Loss of epidermal integrity by T cell-mediated attack induces long term local resistance to subsequent attack. II. Thymus dependency in the induction of the resistance

Our previous study showed that in cutaneous graft-vs-host disease (GVHD) induced by intradermal injection of autoreactive T cells the epidermal structures spontaneously recovered from the destruction became resistant to the subsequent attempts to induce the cutaneous GVHD and that the resistance correlated well with a 30-fold increase in the number of Thy-1+ epidermal cells (Thy-1+EC). We show that the resistance to the cutaneous GVHD was never induced in athymic nude mice and adult thymectomy lethal radiation and bone marrow reconstitution (ATXBM) mice under the same conditions, indicating that the induction of the resistance is dependent on the presence of thymus. A great increase in the number of Thy-1+EC was similarly observed in the epidermis of the athymic nude and ATXBM mice that spontaneously recovered from the cutaneous GVHD and that remained susceptible to the induction of the cutaneous GVHD. However, the results with B10Thy-1.1----B6 radiation chimeras clearly demonstrate that the vast majority of the increased Thy-1+EC found in the "susceptible" epidermis of the ATXBM mice were of donor bone marrow origin and there was no increase in the number of host-derived Thy-1+EC, whereas in the "resistant" epidermis of the XBM mice both Thy-1+EC populations were equally increased. The overall results indicate that the expansion of Thy-1+EC that mature in the thymus is crucial to the induction of the resistance, although the migration of bone marrow-derived Thy-1+EC precursors to the epidermis occurs quite independently of the presence of thymus.     

Antigen-presenting activity of draining lymph node cells from mice painted with a contact allergen during ultraviolet carcinogenesis.

The induction of skin cancers in mice by chronic UV irradiation is accompanied by a decrease in the numbers of Ia+ and Thy-1+ dendritic cells in the epidermis early in the course of UV irradiation. Subsequently, the number of Ia+ cells, but not Thy-1+ cells, increases until the time of tumor development. To assess the functional significance of these changes in cutaneous immune cells, and to help define the role these cells may play in immune surveillance against skin cancers, we tested the afferent immunologic capability of the skin during the development of UV-B radiation-induced skin cancers. Afferent immune function was measured by testing the Ag-presenting capacity of draining lymph node (DLN) cells from mice sensitized epicutaneously with dinitrofluorobenzene. A reduced contact hypersensitivity response was induced in mice immunized with DLN cells from UV-irradiated mice that had been sensitized with hapten on UV-irradiated skin. This decreased reactivity was present during the entire latent period of tumor development. However, in tumor-bearing mice, the DLN cells from UV-irradiated, sensitized animals exhibited normal Ag-presenting activity. DLN cells from UV-irradiated mice sensitized on ventral, unirradiated skin exhibited normal Ag-presenting activity. The lowest amount of Ag-presenting activity in the draining lymph nodes of UV-irradiated mice correlated temporally with the lowest number of Ia+, adenosine triphosphatase+ dendritic epidermal cells in the UV-irradiated skin. At least during the early part of the tumor latent period, an increase in the number of these cells was paralleled by an increase in the Ag-presenting activity of the DLN cells. In contrast, the number of Thy-1+ dendritic epidermal cells in UV-irradiated skin did not correlate with the Ag-presenting activity. Thus, the decrease in the number of identifiable epidermal Langerhans cells early in the course of chronic UV irradiation correlated with a decrease in Ag-presenting activity after sensitization through the UV-irradiated skin. These studies demonstrate that the afferent arm of the cutaneous immune response is impaired in the site of tumor development throughout the latent period of UV carcinogenesis.     

Enhancement by various cytokines or 2-beta-mercaptoethanol of Ia antigen expression on Langerhans cells in skin from normal aged and young mice. Effect of cyclosporine A

The number of Ia+ Langerhans cells (LC) in skin from aged (16- to 18-mo old) BALB/c mice is approximately 40% lower than in skin from young (2- to 3-mo old) mice. Overnight incubation at 37 degrees C with a variety of cytokines, including IL-1, IL-2, IL-3, IL-4, IL-6, TNF-alpha, IFN-gamma, and granulocyte/macrophage-CSF, causes a significant increase in the Ia expression on LC and raises the number of Ia+ cells by at least 300/mm2 in skin from both young and old mice. At 1 to 5 x 10(-5) M, 2-ME has a similar effect. The percentage increment in Ia+ cells is much higher for skin from aged mice than from young mice, particularly with IL-3, which appears to reconstitute the number of Ia+ LC in skin from aged mice to that of IL-3 exposed skin from young mice. Under the incubation conditions of our experiments, neither keratinocytes nor Thy-1+ dendritic cells acquire Ia Ag. Addition of 10 micrograms/ml cyclosporine A to the medium abolishes the effect of 2-ME and of all of the cytokines except IL-2 and IL-6. These results demonstrate the presence of a significant population of Ia- LC in the epidermis of both young and aged mice. It is suggested that epidermal production of cytokines may be of importance in the maintenance of constitutive Ia expression on LC. The possible interaction between keratinocytes and LC and the effect of aging on this process are discussed.     

Immunophenotypic and cell cycle analysis of lymph node cells from dimethylbenzanthracene-treated mice

The chemical carcinogen 7, 12-dimethylbenz-(a)anthracene (DMBA) depletes Langerhans cells from murine epidermis. Application of contact sensitizers to DMBA-treated skin induces specific immunological tolerance due to a DMBA-resistant epidermal antigen presenting cell (APC) migrating to local lymph nodes where it presents antigen in a way which activates suppressor cells. As alterations in local lymph node lymphocytes may enhance the ability of the DMBA-resistant APC to activate suppressor cells, these cells were examined in DMBA-treated mice. Lymph nodes in DMBA-treated mice had normal morphology but were larger and contained increased numbers of lymphocytes. Cell cycle analysis revealed that these lymphocytes did not arise from division within the lymph node, suggesting alterations in homing properties of lymphocytes. Contact sensitizer applied to DMBA-treated skin did not increase lymphocyte division, possibly due to suppressor cell inhibition of the development of effector lymphocytes. DMBA treatment had no effect on B cells or Ia expression, but decreased levels of the T lymphocyte cell surface molecule Thy-1, and increased L3T4 and Lyt-2 as quantitated by flow cytofluorimetry. These changes could influence the development of immune responses as these T cell molecules are receptors involved in lymphocyte interactions.     

Immunophenotypic and cell cycle analysis of lymph node cells from dimethylbenzanthracene-treated mice

The chemical carcinogen 7, 12-dimethylbenz(a)anthracene (DMBA) depletes Langerhans cells from murine epidermis. Application of contact sensitizers to DMBA-treated skin induces specific immunological tolerance due to a DMBA-resistant epidermal antigen presenting cell (APC) migrating to local lymph nodes where it presents antigen in a way which activates suppressor cells. As alterations in local lymph node lymphocytes may enhance the ability of the DMBA-resistant APC to activate suppressor cells, these cells were examined in DMBA-treated mice. Lymph nodes in DMBA-treated mice had normal morphology but were larger and contained increased numbers of lymphocytes. Cell cycle analysis revealed that these lymphocytes did not arise from division within the lymph node, suggesting alterations in homing properties of lymphocytes. Contact sensitizer applied to DMBA-treated skin did not increase lymphocyte division, possibly due to suppressor cell inhibition of the development of effector lymphocytes. DMBA treatment had no effect on B cells or Ia expression, but decreased levels of the T lymphocyte cell surface molecule Thy-1, and increased L3T4 and Lyt-2 as quantitated by flow cytofluorimetry. These changes could influence the development of immune responses as these T cell molecules are receptors involved in lymphocyte interactions.     

Keratinocytes synthesize Ia antigen in acute cutaneous graft-vs-host disease

Keratinocytes express la antigen (Ia) during cutaneous graft-vs-host disease (GVHD); it is, however, unclear whether this Ia is adsorbed from alloactivated donor lymphocytes or from Ia-bearing host Langerhans cells (LC), or whether it is actively synthesized by host keratinocytes. We therefore sought to determine the origin of keratinocyte Ia in a murine model of GVHD. Lethally irradiated C3H/He (H-2k) mice developed characteristic histopathologic changes of acute cutaneous GVHD 7 days after injection of BALB/c (H-2d) bone marrow and spleen cells, and expressed keratinocyte Ia of host (Iak) but not donor (Iad) origin in immunofluorescence studies. To determine whether the Ia was synthesized by keratinocytes or adsorbed from host LC, we investigated GVHD that was induced in chimeric mice. Parental strain A mice were made chimeric by lethal irradiation and reconstitution with (A X B)F1 bone marrow cells as follows: (BALB/c X C3H/He)F1 (H-2d,k) leads to C3H/He (H-2k), B6C3F1 (H-2b,k) leads to C57BL/6 (H-2b), and B6C3F1 (H-2b,k) leads to C3H/He (H-2k). After 3 mo, the LC in the skin of these chimeric mice were mainly of F1 haplotype. The chimeric mice were again lethally irradiated and injected with marrow and spleen cells from a third strain of mouse (C57BL/6, H-2b or BALB/c, H-2d) histoincompatible with both F1 parental strains. In the ensuing GVHD, the chimeric recipients only expressed keratinocyte Ia syngeneic to the original haplotype of the animal (strain A), despite the fact that the majority of their LC were derived from F1 marrow and expressed Ia of both F1 parental strain haplotypes (strains A and B). Together, these findings indicate that keratinocyte Ia in GVHD is synthesized by keratinocytes and is not derived from donor lymphocytes or adsorbed from host LC.     

Clonal analysis of murine graft-vs-host disease. I. Phenotypic and functional analysis of T lymphocyte clones

Acute and chronic graft-vs-host disease (GVHD) due to non-MHC histocompatibility differences differ histopathologically. Acute GVHD is characterized by the cytotoxic destruction of recipient tissues, whereas chronic GVHD is characterized by increased collagen deposition. In an attempt to determine if acute and chronic GVHD represent two phases of the same pathophysiologic process or two distinct processes, the T lymphocytes from the C57BL/6 (B6) recipients of LP spleen cells (non-H-2 GVHD) have been cloned and compared to clones from immune mice (LP anti-B6). Acute GVHD (G) clones were established on day 10-14 posttransplant and chronic GVHD (CG) clones on day 50 from animals with clinical chronic GVHD. Immune (I) clones were established 10 to 14 days after immunization. All I clones exhibited B6-specific blastogenesis and cytotoxicity and had a Thy-1.2+, Lyt-2.2+, L3T4- phenotype. All CG clones were noncytotoxic, had I-Ab-specific blastogenesis, and had a Thy-1.2+, Lyt-2.2-, L3T4+ phenotype. The acute GVHD (G) clones were heterogeneous. Fourteen of 23 clones exhibited B6-specific blastogenesis and had a Lyt-2.2+, L3T4- phenotype (B6-G clones). Seven of 9 B6-G clones were cytotoxic for B6 targets. Nine of 23 G clones exhibited I-Ab-specific blastogenesis, and all but one clone had a Lyt-2.2-, L3T4+ phenotype as the did CG clones. Thus, the principal clonogenic T lymphocytes from mice with acute and chronic GVHD differ in terms of 1) their antigenic specificity, 2) their cytotoxic capacity, and 3) their surface phenotype. The presence of I-Ab-specific T lymphocytes with a phenotype identical to CG clones early after transplantation suggests that the immunologic events that result in chronic GVHD begin soon after transplantation. These results indicate that acute GVHD is due primarily to recipient-specific cytotoxic donor T lymphocytes, whereas chronic GVHD is due to autoreactive helper T lymphocytes.     

Dysfunction of irradiated thymus for the development of helper T cells

The development of cytotoxic T cells and helper T cells in an intact or irradiated thymus was investigated. C57BL/6 (H-2b, Thy-1.2) mice were whole body-irradiated, or were irradiated with shielding over either the thymus or right leg and tail, and were transferred with 1.5 X 10(7) bone marrow cells from B10.Thy-1.1 mice (H-2b, Thy-1.1). At various days after reconstitution, thymus cells from the recipient mice were harvested and a peanut agglutinin low-binding population was isolated. This population was further treated with anti-Thy-1.2 plus complement to remove host-derived cells and was assayed for the frequency of cytotoxic T cell precursors (CTLp) and for the activity of helper T cells (Th). In the thymus of thymus-shielded and irradiated mice, Th activity reached normal control level by day 25, whereas CTLp frequency remained at a very low level during these days. In the thymus of whole body-irradiated mice, generation of CTLp was highly accelerated while that of Th was retarded, the period required for reconstitution being 25 days and more than 42 days for CTLp and Th, respectively. Preferential development of CTLp was also seen in right leg- and tail-shielded (L-T-shielded) and irradiated recipients. Histological observation indicated that Ia+ nonlymphoid cells were well preserved in the thymus of thymus-shielded and irradiated recipients, whereas in L-T-shielded and irradiated recipients, such cells in the medulla were markedly reduced in number. These results suggest strongly that the generation of Th but not CTLp is dependent on radiosensitive thymic component(s), and that such components may represent Ia+ cells themselves in the medulla or some microenvironment related to Ia+ cells.     

T cell subsets in allograft rejection. In situ characterization of T cell subsets in human skin allografts by the use of monoclonal antibodies

We have provided evidence that both major T cell subsets, T4-positive (helper/inducer) and T8-positive (cytotoxic/suppressor), infiltrate human skin allografts. Overall, and in the graft dermis and graft bed, T4-positive cells were predominant (1.5 to 3 times more numerous than T8-positive cells). In contrast, T8-positive cells were relatively more numerous in the epidermis and hair follicles. Rejection probably proceeded by two apparently independent pathways: 1) direct contact killing of graft epithelial cells, presumably by immunologically specific T8-positive cytotoxic cells, and 2) injury of microvascular endothelium of both the graft and graft bed with secondary graft infarction. Although important in first set skin allograft rejection, the mechanism of the second type of killing is uncertain. T4-positive cells were probably involved, as evidenced by their greater numbers; furthermore, studies in mice have shown that transfused helper/inducer cells are able to effect first-set skin graft rejection. It remains to be determined whether T4-positive cells act alone or cooperate with other cells to destroy vessels and bring about graft rejection. Langerhans cells were recognized in epithelial and dermal compartments of both allografts and autografts by their reactivity with anti-T6 and anti-Ia antibodies. We could not determine whether such cells in allografts were of host or donor origin.     

Chronic graft-versus-host disease (GVHD) as a model for scleroderma. I. Description of model systems

A model murine system of chronic graft-versus-host disease (GVHD) was explored to determine its suitability for studying scleroderma-like syndromes. The basic protocol was to inject lymphoid cell suspensions into irradiated semiallogeneic or allogeneic recipients which had been irradiated. Serial body weights, skin biopsies, and anti-nuclear antibodies were followed. Changes seen in the skin included increased collagen deposition, a mononuclear infiltrate deep in the dermis, loss of dermal fat, and "dropout" of skin appendages such as hair follicles. Body weight loss was a sensitive index of GVHD. Anti-nuclear antibodies occurred at times, but did not correlate with the tissue changes in the skin of mice undergoing GVHD. This chronic GVHD syndrome was produced across major and minor histocompatibility barriers. The most consistent findings were seen in BALB/c recipients of B10.D2 cells. These strains are nonreactive in unprimed mixed-leukocyte cultures. This combination represents primarily a GVH reaction against minor antigens where the HVG reaction is suppressed by irradiation. Some data suggest that the cutaneous changes may be reversible with time.     

Cellular origin of blocking factors from cultured spleen cells of tumor-bearing mice

Spleen cells from mice bearing methylcholanthrene-induced tumors were cultured for 2 days without further stimulation. Blocking factors were consistently detected in culture supernatants by their ability to suppress leukocyte adherence inhibition reactions between soluble tumor antigens and peritoneal cells of tumor-bearing mice. The blocking factors were specific for individual tumors. The cellular origin of these factors was investigated by depleting the spleen cell population of various cell types before culturing. The cells involved were removed by treatment with antibodies to certain membrane markers (Thy-1, Ly-2, Ia, I-J) but not by anti-Ly-1 antibodies. Removal of adherent cells also prevented production of blocking factors, which was restored by reconstitution with syngeneic but not allogeneic cells from normal mice. The normal reconstituting cells were shown to bear Ia, but not I-J or IgM. This indicates that blocking factors (previously shown to have I-J determinants in their molecules) originate from suppressor T lymphocytes (Thy-1+, Ly-1-2+, I-J+), with macrophages (I-J-, Ia+) in the role of accessory cells.     

Effects of physicochemical agents on murine epidermal Langerhans cells and Thy-1-positive dendritic epidermal cells

The possibility that Thy-1-positive dendritic epidermal cells (Thy-1+DEC) may contribute to the immunologic functions of murine epidermal cells (EC) prompted us to simultaneously assess the effects of certain immunomodulating physicochemical agents on both Thy-1+DEC and Ia-bearing Langerhans cells (LC). C3H/He mice received one of the following treatment modalities: UV-B irradiation (four consecutive days); psoralen plus UV-A (PUVA; three times a week for three consecutive weeks); topically and systemically applied glucocorticosteroids (GCS). Beginning 2 days after the last treatment, animals were sacrificed and the structure and surface marker expression of Ia+EC and Thy-1+DEC were assessed by immunohistologic means on epidermal sheet preparations from ear skin by using appropriate monoclonal antibodies. Whereas low-dose UV-B irradiation (4 X 100 or 200 J/m2) had little, if any, effect on either Ia+EC or Thy-1+DEC, high-dose UV-B (4 X 700 or 1000 J/m2) or PUVA treatment led to an almost complete disappearance of both surface characteristics. Immunoelectron microscopic studies revealed that in the case of LC, high-dose UV-B or PUVA treatment results in the disappearance of their anti-Ia reactivity but leaves their ultrastructural morphology intact. In sharp contrast, Thy-1+DEC escape ultrastructural detection after PUVA treatment and are greatly reduced in number after high-dose UV-B. Ia+EC continuously reappeared with both treatment modalities over a course of 4 to 6 wk, whereas even after 14 to 22 wk Thy-1+DEC were present only in negligible numbers. Similar to high-dose UV-B or PUVA therapy, administration of GCS resulted in the disappearance of both anti-Thy-1- and anti-Ia-reactive cells. Ultrastructural studies disclosed, however, that these steroid-induced alterations in the surface characteristics were accompanied by a dramatic reduction of the LC population but were not paralleled by morphologic changes of Thy-1+DEC. In the course of 7 wk after cessation of steroid treatment, the number of both Ia+EC and Thy-1+DEC had returned to normal values. The selective removal of either of these two dendritic epidermal cell populations by physicochemical agents may provide an excellent strategy to further clarify the functional properties of both LC and Thy-1+DEC.     

Myostatin-null mice exhibit delayed skin wound healing through the blockade of transforming growth factor-β signaling by decorin

Myostatin (Mstn) is a secreted growth and differentiation factor that belongs to the transforming growth factor-β (TGF-β) superfamily. Mstn has been well characterized as a regulator of myogenesis and has been shown to play a critical role in postnatal muscle regeneration. Herein, we report for the first time that Mstn is expressed in both epidermis and dermis of murine and human skin and that Mstn-null mice exhibited delayed skin wound healing attributable to a combination of effects resulting from delayed epidermal reepithelialization and dermal contraction. In epidermis, reduced keratinocyte migration and protracted keratinocyte proliferation were observed, which subsequently led to delayed recovery of epidermal thickness and slower reepithelialization. Furthermore, primary keratinocytes derived from Mstn-null mice displayed reduced migration capacity and increased proliferation rate as assessed through in vitro migration and adhesion assays, as well as bromodeoxyuridine incorporation and Western blot analysis. Moreover, in dermis, both fibroblast-to-myofibroblast transformation and collagen deposition were concomitantly reduced, resulting in a delayed dermal wound contraction. These decreases are due to the inhibition of TGF-β signaling. In agreement, the expression of decorin, a naturally occurring TGF-β suppressor, was elevated in Mstn-null mice; moreover, topical treatment with TGF-β1 protein rescued the impaired skin wound healing observed in Mstn-null mice. These observations highlight the interplay between TGF-β and Mstn signaling pathways, specifically through Mstn regulation of decorin levels during the skin wound healing process. Thus we propose that Mstn agonists might be beneficial for skin wound repair.     

Analyses of acute graft-versus-host-like reaction in [MRL/lpr----MRL/+] chimeric mice using MRL/lpr-Thy-1. 1 congenic mice.

When MRL/Mp(-)+/+(MRL/+) mice are lethally irradiated and then reconstituted with MRL/Mp-lpr/lpr (MRL/lpr) bone marrow and/or spleen cells, these MRL/+ mice develop "lpr-GVHD" which is similar to acute graft-versus-host disease (GVHD). Using a Thy-1 congenic strain of MRL/lpr mice (MRL/lpr-Thy-1.1), we analyzed T cell subpopulations in the thymus and spleen of MRL/+ mice suffering from lpr-GVHD. lpr-GVHD was induced in MRL/+ mice by transplantation of bone marrow cells (BMC) from MRL/lpr-Thy-1.1 mice; severe lymphocyte depletion associated with fibrosis was observed in the spleens after 7 weeks of bone marrow transplantation (BMT). Thymocytes of the host MRL/+ thymus were replaced with donor-derived cells from the early stage of lpr-GVHD, whereas in the spleen, a small number of host T cells (Thy-1.2+) (4-5%) were retained until the late stage of lpr-GVHD. Donor-type (Thy-1.1+) T cell subsets were not different from those of nontreated MRL/+ mice in the thymus, whereas in the spleen. CD8+ T cells (Thy-1.1+) reached a peak at 5 weeks after BMT, and CD4+ T cells (Thy-1.1+), a peak at 6 weeks. The elimination of T cells from MRL/lpr BMC had no evident effect on the prevention of lpr-GVHD. T cell subpopulations showed a similar pattern to GVHD elicited by MHC differences. Analyses of autoreactive T cells expressing V beta 5 or V beta 11 revealed that autoreactive T cells were deleted from the peripheral lymph nodes. Interestingly, the levels of IgG anti-ssDNA antibodies markedly increased, and both IgM and IgG rheumatoid factors slightly increased 5 to 7 weeks after BMT. These findings are discussed in relation to not only GVHD elicited by MHC differences but also autoimmune diseases.     

Induction and regulation of contact hypersensitivity by resident, bone marrow-derived, dendritic epidermal cells: Langerhans cells and Thy-1+ epidermal cells

Circumstantial evidence suggests strongly that epidermal Langerhans cells (LC) alone among epidermal cells (EC) are responsible for generating an immunogenic signal for contact hypersensitivity (CH) after epicutaneous application of hapten. However, data obtained from previous studies performed with intact skin or isolated EC do not address the immunogenic capacity of a second dendritic, bone marrow-derived population of cells that resides within the epidermis, Thy-1+ epidermal cells. To identify the cellular source(s) of the antigenic signals emerging from the epidermis, purified preparations of LC, Thy-1+ cells, and keratinocytes were prepared from CBA/J mouse skin. Each cell type was derivatized in vitro with TNBS and inoculated via various routes into syngeneic mice that were assayed for the induction of CH and specific unresponsiveness. IA+ LC, when derivatized with hapten and inoculated into mice, induced CH without evidence of down-regulation regardless of the route of immunization. Derivatized Thy-1+ EC did not deliver a positive signal for CH. Rather, Thy-1+ EC possessed the capacity to initiate down-regulation of the CH response when they were delivered i.v. We conclude that all cellular elements necessary for the induction and regulation of CH after epicutaneous application of hapten to skin reside within the epidermis. The resident, dendritic, bone marrow-derived populations within the epidermis have the capacity to determine the outcome of an epicutaneous antigenic encounter.     

Structural and functional evaluation of modifications in the composite skin graft: cryopreserved dermis and cultured keratinocytes.

Structural and functional aspects of modifications in the composite skin graft consisting of cultured keratinocytes and cryopreserved dermis were determined. Cryopreserved human cadaveric dermis separated from skin by short and mild trypsinization was compared with dermis obtained by prolonged incubation in medium and with fresh dermis obtained by the same methods. All types of dermis were shown to retain normal ultrastructure and topographic organization, as detected by scanning and transmission electron microscope and immunofluorescence analysis. However, in fresh skin, the layers were more firmly attached, mechanical separation was more difficult, and residual epidermis often remained attached to the dermis. Keratinocytes attached better, began replication earlier, and generally reached higher cell numbers when cultured on trypsinized dermis than on medium-treated dermis. The performance of several modifications in the reconstitution and grafting procedures of the composite skin graft after transplantation to athymic mice was examined. Cultured epidermis combined onto trypsinized or medium-treated whole and meshed dermis, dermis pregrafted and allowed to take before transplanting epidermis on top, and keratinocytes grown into multiple epithelia on top of trypsinized meshed or whole dermis prior to grafting. The best grafting results were obtained with an "instant" reconstituted skin model: multiple epithelia grown in vitro combined immediately before grafting onto meshed trypsinized dermis. The transplantation results of this modification were significantly better than those of all the other modifications, including initial growth of keratinocytes into multiple epithelia on top of trypsinized dermis prior to grafting.     

Age-related changes in the relative numbers of Thy-1- and Lyt-2-bearing peripheral blood lymphocytes in mice: a longitudinal approach

Longitudinal and cross-sectional analyses of Lyt-2+ and Thy-1+ cell populations in the peripheral blood of aging male CBA and C57BL mice revealed that the relative number of Thy-1+, Lyt-2+ cells in the peripheral blood of both mouse strains remained relatively constant during the entire lifespan. The proportion of Thy-1+, Lyt-2- cells decreases with age, which indicates that major changes in the T-cell compartment with age must be attributed to the Lyt-2- helper compartment. For individual CBA mice, a direct relation between the relative number of Thy-1+, Lyt-2- cells at a certain age and the time remaining to live is demonstrated. The changes in the proportion of Lyt-2+ of total Thy-1+ cells in CBA mice show a regular pattern of slow increase with age followed by a rapid increase phase preceding the death of the animal. In C57BL mice, the development of the proportion of Lyt-2+ T cells with age showed various patterns. Rapid changes both positive and negative in these mice seem to be indicative of approaching death. The predictive value of Lyt-2+/Thy-1+ ratios at a given age for the remaining lifespan of individual mice is discussed.     

Histopathological and ultrastructural studies of cutaneous reactions elicited in naive and chronically infected mice by invading schistosomula of Schistosoma mansoni

Naive and chronically infected CBA mice were challenged percutaneously with cercariae and biopsied at varying times thereafter to provide skin samples for light and electron microscopy. The epidermis and dermis doubled in thickness in both groups; this change occurred within 3 h in immune mice and by 48 h in controls. Immune skin showed a 5-fold increase in total thickness by 72 h. Primary reaction sites were characterised by neutrophil infiltrates but in immune mice, eosinophils replaced neutrophils by day 2. Granulocytic micro-abscesses formed in the epidermis in both naive and immune skin; they entrapped cast cercarial tails and schistosomula and were eventually sloughed from the skin surface. An early loss of challenge parasites may occur in this way. Not all penetrated schistosomula completed transformation by developing the double outer membrane and these may constitute additional casualties. Schistosomula in immune but not naive skin were invested by a surface coat; this is suggested to represent an antigen/antibody complex. Significant numbers of larvae in immune skins were associated with intact granulocytes or free eosinophil granules and dead, infiltrated parasites occurred in the dermis. Such individuals may account for the additional attrition recorded in immune mice. Mast cells became associated with granulocytes in both groups of animals; they degranulated by simple exocytosis in naive skin but compound exocytosis in immune skin.     

Accelerated proliferation and abnormal differentiation of epidermal keratinocytes in endo-beta-galactosidase C transgenic mice

Transgenic (TG) mice that have systemically expressed endo-beta-galactosidase C (EndoGalC) have rough and flaky skin. This skin phenotype is detectable around 5 days postnatal and becomes obscure by 2 weeks after birth. Their epidermis is thickened but the dermis and hair follicles are normal in structure. EndoGalC, which removes the terminal Galalpha1-3Gal disaccharide (alphaGal epitope), was expressed in the epidermis of TG mice. GS-IB4 lectin staining showed that the alphaGal epitope did not exist in the epidermis in TG but existed in wild-type (WT) mice. In TG mice, N-acetylglucosamines were exposed by EndoGalC, which is detected using GS-II lectin. To understand the cause of the epidermal thickening and skin phenotype, we examined the proliferation and differentiation of kerationocytes. BrdU-pulse-labeling revealed that proliferating keratinocytes increased approximately three-fold in TG epidermis compared to WT one. In TG epidermis, the expression domain of cytokeratin 14 increased from 1-2 layers to 4-5 layers and co-expressed with cytokeratin 6 and 10 in the upper layers. The layers expressing involucrin and loricrin also increased but those expressing filaggrin and transglutaminase looked normal. The localization of E-cadherin was similar in both TG and WT mice. Although TG mice showed delayed development of the barrier function around 8 days postnatal, they acquired the function by 12 days after birth. These results suggest that the absence of the alphaGal epitope or the exposed N-acetylglucosamine terminal could play a critical role in the proliferation of basal keratinocytes and differentiation of them into the spinous cells in newborn mice.     

Correlation between keratinocyte expression of Ia and the intensity and duration of contact hypersensitivity responses in mice

Langerhans cells are the only cells within the epidermis that normally express immune response-associated antigens (referred to as Ia in mice and HLA-D in humans). However, in the epidermis of patients with allergic contact dermatitis or individuals undergoing a delayed-type hypersensitivity response, the keratinocytes at the reaction site are induced to express HLA-DR. In this study the inducible expression of Ia by the keratinocytes of mice was found to be directly correlated with the intensity and duration of experimentally induced contact hypersensitivity (CH) responses. During a CH response in animals that were sensitized on the belly and challenged on the ear with the contact-sensitizing (CS) agent oxazolone, the keratinocytes in the challenged, but not the unchallenged, ear were induced to express Ia. In comparison with animals that were sensitized and challenged at different sites, an intensified expression of Ia by the keratinocytes was associated with a twofold increase in ear swelling in mice that were sensitized and challenged with oxazolone at the same site. Curiously, the challenge of oxazolone-sensitized ears with dinitrofluorobenzene (an unrelated CS agent), croton oil (a nonspecific inflammatory agent), or acetone/olive oil (a noninflammatory agent) also induced both a marked keratinocyte expression of Ia and an enhanced CH response. These results suggest that residual antigen at the original sensitization site may be mobilized to function as the challenge stimulus to elicit a CH response, in association with keratinocyte expression of Ia, when CS-sensitized skin is perturbed with a nonspecific agent. Further evidence of an association between CH responsiveness and keratinocyte expression of Ia came from the following observations. First, the magnitude and duration of a CH response was markedly increased in pertussis toxin (PT)-treated mice. These enhanced responses were associated with intense Ia expression by the keratinocytes in the epidermis at the reaction site. Because PT is known to have an adjuvant effect on delayed-type hypersensitivity reactions, as well as to alter the normal regulatory mechanisms associated with this type of response, it is possible that Ia+ keratinocytes play a synergistic role in the enhanced CH responses that are observed in PT-treated animals. Second, a direct correlation between keratinocyte expression of Ia and CH responsiveness was observed in athymic nude mice that were challenged with oxazolone after receiving an adoptive transfer of lymphoid cells from oxazolone-primed normal syngeneic donors.(ABSTRACT TRUNCATED AT 400 WORDS)