Expression of basement membrane components through morphological changes in the hair growth cycle

The amount and distribution of fibronectin associated with hair follicles was found to vary during the hair growth cycle in the rat. Immunocytochemical staining of follicles in mid-late anagen (the growth stage) revealed the presence of fibronectin in the dermal papilla matrix, in the basement membrane separating this from the epithelial cells of the hair bulb, and in the basement membrane and connective tissue sheath which underly the cells of the outer root sheath. Early in catagen, the transitional stage, staining of the dermal papilla matrix disappeared. Fibronectin persisted in the basement membrane and connective tissue sheath, which undergo corrugation and apparent thickening in catagen. After follicle shortening, the telogen (resting) stage is reached, at which point fibronectin staining was found to be minimal, being restricted to the basement membrane around the secondary germ. The onset of anagen, involving cell division and follicle elongation, was associated with a great increase in the amount of fibronectin in this zone and in and around the dermal papilla. Analysis of entry into anagen by [3H]thymidine incorporation and autoradiography revealed that growth could be detected before the increase in fibronectin expression. However, growing cells, even in a suprabasal position, always had some fibronectin at their surface. Immunoelectron microscopy of early anagen follicles confirmed the light microscopic findings and also showed that fibronectin was present in small vesicles close to the surface of dermal papilla and some epithelial cells. Increased deposition of laminin and type IV collagen in early anagen follicles was also noted, emphasizing the importance of basement membrane components during morphogenetic events in vivo.     

微等离子束对豚鼠皮肤超微结构分析和羟脯氨酸测定

目的观察微等离子束对豚鼠皮肤胶原组织作用效应的组织学和超微结构变化及羟脯氨酸含量测定,探讨微等离子束的作用机理。方法选择15只豚鼠,每只豚鼠背部划分为实验侧和空白对照侧2个等分区域,给予60W/10 kJ微等离子束照射,于作用后即刻、1周后和1月后分别切取实验侧及空白对照部位皮肤行组织病理维多利亚-立春红染色,透射电镜分析和羟脯氨酸检测试剂盒进行含量测定。结果 60 W/10 kJ即刻表现为表皮局灶性出现点阵状改变,部分表皮出现汽化缺失或者坏死变性,真皮浅层胶原组织出现点阵化表现和明显均质化;特殊染色显示微等离子束主要影响真皮胶原纤维,形成局灶性胶原纤维凝集和变性。1周后皮肤浅层胶原组织结构逐渐致密,排列有序,有少量组织细胞。1月后皮肤浅层胶原组织明显增厚,胶原纤维增粗并排列致密,弹力纤维呈局灶性增粗。透射电镜显示微等离子束作用后表皮细胞较完整,细胞间结构正常,但真皮胶原丧失正常结构,细胞结构消失,大量细胞凋亡明显,1月后仍可见少量细胞凋亡的表现但胶原结构逐渐恢复,浅层胶原纤维排列明显致密。羟脯氨酸测定显示微等离子束作用1周后羟脯氨酸含量要高于作用之前,但是差异性不具有统计学意义（P〉0.05）;1月后羟脯氨酸含量要明显高于作用前,差异性具有统计学意义（P〈0.05）。结论微等离子束对豚鼠皮肤胶原组织作用有明显的刺激效应,其主要靶组织为真皮胶原组织,可以明显促进皮肤新生胶原的增生。     

Influence of serum on adult and fetal dermal fibroblast migration adhesion, and collagen expression

Summary The wound healing response to injury can be affected by many factors such as cell migration and extracellular matrix elaboration. The objective of this study was to examine the serum- and age-dependent effects on cell migration, adhesion, and collagen expression by skin fibroblasts. Dermal fibroblasts were isolated and plated with and without serum for up to 7 d. Cell migration was determined by quantitative image analysis, adhesion was quantified using a centrifugation assay, and collagen expression was assessed by PCR and immunohistochemical staining. Both adult and fetal fibroblasts migrated significantly faster in serum-containing medium compared to serum-free medium. There was no significant difference in migration between the two cell types in either serum-containing or serum-free medium. There was no significant difference in adhesion in the presence of serum, although there was a greater faction of adherent fetal skin fibroblasts than adult fibroblasts in serum-free medium. Moreover, the adherent fraction of fetal fibroblasts in serum-free medium was not significantly different from that in serum-containing medium, suggesting that fetal skin fibroblasts possess serum-independent adhesion properties. Collagen mRNA expression was significantly up-regulated in serum-free compared to serum-containing medium for both cell types. With respect to collagen immunohistochemistry, both dermal fibroblast populations exhibited greater type I collagen compared to type III collagen staining. Quantitative assessment of collagen staining indicated significantly enhanced type I collagen secretion in the presence of serum by fetal skin fibroblasts. These findings suggest that intrinsic cellular characteristics may govern the observed differences in adult and fetal wound healing.     

Immunofluorescent localization of collagen types I,III and IV,fibronectin, laminin,and basement membrane proteoglycan in developing mouse skin

Summary The distribution of various extracellular matrix components was studied in frozen sections of embryonic (14–18 days) and early postnatal (birth and 4 days post parturn) dorsal mouse skin using monospecific antibodies and indirect immunofluorescence. Basement membrane zone components — type IV collagen, laminin and heparan sulphate proteoglycan — were found to be uniformly and unchangingly distributed along the dermal-epidermal junction. In contrast, the distribution of interstitial matrix components — types I and III collagen, and fibronectin — was heterogeneous and varied with the stages of hair development. Collagens became sparse and were eventually completely removed from the prospective dermal papilla and from a one-cell-thick sheath of dermal cells around hair buds. They remained absent from the dermal papilla throughout hair organogenesis. Fibronectin was always present around dermal papilla cells and was particularly abundant along the dermal-epidermal junction of hair rudiments, as well as underneath hair buds. In contrast, in interfollicular skin, collagens accumulated in increasing density, while fibronectin became progressively sparser. It thus appears that interstitial collagens and fibronectin are distributed in a manner which is related to hair morphogenesis. In morphogenetically active regions, collagen density is low, while that of fibronectin is high. Conversely, in histologically stabilized zones, collagen is abundant and fibronectin is sparse. This microheterogeneous distribution of interstitial collagens and of fibronectin might thus constitute part of the morphogenetic message that the dermis is known to transmit to the epidermis during the development of skin and of cutaneous appendages.     

Collagen types I, III, and V in human embryonic and fetal skin

The dermis of human skin develops embryonically from lateral plate mesoderm and is established in an adult-like pattern by the end of the first trimester of gestation. In this study the structure, biochemistry, and immunocytochemistry of collagenous matrix in embryonic and fetal dermis during the period of 5 to 26 weeks of gestation was investigated. The dermis at five weeks contains fine, individual collagen fibrils draped over the surfaces of mesenchymal cells. With increasing age, collagen matrix increases in abundance in the extracellular space. The size of fibril diameters increases, and greater numbers of fibrils associate into fiber bundles. By 15 weeks, papillary and reticular regions are recognized. Larger-diameter fibrils, larger fibers, denser accumulations of collagen, and fewer cells distinguish the deeper reticular region from the finer, more cellular papillary region located beneath the epidermis. The distribution of collagen types I, III, and V were studied at the light microscope level by immunoperoxidase staining and at the ultrastructural level by transmission (TEM) and scanning electron microscopy (SEM) with immunogold labeling. By immunoperoxidase, types I and III were found to be evenly distributed, regardless of fetal age, throughout the dermal and subdermal connective tissue with an intensification of staining at the dermal-epidermal junction (DEJ). Staining for types III and V collagen was concentrated around blood vessels. Type V collagen was also localized in basal and periderm cells of the epidermis. By immuno-SEM, types I and III were found associated with collagen fibrils, and type V was localized to dermal cell surfaces and to a more limited extent with fibrils. The results of biochemical analyses for relative amounts of types I, III, and V collagen in fetal skin extracts were consistent with immunoperoxidase data. Type I collagen was 70-75%, type III collagen was 18-21%, and type V was 6-8% of the total of these collagens at all gestational ages tested, compared to 85-90% type I, 8-11% type III, and 2-4% type V in adult skin. The enrichment of both types III and V collagen in fetal skin may reflect in part the proportion of vessel- and nerve-associated collagen versus dermal fibrillar collagen. The accumulation of dermal fibrillar collagen with increasing age would enhance the estimated proportion of type I collagen, even though the ratios of type III to I in dermal collagen fibrils may be similar at all ages.     

Cellular and extracellular involvement in the regeneration of the rat lower vibrissa follicle.

The sequence of events leading to the reconstruction of a fibre-producing hair follicle, after microsurgical amputation of the lower follicle bulb, has been detailed by immunohistology and electron microscopy. The initial response was essentially found to be a wound reaction, in that hyperproliferative follicle epidermis quickly spread to below the level of amputation--associated with downward movement of mesenchymal (or dermal) sheath cells. Fibronectin was prominent in both dermis and epidermis at this stage and, as in wound repair, preceded laminin and type IV collagen in covering the lower dermal-epidermal junction. Once a new basal line of epidermis and a complete basement membrane were established, laminin and type IV collagen were detected below this junction and within the prospective papilla-forming mesenchyme. This coincided with ultrastructural observations of profuse sub-basement membrane extracellular material in the region of new papilla formation. The glassy membrane displayed extensive ultrastructural modifications at its lower level, and these corresponded with localized variations in staining intensities for all three antibodies over time. The membrane hung below the level of the epidermis, and was crossed by migrating cells from the mesenchymal dermal sheath of the follicle - it acted to segregate the inner group of follicular dermal cells from wound fibroblasts. Extracellular matrix may be a mediator of the dermal-epidermal interactions associated with this hair follicle regeneration phenomenon.     

黄芪、何首乌、女贞子、菟丝子混合提取物对体外培养毛囊生长的影响及药理作用研究

目的:通过体内外实验探讨黄芪、何首乌、女贞子、菟丝子混合中药提取物对毛囊增殖的影响作用以及其作用机理。方法:通过体外培养的C57BL/6小鼠毛囊器官模型观察不同浓度中药提取物对毛囊生长的影响;采用MTT法测定不同浓度中药提取物对毛乳头增殖的影响;蛋白免疫印迹法(Western Blot)和ELISA检测中药提取物对毛乳头细胞分泌肝细胞生长因子(HGF)的影响。结果:中药提取物能够刺激体外培养的小鼠毛囊的生长,800μg/mL浓度的促进作用最强;160μg/mL中药提取物对毛乳头细胞的增殖作用最强,与米诺地尔、齐墩果酸阳性对照存在显著性差异(P0.05)。而且,药提取物促进了毛乳头细胞分泌HGF。结论:黄芪、何首乌、女贞子、菟丝子混合中药提取物在促进毛发生长中起到重要作用,促进毛乳头细胞增殖和分泌HGF是促进毛囊生长的可能性药理机制。     

Comparison of hair dermal cells and skin fibroblasts in a collagen sponge for use in wound repair

The adult hair follicle has well-defined dermal and epithelial populations that display distinct developmental properties. The follicular dermal cells, namely the dermal papilla and dermal sheath, are derived from the same mesenchymal cells as dermal fibroblasts and therefore, we believed that follicular cells could be useful sources of interfollicular keratinocytes and fibroblast for skin wound repair. In this study, we evaluated the relative effect of various mesenchymal-derived cells on wound healing following skin injury. Human dermal cells, including two different follicular dermal cells and skin fibroblasts were cultured in collagen sponges and compared with respect to wound healing. Results indicated that there was no significant difference in wound contraction and angiogenesis among the cell types. Further, dermal sheath cells exhibited relatively poor results compared with other cells in new collagen synthesis. Finally, basement membrane reformation and new collagen synthesis for the dermal papilla cell grafts was superior to those of the dermal sheath cells or fibroblasts.     

The modulation of contraction of fibroblast populated collagen lattices by types I, II, and III collagen

Human dermal fibroblasts incorporated in a polymerized collagen lattice reduce the size of that matrix. When cell number, collagen concentration, and medium are identical, lattices made with type III collagen contract faster and to a greater degree than those made with type I collagen. The latter contract faster and to a greater degree than those made with type II collagen.     

Dermal breaks: migratory cell pathways opened in anuran tadpole skin at climactic metamorphosis

In this report, we studied the formation of breaks in the frog dermis during its remodelling at climactic metamorphosis. This remodelling consisted of detachment of the basement lamella collagen from the epidermis. The detached part, called derived collagen, was progressively fractured by breaks. We focused our attention on dermal cell localization during break formation. Firstly, at early climax, dermal cells were localized inside fractures opened in the derived collagen. Secondly, at the later climax, the fractures became breaks, making room for the dermal cells themselves. Thirdly, in derived collagen of the froglet, the well-opened breaks contained elongated dermal cells. At climax, DAB immunoperoxidase staining of fibronectin revealed a granular pattern at the surface of epidermal and dermal cells. Unexpected staining revealed that the dermal breaks contained fibronectin in the form of vertical lines. The foregoing results suggest that the dermal breaks are migratory pathways for dermal cells in derived collagen remodelled at climax.     

Induction of follicle formation and hair growth by vibrissa dermal papillae implanted into rat ear wounds: vibrissa-type fibres are specified.

Adult vibrissa follicle dermal papillae have the capacity to induce hair growth and follicle formation when associated with epidermis from various sources. However, the range of conditions under which hair follicle induction will take place has not been established. The question of whether or not the adult papilla carries information to impose fibre-type specificity has also not been fully answered. This study describes how the implantation of isolated papillae into small incisional cuts on the rat ear pinna resulted in the subsequent emergence of abnormally large hair fibres from the wound sites. Many of these hairs were found to display vibrissa-type characteristics. Histological observations indicated that the papillae had interacted with the edges of the wound epidermis to produce new, and particularly large follicles, while immunohistochemical staining revealed that early follicle construction was accompanied by a profusion of the basement membrane constituents laminin and type IV collagen in the subjacent dermis. These findings show that adult rat papillae retain the capacity, as displayed by embryonic dermis, to determine vibrissa specificity in induced follicles.     

Culture of human dermal fibroblasts in collagen gels: modulation of interleukin 1-induced prostaglandin E2 synthesis by an extracellular matrix.

Human dermal fibroblasts, cultured as suspensions in collagen gels and as monolayers, were stimulated with recombinant human interleukin-1 beta (rIL 1 beta) at 72 h, and prostaglandin E2 (PGE2) was assayed 24 h later. Fibroblasts in gels were less responsive to rIL 1 beta than monolayers, PGE2 synthesis increasing from less than 1 ng/microgram DNA without rIL 1 beta to maxima of 11.3 and 32.9 ng/micrograms DNA, with half maximal release occurring at 7.47 and 0.75 pM rIL 1 beta for the gel and monolayer cultures, respectively. Increased PGE2 was first detected 4 h after addition of rIL 1 beta to gels and was inhibited by 10(-5) M indomethacin. The amount of PGE2 synthesized per fibroblast increased with the time the gels had been in culture when stimulated with rIL 1 beta and was proportional to the number of fibroblasts in the gels, but inversely related to the collagen concentration. A common feature of these experiments was significantly greater induction of PGE2 synthesis at higher cell densities in collagen gels. Exogenous 10(-4) M arachidonic acid further increased PGE2 synthesis by rIL 1 beta-stimulated fibroblasts, but the differential in the amount of PGE2 released from fibroblasts at high and low population densities in the gels was maintained. These results are consistent with interleukin 1 (IL 1) stimulating PGE2 synthesis in dermal fibroblasts by increasing cyclooxygenase activity. Furthermore, the results show that dermal fibroblasts have an additional regulatory mechanism, related to the cell population densities or their interactions with an extracellular matrix, to finely modulate the amount of PGE2 synthesized in response to IL 1.     

Ruby laser-assisted hair removal success in relation to anatomic factors and melanin content of hair follicles.

Ruby laser-assisted hair removal is thought to work via selective photothermolysis, which relies on light reaching the deeper layers of skin, and the absorption of light by the target chromophore, melanin. It is therefore possible that efficacy of treatment is affected by anatomic factors that determine the amount of light reaching the hair bulbs (i.e., skin color, depth of intracutaneous hair, epidermal thickness and dermal density) and the melanin content of hair. To examine this hypothesis, a prospective study was performed. Forty-eight volunteers were treated with the Chromos 694 Depilation Ruby Laser at a single standard fluence of 11 J/cm2. Treatment efficacy was determined by measuring hair density at 3 and 7 months after treatment. Epidermal depth and dermal density were measured from 2-mm biopsies taken before treatment, and the intracutaneous hair length was determined from plucked hair. Skin color was assessed using a spectrophotometer, and melanin content of dissolved hair was assessed using spectrophotometry. Efficacy of treatment for each patient was compared with the patient's age, intracutaneous hair length, epidermal depth, dermal density, skin color, and total melanin content and relative eumelanin content of hair. No correlation was found between the efficacy of treatment and age and the various anatomic factors. Patients with higher eumelanin content in their hair had better long-term results (Spearman rank test, p = 0.00219). The results suggested that the efficacy of treatment did not depend solely on the amount of laser light penetrating the skin but correlated well with the eumelanin content of hair. The clinical implication of this finding is discussed.     

Acid mucopolysaccharides in hair papillae of the stump-tailed macaque (Macaca speciosa).

Synopsis Acid mucopolysaccharides in dermal papillae of hair follicles from both bald and non-bald regions of the scalp of stump-tailed macaques were studied histochemically. Alcian Blue, Azure A and Periodic acid Schiff methods were used for staining mucopolysaccharides, and Bromphenol Blue for staining basic proteins. In an attempt to identify various polyanions, staining was carried out with Alcian Blue containing different concentrations of electrolytes. Methylation, saponification, mild acid hydrolysis and digestion with streptomyces or testicular hyaluronidase, chondroitinase ABC, or sialidase, were also used. The results indicate that chondroitin sulphate B is present in the papillae of terminal hair follicles in early and intermediate anagen, and degraded chondroitin sulphates are present in the papillae of vellus and terminal hair follicles in late anagen.     

The life of human hair follicle revealed

The human hair follicle is a unique appendage which results from epithelio-mesenchymal interactions initiated around the 3rd month of development. This appendage has a very complex structure, with a dermal compartment and an epithelial compartment. The dermal compartment comprises the connective tissue sheath and the dermal papilla, both of which are irrigated by microvessels. The epithelial compartment is made of highly replicating matrix cells giving rise to three concentrical domains, namely the outer root sheath, the inner root sheath and the hair shaft. The pigmentation unit, responsible for hair color, is made of fully active melanocytes located on top of the dermal papilla. Altogether a hair follicle contains more than 20 different cell types, engaged in different differentiation pathways and/or interacting with each other. This complex appendage has a unique behavior in mammals since, after a hair production phase, it involutes in place before entering a resting phase after which it renews itself under a cyclical but stochastic way, out of a double reservoir of pluripotent stem cells able to also regenerate epidermis. For yet unknown reasons, this well ordered process can be disturbed, provoking alopecia. The pigmentation unit also renews itself under a cyclical way, out of a melanocyte progenitor reservoir which progressively declines with time, provoking the hair whitening process. Finally, the shape of the hair shaft is programmed from the bulb. What makes this appendage unique and fascinating is its high degree of autonomy, its incredibly complex though stable structure, the number of different cell types interacting under an equilibrated way and its potential of regeneration. It represents a true paradigm of tissue homeostasis, exemplifying in a small living cylinder all the fundamental laws of cell-cell and tissue interactions. This life is revealed in this short synthesis.     

Age-related disruption of autophagy in dermal fibroblasts modulates extracellular matrix components

Autophagy is an intracellular degradative system that is believed to be involved in the aging process. The contribution of autophagy to age-related changes in the human skin is unclear. In this study, we examined the relationship between autophagy and skin aging. Transmission electron microscopy and immunofluorescence microscopy analyses of skin tissue and cultured dermal fibroblasts derived from women of different ages revealed an increase in the number of nascent double-membrane autophagosomes with age. Western blot analysis showed that the amount of LC3-II, a form associated with autophagic vacuolar membranes, was significantly increased in aged dermal fibroblasts compared with that in young dermal fibroblasts. Aged dermal fibroblasts were minimally affected by inhibition of autophagic activity. Although lipofuscin autofluorescence was elevated in aged dermal fibroblasts, the expression of Beclin-1 and Atg5—genes essential for autophagosome formation—was similar between young and aged dermal fibroblasts, suggesting that the increase of autophagosomes in aged dermal fibroblasts was due to impaired autophagic flux rather than an increase in autophagosome formation. Treatment of young dermal fibroblasts with lysosomal protease inhibitors, which mimic the condition of aged dermal fibroblasts with reduced autophagic activity, altered the fibroblast content of type I procollagen, hyaluronan and elastin, and caused a breakdown of collagen fibrils. Collectively, these findings suggest that the autophagy pathway is impaired in aged dermal fibroblasts, which leads to deterioration of dermal integrity and skin fragility.     

二次谐波结合双光子荧光成像方法观察人源胶原蛋白透皮吸收情况

目的:用二次谐波成像结合双光子荧光成像的方法观察人源胶原蛋白透皮吸收的情况。方法:将荧光标记的人源胶原蛋白(1 mg/mL)涂抹于小鼠表皮层经皮肤吸收1 h后用背向二次谐波观察皮肤内胶原纤维作为真皮层定位标志,用双光子扫描共聚焦显微镜观察人源胶原蛋白透皮吸收深度,吸收方式。结果:二次谐波成像结合双光子荧光成像表明人源胶原蛋白透皮吸收1 h后可观察到荧光信号沿着毛囊聚集,并有部分荧光分子由毛囊扩散至真皮层。结论:二次谐波可以更快速,更灵敏地检测皮肤中的胶原纤维,以此作为检测物质透皮吸收深度的定位标志,具有不受荧光信号干扰的优点。人源胶原蛋白可以沿着毛囊进入真皮层,并从毛囊中扩散至胶原纤维层从而补充皮肤中的胶原纤维。     

Self-healing and injectable hybrid hydrogel for bone regeneration of femoral head necrosis and defect

Background

HA modified by bisphosphonate (BP) (HA-BP) was synthesized by chemical reaction and possessed promising properties such as self-healing, injection ability, and strong adhesion. The main aim of this study was to confirm its role in promoting osteogenic differentiation in vitro and bone regeneration in vivo.