located in the lower part of anagen hair follicle. The positive cells showed a typical fibroblast-like morphology. They were flat and elongated and inserted among bundles of collagen fibres.The whole structure formed a close and continuous sleeve around the anagen hair follicle. Our immunocytochemical study allowed us to localize CD90 protein at the cytoplasmic membrane level.Key words: CD90, mesenchymal stem cells, hair follicle, dog.The hair follicle represents an important stem cell niche in the skin. It contains dermal and epithelial stem populations that display distinct properties and localization. While epithelial stem cells reside in the middle region of the hair follicle outer root sheath (Schneider et al., 2009; Lyle et al., 1998; Cotsarelis et al., 1990), dermal stem cells are located in the dermal sheath (DS) (Jahoda, 2003; Jahoda and Reynolds, 2001).The dermal sheath, or fibrous root sheath, is a layer of dense connective tissue that extends along the hair follicle, from the bulb up to the infundibulum. In the anagen hair follicle, it is comprised of mesenchymal cells located among collagen and elastic fibres.The cells are flat and elongated while collagen fibres form a circular inner layer and a longitudinal outer layer in the lower part of hair follicle (VonTscharner and Suter, 1994; Jahoda et al., 1992). At the base of the hair follicle, the DS is connected to the dermal papilla (Scott et al., 2000). The basement membrane, or glassy membrane, separates the DS from the epithelial component of the hair follicle (Scott et al., 2000).Follicular dermal stem cells have a mesenchymal origin and share many properties common to bone marrow-derived mesenchymal stem cells (MSCs) (Hoogduijn et al., 2006). They express the MSC cell-surface marker CD90, show a high colony forming unit ability and can differentiate into several mesenchymal lineages, such as osteoblasts, adipocytes, chondrocytes and myocytes (Hoogduijn et al., 2006; Jahoda et al., 2003). They also express neuroprogenitor markers (Hoogduijn et al., 2006) and, finally, they can repopulate the haematopoietic system (Lako et al., 2002). In the literature, we can find different information about stem cell localization: the whole dermal sheath, the peri-bulbar dermal sheath, the dermal papilla (Hoogduijn et al., 2006, McElwee et al., 2003, Gharzi et al., 2003, Jahoda et al., 2003.)CD90 (Thy-1) is a small GPI-anchored protein localized in the outer leaflet of the cell membrane (Low and Kincade, 1985). This protein is present in a large number of tissues and cells, even if a great species variation has been described (Mansour Haeryfar, 2004; Tokugawa et al., 1997; McKenzle and Fabre, 1981). CD90 plays a role in cell-cell interaction events, including intracellular adhesion and cell recognition during development (Saalbach et al., 2000; Morris, 1985), and is considered an important stem cell marker; for this last reason it is commonly used to identify mesenchymal stem cells in vitro (Kern et al., 2007; Yoshimura et al., 2006; Le Blanc and Ringdén, 2006; Pittenger et al., 1999). Furthermore, it has been identified in other kinds of stem cells such as haematopoietic progenitor cells (Craig et al., 1993) and hepatic progenitor cells in the human fetal liver (Masson et al., 2006).The hair follicle is the focus of increasing interest because it contains well defined stem cell populations that exhibit various developmental properties. We retain that in dogs, as already demonstrated in other species (Hoogduijn et al., 2006; Zhang et al., 2006; Jahoda et al., 2003; Lako et al., 2002), this organ may be a suitable and accessible source for both epithelial and mesenchymal stem cells that may be isolated and in vitro cultured. Since it is possible to take skin samples without injuring the patient, we chose the hair follicle to study and identify stem cells with the future purpose of using them in regenerative medicine.Dogs are affected by several skin diseases and some of them may be related to alterations of somatic stem cells. We retain that the study of hair follicle stem cell biology may improve our knowledge of etiology and pathogenesis of these skin diseases.In previous works we investigated the stem cells in dog hair follicles; we identified the location of putative epithelial stem cells at the isthmus and described the bulge-like region (Pascucci et al., 2006; Mercati et al., 2008). To the authors’ knowledge, there are no data available neither concerning the localization of DS stem cells nor concerning the expression of CD90 in the hair follicle as regards the canine species. Therefore, in this study, we described the morphological characteristics of DS cells and examined the immunohistochemical localization of CD90 protein in dog hair follicles with both light and transmission electron microscopy. The aim of our study is to observe the dermal sheath cells encompassing the hair follicle and to determine where CD90⁺ cells reside. CD90 is one of the main markers used to identify mesenchymal stem cells and it has been observed in stem cells isolated from the dermal sheath of hair follicles (Hoogduijn et al.,2006). For this reason, we suppose that CD90 protein can help us to identify the hair follicle dermal stem compartment in dog.