Correlation between the inducible keratinocyte expression of Ia and the movement of Langerhans cells into the epidermis

A direct correlation between the induced expression of Ia by the host keratinocytes and the infiltration of donor Langerhans cells (LC) into the epidermis was demonstrated in athymic (nude) BALB/c mice that received an adoptive transfer of lymphoid cells from normal semi-syngeneic donors. Neither keratinocyte expression of Ia nor donor LC movement into the epidermis was observed in BALB/c recipients of lymphoid cells from allogeneic C3H nude mice. Further evidence for this relationship was provided by experiments in which the keratinocytes of BALB/c nude mice were induced to express Ia by the injection of normal mouse serum (NMS). By this procedure it was shown that LC precursors derived from allogeneic C3H nude donors were able to infiltrate the epidermis when adoptively transferred into BALB/c nude recipients whose keratinocytes had been induced to express Ia by the simultaneous injection of NMS. These findings suggest that keratinocytes through their expression of Ia may function to facilitate the movement of LC into the epidermis.     

The Langerhans' cell

Langerhans cells are antigen-presenting cells that play a key role in the initiation and regulation of immune response. They are localized in stratified epithelia, such as epidermis, and migrate to the lymphoid organs in order to present antigens introduced in the skin so that the T cell response can be initiated. Light and electron microscopy images of the cells demonstrate their morphology within the epidermis and as they migrate to the culture medium. Factors inducing migration are reviewed, as well as the therapeutic potential of these factors in regulating the immune response.     

Melanocytes in Human Embryonic and Fetal Skin: A Review and New Findings

Melanocytes account for approximately 5–10% percent of the cells in adult epidermis. Unlike the ectodermally derived keratinocytes, they originate in the neural crest and migrate into the epidermis early in development. There has been an interest in melanocytes in developing human skin since the late 1800s, when concentrated pigmented cells were identified in the sacro-coccygeal skin of Japanese fetuses. This observation led to speculation and subsequent investigation about the racial nature of the melanocytes in this site (the Mongolian spot), the presence of melanocytes in fetuses of other races, the timing of appearance of these cells in both the dermis and epidermis, and their origin. The early investigators relied primarily on histochemical methods that stained either the premelanosome or the pigmented melanosome, or relied upon the activity of tyrosinase within the melanosome to effect the DOPA reaction. Studies by electron microscopy added further documentation to the presence of melanocytes in the skin by resolving the structure of the melanosome regardless of its state of pigmentation. All of these methods recognized, however, only differentiated melanocytes. The thorough investigations of melanocytes in the skin from a large number of black embryos and fetuses by Zimmerman and colleagues between 1948 and 1955 provided insight into the time of appearance of melanocytes in the dermis (10–11 weeks' menstrual age) and the epidermis (11–12 weeks) and revealed the density of these cells in both zones of the skin of several regions of the body. The precise localization of the melanocytes in the developing hair follicles was contributed by the studies of Mishima and Widlan (J Invest Dermatol 1966; 46:263–277). More recently, monoclonal antibodies have been developed that recognize common oncofetal or oncodifferentiation antigens on the surface or in the cytoplasm of melanoma cells and developing melanocytes (but not normal adult melanocytes). These antibodies recognize the cells irrespective of the presence or absence of melanosomes or their activity in the synthesis of pigment and therefore are valuable tools for re-examining the presence, density, and distribution patterns of melanocytes in developing human skin. Using one of these antibodies (HMB-45), it was found that dendritic melanocytes are present in the epidermis between 40 and 50 days estimated gestational age in a density comparable with that of newborn epidermis and are distributed in relatively non-random patterns. A number of questions about the influx of cells into the epidermis, potential reservoirs of melanoblasts retained within the dermis, division of epidermal melanocytes, and the interaction of melanocytes and keratinocytes during development remain unresolved. The tools now appear to be available, however, to begin to explore many of these questions.     

Role of tissue interaction between pineal primordium and neighboring tissues in avian pineal morphogenesis studied by intraocular transplantation

Tissue interactions play an essential role in organogenesis during embryonic development. However, virtually no attempts have been made to study the role of tissue interaction in pineal development. In the present study we examined the inductive role of the epidermis and mesenchyme in the morphogenesis of quail pineal glands. The pineal rudiment is first observed at embryonic day 2 (E2: 2 days of incubation) at the dorsal midline of the diencephalon as a short semi-spherical protrusion. Electron microscopic observations revealed that no mesenchymal cells are found between the epidermis and the distal end of the E2 pineal primordium but that a thin layer of mesenchymal cells separate the epidermis from the pineal primordium at E3. Small pieces containing pineal rudiment were cut off from E2 or E3 embryos. They were treated with enzymes to eliminate the epidermis and/or mesenchyme, grafted into E5 chicken eyes, and cultured there for 1 week. When E3 pineal rudiment was treated with Dispase to remove the epidermis, the pineal gland developed normally. When the rudiment was further treated with collagenase to remove the surrounding mesenchymal cells, a multi-follicular structure was still formed, but to a lesser extent than when rudiments were treated with Dispase alone. When E2 quail pineal rudiment with the epidermis was grafted without any treatment, a multi-follicular structure developed which morphologically resembled embryonic pineal organs. When the epidermis was removed from E2 rudiments by Dispase, a single large vesicular structure was formed. These results suggest that the overlying epidermis and/or mesenchymal cells play some inductive role in the initial pineal development, while the mesenchymal tissue plays an important role in pineal follicular formation later during development. Since only a few experimental studies have been done to examine pineal morphogenesis, the present study provides fundamental insights into avian pineal development.     

山东莎草属叶表皮微形态的研究

利用光学显微镜对山东莎草属14个种和1个亚种植物的叶下表皮微形态特征进行研究,结果表明:脉间区长细胞为长筒形、短筒形,少数为近方形,边缘为波状、深波状;无短细胞存在;气孔器副卫细胞为三角形、圆屋顶形至三角形、高圆屋顶形和圆屋顶形;乳突存在于脉区长细胞上;刺毛仅存在于个别种中。根据脉区刺毛的有无,结合外部形态,可以分为有刺毛类型和无刺毛2个类型及4个亚类型。莎草属叶下表皮微形态特征高度一致,表明莎草属是一个自然类群,但在种间存在着一定的差异,可以为种的划分提供参考依据。     

The analysis of immature lymphoid precursors stored in longterm bone marrow culture

The long-term bone marrow culture system developed by Dexter (MBMC) is known to store immature lymphoid precursors capable of differentiating into mature B cells in irradiated or immunodeficient mice. It has been suggested that pre-B cells are not generated under such culture conditions, but that opinion was not based on any systematic analyses. In the present study under carefully controlled conditions, we observed that pre-B and pro-B cells were eliminated from the late stage of primary MBMC, and the former were not generated in recharged MBMC. Under appropriate conditions, these immature precursors in recharged MBMC generated in vitro immunoglobulin-positive (Ig+) cells to differentiate into antibody-forming cells upon stimulation with lipopolysaccharide (LPS). LPS-reactive B cells were observed in every 10th of the Ig+ cells, the frequency being essentially the same as that observed in normal B cells in different tissues. The immature B cell precursors generating LPS reactive cells were expressed in recharged MBMC at the frequency of 4.2 x 10(-6). A staining experiment showed that cells bearing AA4.1 were stored at the frequency of 10(-4)-10(-5). This frequency is thought to be similar to that of lymphoid precursors in recharged MBMC committed to differentiate along B lineage cells. Based on these results, we discussed the stage, nature, and mode of differentiation of immature lymphoid precursors stored in MBMC.     

Promotion of chromatophore differentiation in isolated premigratory neural crest cells by extracellular matrix material explanted on microcarriers

This study was undertaken to determine whether premigratory neural crest cells of the axolotl embryo differentiate autonomously into chromatophores, or whether stimuli from the environment, particularly from the extracellular matrix, are required for this process. Neural crest cells were excised from the dorsal part of the premigratory crest cord and cultured alone, either in a serum-free salt solution or in the presence of fetal calf serum (FCS), and together with explants of the neural tube or dorsal epidermis. A "microcarrier" technique was developed to assay the possible effects of subepidermal extracellular matrix (ECM) on chromatophore differentiation. ECM was adsorbed in vivo onto microcarriers prepared from Nuclepore filters, by inserting such carriers under the dorsolateral epidermis in the embryonic trunk. Neural crest cells were then cultured on the substrate of ECM deposited on the carriers. Melanophores were detected by DOPA incubation, revealing phenol oxidase activity, or by externally visible accumulation of melanin. Prospective xanthophores were visualized before they became overtly differentiated by alkali-induced pteridine fluorescence. Isolated premigratory neural crest cells did not transform autonomously into any of these phenotypes. Conversely, coculture with the neural tube or the dorsal epidermis, and also the initial presence or later addition of FCS during incubation, resulted in differentiation of neural crest cells into chromatophores. Both chromatophore phenotypes were also expressed on the ECM substrate deposited on the microcarriers. The results indicate that neural crest cells do not differentiate autonomously into melanophores and xanthophores, but that interactions with components of, or factors associated with the extra cellular matrix surrounding the premigratory neural crest and present along the dorsolateral migratory pathway are crucial for the expression of these chromatophore phenotypes in the embryo.     

中国黄耆属簇毛黄耆亚属的叶表皮特征及其系统学意义

在光学显微镜和扫描电镜下,观察了国产黄耆属簇毛黄耆亚属16种1变种的叶表皮特征。结果表明,气孔器在各种植物的上、下表皮均有分布,多为无规则型,也有不等细胞型;叶表皮细胞形状有不规则形与多边形,表皮细胞垂周壁有平直、浅波状、波状或深波状。叶表皮细胞形状与垂周壁的式样可以分为四种类型,这四种类型与亚属的分组有一定的对应关系。在扫描电镜下可见表皮细胞上有角质层,气孔下陷,气孔的外拱盖及其内缘特征在亚属内都比较一致。表皮细胞角质层的纹饰在个别类群中有一定的变异,对种类的鉴定有一定的意义。     

Antigenic markers on mouse lymphoid cells: origin of cells mediating immunologic memory

Specific antisera were used for the purification of thymus dependent and thymus independent or bursa equivalent lymphoid cells in the mouse. Spleen cells from mice immune to sheep erythrocytes, a thymus dependent antigen, or to E. coli 055:B5 lipopolysaccharide, a thymus independent antigen, were treated with anti-θ (C3H) serum or anti-MBLA serum and complement prior to their adoptive transfer into lethally irradiated syngeneic recipients. Syngeneic thymocytes, bone marrow cells, or spleen cells from nonimmune donors were appropriately added to antiserum treated cells prior to transfer. The secondary response to these antigens was assayed in recipient spleens six days after cell transfer. The kinetics of the primary response to SRBC was investigated as to its effect on origin of specific hyper-reactive T or B lymphoid cells.The adoptive response to CPS originated in the B lymphoid cell population. Immunologic memory to CPS was demonstrated in recipients of immune cells, compared to recipients of normal cells, by a five fold increase in antibody forming cells.The IgM and IgG adoptive immune response to high doses of SRBC depended upon an increased number of specifically hyper-reactive T-lymphoid cells to facilitate cooperation between T and B lymphocytes. High doses of SRBC initially stimulated T cell memory but at 42 days after priming an increased number of specifically hyper-reactive B lymphoid cells were present.     

Maturation of bursal stem cells within allogeneic or syngeneic bursal microenvironment: acquisition of postbursal maturity.

Differentiation of bursal stem cells in an allogeneic or syngeneic bursal microenvironment was compared. Bursal stem cells were transplanted into CY-treated 4-day-old recipients and permitted to differentiate in these hosts for 6 weeks. Their maturity degree was thereafter assessed by transplanting them into secondary recipients by using morphologic and functional criteria. As the secondary recipients 4-day-old CY-treated or CY-treated and surgically bursectomized chicks were used. The results obtained demonstrate that bursal stem cells develop to mature postbursal cells also within an allogeneic bursa. They also indicate that although the interaction of different lymphoid cells requires histocompatibility, the interaction between stromal cells in the bursa and lymphoid progenitors is not genetically restricted.     

Effect of tumor immunity on the distribution of labeled lymphoid cells in tumor-challenged mice

The distribution of ⁵¹Cr-labeled lymphoid cells from normal mice and mice immunized against a tumor were compared after intravenous inoculation of the labeled cells into normal syngeneic recipients. Spleen cell preparations from immune donors contained increased percentages of spleen and bone marrow-seeking cells, thus suggesting expansion of these cell populations when immunity to a tumor exists. Homing of labeled normal cells in tumor cell-injected normal animals was somewhat different from that seen in tumor cell-inoculated mice that were immunized against the tumor. In the latter case, accumulations of lymph node and spleen cells in recipient lymph nodes and bone marrow were consistently lower. In contrast, lymphoid cells from animals immunized against the tumor were found to accumulate in virtually the same percentages in lymphoid organs of normal and immune recipients. The behavior of lymphoid cell populations from thymus or bone marrow that consist mainly of precursor cells was unaffected by presence of malignancy and/or tumor immunity.     

De novo synthesis and specific assembly of keratin filaments in nonepithelial cells after microinjection of mRNA for epidermal keratin

Poly(A)+ RNA isolated from bovine muzzle epidermis was microinjected into nonepithelial cells containing only intermediate-sized filaments of the vimentin type. In recipient cells keratin polypeptides are synthesized and assemble into intermediate-sized filaments at multiple dispersed sites. We describe the time course and the pattern of de novo assembly of keratin filaments within living cells. These filaments were indistinguishable, by immunofluorescence and immunoelectron microscopic criteria, from keratin filament arrays present in true epithelial cells. The presence of extended keratin fibril meshworks in these injected cells is compatible with cell growth and mitosis. Double immunolabeling revealed that newly assembled keratin was not codistributed with microfilament bundles, microtubules or vimentin filaments. We suggest that assembly mechanisms exist which in vivo sort out newly synthesized cytokeratin polypeptides from vimentin.     

Properties of the esophageal epithelium in relation to organizative patterns of lymphoid infiltrations in the red-eared turtle

The esophagus of the turtle, like the mucosal surfaces in other species, contains variously sized areas of lymphoid infiltration. The tunica propria and the surface epithelial layer of this area are invaded by the lymphoid cells. The features of the layer of epithelial cells which cover the lymphoid infiltrations are of a special kind: they do not possess vibratile cilia and are able to take up materials flowing into the lumen. The present paper contains further information concerning lymphoid infiltration obtained by histological and histochemical methods. The epithelial layer covering the lymphoid infiltrations is composed of cells with irregularly distributed microvilli, ciliated cells and mucous-secreting cells. After administration of silica and colloidal carbon, the microvillar epithelial cells proved to have these substances inside them, thereby accounting for the pinocytotic activity. The absorbing epithelial cells were not damaged by silica which is a macrophage-toxic agent, while the underlying macrophages are damaged. These results are compared with the features of lymphoid infiltration associated cells in various organs and animals; the hypothesis is proposed that these cells in the esophagus of turtles may originate from the covering epithelial cells.     

DC-SIGN, a dendritic cell-specific HIV-1-binding protein that enhances trans-infection of T cells

Dendritic cells (DC) capture microorganisms that enter peripheral mucosal tissues and then migrate to secondary lymphoid organs, where they present these in antigenic form to resting T cells and thus initiate adaptive immune responses. Here, we describe the properties of a DC-specific C-type lectin, DC-SIGN, that is highly expressed on DC present in mucosal tissues and binds to the HIV-1 envelope glycoprotein gp120. DC-SIGN does not function as a receptor for viral entry into DC but instead promotes efficient infection in trans of cells that express CD4 and chemokine receptors. We propose that DC-SIGN efficiently captures HIV-1 in the periphery and facilitates its transport to secondary lymphoid organs rich in T cells, to enhance infection in trans of these target cells.     

Expression and role of E- and P-cadherin adhesion molecules in embryonic histogenesis. II. Skin morphogenesis

Expression and the role of E- and P-cadherin in the histogenesis of the surface epidermis and hair follicles were examined using the upper lip skin of the mouse. P-cadherin is expressed exclusively in the proliferating region of these tissues, that is in the germinative layer of the surface epidermis, the outer root sheath and the hair matrix. E-cadherin is coexpressed in these layers but this molecule was also detected in non-proliferating regions such as the intermediate layer of the surface epidermis and the immature regions of the inner root sheath. Neither P- nor E-cadherin was detected in fully keratinized layers such as the horny layer of the surface epidermis, the outermost layer of the outer root sheath and the mature hair fibres. These two cadherins were not detected in dermal cells. We cultured pieces of the upper lip skin in vitro in the absence or presence of a monoclonal antibody to E-cadherin (ECCD-1) or to P-cadherin (PCD-1). In control cultures, skin morphogenesis normally occurred in a pattern whereby the hair follicles grew and dermal cells were condensed to form the dermal sheath. A mixture of ECCD-1 and PCD-1, however, induced abnormal morphogenesis in the skin in several respects. (1) The cuboidal or columnar arrangement of basal epithelial cells was distorted. (2) Hair follicles were deformed. (3) Condensation of dermal cells was suppressed, causing a homogeneous distribution of these cells. These results suggest that cadherins present in epidermal cells are involved not only in maintaining the arrangement of these cells but also in inducing dermal condensation.     

Alterations in epidermal sulfated proteoglycan production following topical application of the tumor promoter 12-O-tetradecanoyl phorbol-13-acetate to mouse skin.

Topical application of the phorbol ester tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) to mouse skin causes marked changes in epidermal cell growth and differentiation. In the present studies we characterized the production of sulfated proteoglycans in the epidermis following treatment with TPA since these macromolecules are important structural and functional components of the tissue. We found that 35S-sulfate was readily incorporated into mouse epidermal proteoglycans. Sepharose CL-4B column chromatography revealed one major peak of sulfated proteoglycans in this tissue (Kav = 0.4-0.5). Approximately 65% of these proteoglycans were heparan sulfate and 10-20% chondroitin sulfate. Using specific monoclonal antibodies and flow cytometry, we found that the epidermal cells produced chondroitin-4-sulfate, chondroitin-6-sulfate and chondroitin-O-sulfate. Within 24 hr of application of TPA to mice, an increase in glycosaminoglycan content of the epidermis was observed. This was associated with a decrease in 35S-sulfate uptake into the tissue. Although TPA had no effect on the size or relative distribution of the epidermal sulfated proteoglycans, an increase in chondroitin-4-sulfate expression was observed in treated skin. Changes in the production of proteoglycans following TPA treatment may underlie structural alterations that occur in the epidermis during tumor promotion.     

Growth-promoting effect of haemocytes on insect epidermis in vitro

The epidermis of 21-day-old leg regenerates of cockroaches (Leucophaea maderae) was cultivated in vitro. Outgrowth of the epidermis only occurred in connexion with haemocytes.Haemocytes contaminating the epidermal explants show strong adherence to epidermal cells. The epidermal cells adhering to moving haemocytes are stretched out to long projections or completely pulled out of the epithelium. When more haemocytes are present, they can form an uninterrupted line at the margin of the epidermis. By the adhesion of marginal cells of the epidermis to the moving haemocytes, the epithelium is apparently pulled out into broad tongues. In these tongues the epidermal cells become highly flattened, especially at the front, and soon begin to divide. Outgrowth in the tongues continues only as long as there are haemocytes at the front. When they have disappeared, outgrowth stops, the flattened epidermal cells detach from the glass surface, round up, and the outgrown tissue may withdraw again.For further analysis of the interactions of haemocytes and epidermal cells the epidermis is placed on a monolayer of haemocytes. The epidermis rapidly grows out on such a monolayer. The epidermal cells either move over or under the haemocytes indicating that there are substances on both sides of the haemocytes which are attractive to the epidermal cells and cause their flattening and outgrowth. Similar outgrowth occurs on fixed monolayers of haemocytes. There is no outgrowth on areas where the monolayer has been scraped away. No principal differences can be found between monolayers consisting almost exclusively of either plasmatocytes or granular haemocytes.The similarities of the observed interactions of haemocytes and epidermal cells to encapsulation and wound healing are pointed out. A hypothesis is presented which assumes that the haemocytes during wound healing not only serve as a mechanical support but also as a chemical guide by which the closure of the wound by epidermal cells is enhanced.     

Effects of isolated tumor lymphocytes alone and with adherent cells

Summary The effect on the growth of gradient-isolated mouse mammary tumor cells of different populations of lymphoid cells were evaluated in micrototoxicity assays. Variable effects were obtained with tumor-bearer lymph node and spleen cells: in some experiments growth stimulation occurred, whereas in others inhibition was observed. Mixed effector populations gave more regular results: adherent spleen cells added to lymph node or spleen lymphocytes inhibited tumor cell growth in six of nine experiments; inhibition occurred when either of the effector populations in the mixture was derived from the tumor-bearing mouse. Tumor-associated lymphoid cells (TAL) stimulated growth of the tumor cells in five of seven experiments. However, TAL inhibited tumor growth when combined with adherent spleen cells from tumor-bearing animals. In contrast with the peripheral lymphoid cells, admixture of control adherent cells from normal animals with TAL did not inhibit growth. No natural killer effect was seen in these growth inhibition assays. These data indicate that lymphoid populations capable of inhibiting tumor cell growth can be found in tumor-bearing animals, but such combination of active cells are not present at the tumor site.     

Location of hemopoietic stem cells influences frequency of lymphoid engraftment in Xenopus embryos

The first hemopoietic stem cells to differentiate in Xenopus embryos arise from ventral blood island (VBI) mesoderm. Progeny of these stem cells contribute to larval E, macrophage, thymocyte, and B lymphocyte populations. When small pieces of mesoderm are transplanted to a central location within the VBI, the contribution of this mesoderm is predominantly to erythropoiesis and engraftment of lymphoid populations is minimal. The present experiments examined the influence of position within the VBI on the contribution of single stem cells to lymphoid populations. Pieces of diploid VBI mesoderm, containing an average of one hemopoietic stem cell, were transplanted to either a central or a peripheral location within the defined boundaries of the VBI of triploid, stage matched embryos. The number of animals with donor-derived cells in lymphoid populations was markedly increased when stem cells were grafted to a peripheral position. In three cases, stem cells contributed to lymphoid populations at the exclusion of erythroid populations. These data were consistent with the notion of either a lymphoid stem cell or restricted B and T lymphocyte precursors. These data also suggested that during embryogenesis, stochastic differentiation of hemopoietic stem cells was influenced by regional differences in the VBI microenvironment.     

中国大蒜芥属(十字花科)叶表皮微形态学研究

利用光学显微镜观察了中国十字花科大蒜芥属9种1变种植物的叶表皮形态。结果表明：中国大蒜芥属植物叶上表皮细胞通常为多边形,垂周壁平直或弓形,少有稍浅波状,叶下表皮细胞为不规则形,垂周壁波状或深波状;气孔器类型均以不等细胞型为主,少有无规则型,偶有平列型。依据叶表皮特征,可将中国大蒜芥属划分为三种类型： （1）叶上表皮无气孔分布或偶见; （2）叶上表皮气孔常明显几个聚成一簇或排成短列,气孔密度小于叶下表皮; （3）叶上表皮气孔比较均匀分布,气孔密度与叶下表皮近相似。