识别胸腺髓质上皮细胞和胸腺树突状细胞的单链抗体的筛选

目的　利用噬菌体展示技术寻找胸腺基质细胞表面的新抗原。方法　用培养的胸腺基质细胞系MTDC作为靶抗原富集初级噬菌体抗体库 ,从经过富集后的次级抗体库中挑选克隆 ,制备单链抗体 ,并在冰冻切片及培养的细胞系上检测抗体的特异性。结果　从经 4轮富集的次级抗体库中挑选到一个新的克隆。用此克隆制备的单链抗体可同时辨认胸腺髓质上皮细胞亚群和胸腺树突状细胞亚群。结论　胸腺髓质上皮细胞和胸腺树突状细胞均具有异质性 ,同时噬菌体展示技术可以作为寻找细胞表面新分子的强有力工具。     

Analysis of the thymic microenvironment by monoclonal antibodies with special reference to thymic nurse cells

Two hybridoma cell lines secreting monoclonal antibodies against stromal tissues of mouse thymus were produced using the spleen cells of BALB/C mice immunized with newborn thymic homogenate of C57BL/6 mice emulsified in Freund's complete adjuvant. The monoclonal antibody Th-3 reacted with stromal cells in the thymic cortex and the monoclonal antibody Th-4 reacted with stromal cells in the thymic medulla. The stromal cells revealed by Th-3 showed a meshwork structure in the cortex, and formed a monolayered border at the cortical surface and around the vasculature. Each mesh of this structure was connected to each other, forming a complex labyrinth and being open toward the medullary area. Neither lymphoid cells nor any cells in any other organs were reacted with this Th-3 antibody. However, the reactivity of Th-3 with the thymic cortical stromal cells was observed not only in C57BL/6 mice which had been used as source of antigen, but also in other strains of mice such as C3H and BALB/C. Immunoelectron microscopy revealed that Th-3 monoclonal antibody was reactive with some component, diffusely present in the cytoplasm of cortical epithelial cells. The pattern of Th-3 positive meshwork in the thymic cortex was quite similar to that stained by either anti-IA or anti-IE antibody, but the Th-3 positive reaction was not inhibited by these anti-IA and anti-IE antibodies. Thymic nurse cells prepared by the method of Wekerle were positive for Th-3 antibody. On the contrary, Th-4 reacted only with epithelial cells in the thymic medulla. It was suggested that Th-3 monoclonal antibody detected some antigen specific to so called thymic nurse cells.     

Characterization of a monoclonal antibody, RTE-21, that binds to keratohyalin granule-associated proteins in epithelial cells of human skin and thymus

The role of skin and thymic epithelium in the promotion of T-cell activation and maturation is currently an area of great interest. In thymus, epithelium is located in the cortex, medulla, and in medullary epithelial swirls called Hassall's bodies. During studies of antigens shared by skin and thymic epithelial cells, we produced a murine monoclonal antibody (RTE-21) raised against the rat thymic epithelial cell line, IT26R21, that identified an antigen present in terminally differentiated epithelium of normal human skin and thymus. In indirect immunofluorescence studies, antibody RTE-21 identified cytoplasmic granules located in the stratum granulosum of normal human skin, Hassall's bodies of human thymus, and in a subset of cells of the IT26R21 rat thymic epithelial cell line. Moreover, the granular reactivity pattern of antibody RTE-21 in the stratum granulosum could be extracted by 1 M potassium phosphate (1 M KPO4). A 1 M KPO4 extract of epidermis containing keratohyalin granule proteins was dialyzed against distilled water, solubilized in reduced sample buffer and subjected to polyacrylamide gel electrophoresis and Western immunoblot analysis. In this assay, antibody RTE-21 recognized proteins of 70, 36, 34, and 30 kDa. Using antibody RTE-21 and indirect immunofluorescence, we demonstrated that keratohyalin granules in human thymus were localized exclusively to Hassall's bodies. These data support the notion that human thymic Hassall's bodies result from terminal differentiation of medullary thymic epithelium. Thus, antibody RTE-21 should be an important probe for the study of skin and thymic epithelial cell maturation in vitro and in vivo.     

小鼠胸腺基质细胞株中细胞多核化现象探讨

在建立小鼠胸腺基质细胞株时发现小鼠胸腺基质细胞株ＭＴＳＣＢ和ＭＴＳＣＣ自发产生多核细胞及单核巨细胞，对上述细胞进行了非特异性酯酶（ＮＳＥ）、酸性磷酸酶（ＡｃＰ）和琥珀酸脱氢酶（ＳＤＨ）反应，多核细胞及单核巨细胞的ＮＳＥ、ＡｃＰ和ＳＤＨ活性均强于单核小细胞。在ＭＴＳＣＢ中多核细胞的百分数为１．１％；ＭＴＳＣＣ中多核细胞为０．６％，实验中对一核细胞和多核细胞出现的百分数与Ｐｏｉｓｓｏｎ分布的理论频率进     

A monoclonal antibody to cell surface antigen of human thymic epithelial cell.

The cell surface molecule identified by a monoclonal antibody(TE-1) to human thymic epithelial cell showed the specificity for thymic epithelial cells of both the cortex and medulla. TE-1 reacted with the epithelial cells of normal thymus and thymoma in fresh frozen tissues. The antigen recognized by TE-1 was mostly confined to the cell surface membrane and arranged in reticular network with long processes between thymocytes. On immunohistochemical analysis, TE-1 did not recognize normal epithelial cells of the uterine cervix, skin and stomach, and neoplastic cells of squamous cell carcinoma and gastric adenocarcinoma, all of which were stained with anti-cytokeratin monoclonal antibody. Among the tumor cell lines tested with flow cytometry, most of epithelial and all of hematopoietic cell origin were not labeled with TE-1. In summary, TE-1 appears to be a monoclonal antibody against a surface antigen of human thymic epithelial cell that is immunohistologically different from known epithelial cell surface antigens reported so far.     

An improved method for purifying human thymic dendritic cells

Thymic dendritic cells (DC) play a prominent role in the immune response as they constitute a key element involved in the maturation of thymocytes in the thymus. Human thymic DC, like DC from other lymphoid organs, represent a minor cell population (< 2%) of the thymus. Since these cells cannot replicate in vitro, the development of efficient purification methods is an essential prerequisite for extensive functional studies. DC express high levels of HLA-DR, a cell surface marker of the MHC class II antigen which is not exclusive to DC. Since no specific human thymic DC marker has been identified so far, DC purification methods are mainly based on depletion of particular subgroups of cells. We report here an improved method for purifying human thymic dendritic cells. In contrast to prior work, CD2⁺ thymocytes were first depleted by rosetting with neuraminidase treated sheep red blood cells. The nonrosetted cells were separated in a Percoll gradient, and the low-density cells were subsequently depleted of nondendritic cells by using thymocyte and macrophage specific monoclonal antibodies and either magnetic bead depletion or cytofluorometry. Cell populations (18–55 × 10⁶ cells) obtained following magnetic bead purification were at least 80% HLA-DR⁺/CD2⁻ and exhibited ultrastructural morphological features and functional activities such as those described previously for thymic DC. This improved method was compared with different purification approaches that use various combinations of cell density-based separation techniques and cell surface specific markers antibody reactivity. The magnetic beads depletion approach provided higher yields.     

Immunohistochemical reactivity of a monoclonal antibody prepared against human breast carcinoma

Summary The reactivity profile of an IgM monoclonal antibody, MBR1, raised against the human breast cancer cell line MCF7, was studied in a variety of human tumours and non-neoplastic tissues by light microscopic immunohistochemistry. The range of reactivity included specific types of non-neoplastic epithelial cells and a number of epithelial tumours. Most mammary carcinomas reacted with MBR1, but adenocarcinomas and squamous carcinomas from different sites were also strongly positive. Different patterns of immunoreactivity were apparent in microscopically normal tissues, in tissues with inflammatory changes and in carcinomas. Heterogeneous staining, despite morphological similarities, was documented in neoplastic and non-neoplastic epithelial cells. The reactivity of MBR1 was different from that reported for other monoclonal antibodies, but revealed similarities to that of monoclonal antibodies and polyclonal sera against human milk fat globule membrane.     

Monoclonal antibodies (BL7 and BL9) having crossed reactivity with cells of the human epidermis

The relationships between epithelial cells and immunocompetent cells could be approached by studying of the common antigens expressed by these two cell types. This paper reports the study of two monoclonal antibodies (BL7 and BL9) which react with epidermal cells. BL7 was obtained after immunization of mice with human thymic cell suspensions and BL9, after immunization with Raji cells. BL7 stained the epithelial network of the thymus and the basal cell layer of the epidermis. BL7 also reacted with the endothelial cells of the vessels of the dermis. This reactivity against the basal cell layer of the epidermis was observed in man, mice and rabbit. BL9 showed a reactivity against thymic epithelial cells and stained the membrane of the keratinocytes of the human epidermis. The antigenic expression revealed by BL9 decreased during the epidermal cell differentiation and disappeared in the horny layer. BL9 showed no reactivity with the epidermis of mice and rabbit. These two monoclonal antibodies are new tools in cutaneous immunopathology: BL7 is the first monoclonal experimental marker which identifies the basal cells of the epidermis, BL9 identifies an antigen related to the human epidermal cell differentiation.     

In vitro growth and phenotypic characterization of mesodermal-derived and epithelial components of normal and abnormal human thymus

Long-term in vitro cultures of human thymic tissue were established and phenotypically characterized using monoclonal reagents that define distinct components of the human thymic microenvironment. The epithelial component of the thymus, defined by monoclonal antibodies TE-3, TE-4, BBTECS, and AE1 (anti-keratin) was isolated from the mesodermal component, defined by antibody TE-7, and maintained separately in long-term culture. The epithelial cells were subcultured repeatedly and recovered from storage in liquid nitrogen. The in vitro phenotype of the cultured cells was compared to that of cultured human epidermal cells. A subpopulation of cultured thymic epithelial cells along with a subpopulation of cultured epidermal cells expressed antigens (TE-8, TE-15) characteristic of late stages of keratinized epithelial cell differentiation. Thus, we have established a system whereby components of the human thymic microenvironment can be cultivated in vitro while maintaining the capacity to differentiate. This approach can be used to evaluate the role of components of the thymic microenvironment at various stages of differentiation on developing T lymphocytes. In addition, keratin-containing thymic epithelial cells were successfully cultured from thymuses obtained from patients with myasthenia gravis and thymoma. Cultivation of abnormal thymic epithelium will provide insight into aberrant T lymphocyte-thymic epithelial interaction.     

两种小鼠胸腺基质细胞对胸腺细胞凋亡的不同作用

采用两种体外建系的小鼠胸腺基质细胞（ＴＳＣ）系，即上皮样ＴＳＣ（ＭＴＥＣ１）和树突状ＴＳＣ（ＭＴＳＣ４），观察其对胸腺细胞凋亡的影响。小鼠胸腺细胞在体外培养过程中，可自发地出现细胞凋亡的特征，表现为ＤＮＡ呈梯度断裂片段，细胞经ＦＡＣＳ分析出现亚二倍体ＤＮＡ波峰，以及Ｆｅｕｌｇｅｎ′ｓ染色镜检所见的ＤＮＡ凝聚和断裂。胸腺细胞在与ＴＳＣ共育后，在ＭＴＥＣ１组可见其凋亡过程受到抑制和存活率的增加；在ＭＴＳＣ４组，仅在共育１２至１８小时时，见到胸腺细胞凋亡加强，而其存活率不受影响。结果提示在胸腺细胞发育过程中，其阴性选择作用的主要机制之一的ＰＣＤ过程受不同来源的胸腺基质细胞的调节。     

Reactivity of T lymphotropic retrovirus antibody (12/1-2) in man: comparison of epidermis with other epithelial cells.

The reactivity of a monoclonal antibody against human T lymphotropic retrovirus (antibody 12/1-2, recognising the HTLV-1 p19 internal core viral protein) with benign and malignant cutaneous biopsy specimens was examined and compared with results obtained on normal skin, on various other human cells and tissues, and on immunoblotted extracts of tonsil squamous epithelium. In keeping with previous studies, 12/1-2 labelled a proportion of the thymic epithelial stroma and the entire layer of basal cells in stratified non-keratinized and keratinized epithelium. Furthermore, antibody 12/1-2 reacted with basal cell carcinomas and showed an essentially identical staining pattern in normal skin, cutaneous T cell lymphomas, and a range of benign dermatoses. The dot blot preparations showed that 12/1-2 recognised an antigen associated with keratin intermediate filaments. These data indicate that antibody 12/1-2 forms a useful marker for subsets of epithelial cells, which presumably participate in T cell education, and that a range of cutaneous disorders of widely different aetiology show no abnormalities in epithelial expression of this antigen.     

Disorganization and restoration of thymic medullary epithelial cells in T cell receptor-negative scid mice: evidence that receptor-bearing lymphocytes influence maturation of the thymic microenvironment

In order to assess the possible role of lymphoid cells in the development of thymic epithelium, we compared the organization and maturation of thymic epithelium in scid mice lacking T cell receptor (TcR)-positive cells with that in scid mice containing TcR+ cells. Immunohistologic examination revealed that thymi from TcR- scid mice were deficient in thymic medullary epithelial cells recognized by the monoclonal antibody ER-TR5, and that the few thymic medullary epithelial cells present were not organized into discrete medullary areas. In contrast, thymi from scid mice containing TcR+ cells possessed ER-TR5+ thymic medullary epithelial cells and these cells were organized normally into discrete medullary regions. Thus, normal organization and maturation of thymic medullary epithelial cells did not occur in the absence of TcR+ cells, but did occur upon introduction of TcR+ cells. We conclude that lympho-stromal cell interactions in the thymus are not unidirectional, and that a symbiotic relationship exists between maturing epithelial cells and developing lymphocytes.     

Thymocytes and RelB-dependent medullary epithelial cells provide growth-promoting and organization signals,respectively, to thymic medullary stromal cells

The thymic medulla is composed of distinct epithelial cell subsets, defined in this report by the reactivity of two novel antibodies, 95 and 29, raised against mouse thymic epithelial cell lines. These antibodies were used to probe the development of medulla in wild-type or mutant thymuses. In CD3σ-deficient mice where thymocyte maturation is arrested at the CD4^? CD8^? stage, few scattered 95⁺ and 29⁺ epithelial cells are found. When few mature thymocytes develop as in CD3-ζ/η mice, expansion and organization of 95⁺ but not 29⁺ cells, becomes detectable. In RelB-deficient mice, T cell maturation proceeds normally but negative selection is inefficient due to the lack of thymic medulla and dendritic cells. Strikingly, 29⁺ epithelial cells are absent and 95⁺ medullary epithelial cells are scattered throughout the thymus, intermingling with CDR1⁺ cortical epithelium. In chimeric mice lacking only dendritic cells, the corticomedullary junction persists and both 95⁺ and 29⁺ epithelial cells are localized in the medulla. These results suggest that two types of signals are required for development of thymic medulla. A growth signal depends upon the presence of maturing thymocytes, but organization of the thymic medulla requires the presence of activated 29⁺ medullary epithelial cells.     

Evidence for the Expression of Thy-l-Analogous Structures on Human Thymic Epithelial Cells

Cultured human thymic tissue was examined electron microscopically and analysed for the expression of the Thy-l-analogous antigen. It was found that almost all cultured cells were of epithelial appearance, exhibiting both tonofibrils and well-developed demosomes. Absorption of an anti-human brain serum highly purified for antibodies directed against the non-species-specific determinant of the Thy-l-analogous antigen with these cultured cells revealed its presence on thymic epithelial cells. Using the indirect peroxidase-labelled antibody technique, this molecule could be localized on the non-attached cell surface of human thymic epithelial cells with the preference of their cell processes. The biological significance of the expression of this antigen on the thymic epithelial cells of various species for cellular interaction within the thymus is discussed.     

Restricted expression of transgenic HLA-DRA gene in thymic epithelial cells and its role in acquisition of T cell tolerance to self-superantigens and processed DRα-derived peptide

We have established a set of transgenic mouse lines in which the HLA-DRA gene was expressed in different cell types. In one line (DRα-24), DRαEβ^b molecules were expressed on thymic medullary and cortical epithelial cells and all lineages of bone marrow-derived antigen-presenting cells (APC) except for thymic macrophages. By contrast, expression of the molecules in another line (DRα-30) was found on thymic medullary and cortical epithelial cells but not on bone marrow-derived APC in the thymus and periphery. To evaluate the role of thymic epithelial cells in acquisition of T cell tolerance, comparative analysis of DRα-24 and DRα-30 was performed. In DRα-30, T cells expressing TcR Vβ5 and Vβ11 were eliminated to comparable levels to those in DRα-24, suggesting that expression of the DRαEβ^b molecules on thymic epithelial cells are sufficient for clonal deletion of the self-superantigen-reactive T cells. In addition, CD4⁺ T cells from DRa-30 as well as those from DRα-24 were tolerant to DRα-derived peptide/I-A^b complex expressed on spleen cells from DRα-24 even in the presence of exogenous interleukin-2. These observations suggest that expression of the DRα chain in thymic epithelial cells could induce T cell tolerance directed toward naturally processed DRα-derived peptide bound to I-A^b molecules, probably via clonal deletion of the self-reactive T cells.     

Immunohistochemical characterization of an anti-epithelial monoclonal antibody (mAB lu-5)

Summary A mouse monoclonal antibody (mAB lu-5) was prepared using a lung cancer cell line as an antigen. The selected clone produces an IgG with a gamma-1 heavy chain and a kappa-light-chain. Immunohistochemical testing of mAB lu-5 on 117 normal tissue biopsies and 474 tumours revealed reactivity with an intracytoplasmic, formaldehyderesistant antigen present in most epithelial and mesothelial cells, but absent in mesenchymal cells. The antibody can therefore be used as a first order, pan-epithelial marker. It proved also useful for fast tumour diagnosis on frozen sections.     

PE-35-related antigen expression and CD1a-positive lymphocytes in thymoma subtypes based on Müller-Hermelink classification

PE-35 monoclonal antibody, detecting a cell-surface antigen of various types of carcinoma and normal epithelium, reacts exclusively with the medullary epithelium in the thymus; therefore, the antigen has been considered as a marker of medullary differentiation in thymomas. Using the catalyzed signal amplification method, which made it possible to apply PE-35 to routinely processed, archival tissues, we examined expression of this antigen, together with CD1a reactivity of lymphocytes, in 40 thymic epithelial tumors subclassified using the Mü1ler-Hermelink system. Medullary thymomas infiltrated with a small number of CD1a-negative lymphocytes were PE-35 positive, although many of the long spindle tumor cells were PE-35 negative. Mixed thymomas and predominantly cortical thymomas, both with prominent CD1a-positive lymphocytes, were also PE-35 positive, although some areas of the latter type were PE-35 negative. Cortical thymomas with decreased numbers of CD1a-positive lymphocytes were largely PE-35 negative. In well-differentiated thymic carcinomas with a few CD1a-positive lymphocytes, two cases were negative, but four cases were at least focally positive with PE-35. All high-grade thymic carcinomas infiltrated with some CD1a-negative lymphocytes were PE-35 positive. These results suggested that medullary thymoma generally possesses the medullary nature, although the latter tends to be lost in the long spindle tumor cells. Mixed and predominantly cortical thymomas may have mixed medullary phenotype and cortical function. Cortical thymoma and many well-differentiated thymic carcinomas may possess the cortical nature, while the large polygonal tumor cells tend to lose immature T-lymphocyte-retaining function. Received: 25 January 1999 / Accepted: 14 July 1999     

Spatial (Tbata) expression in mature medullary thymic epithelial cells

The Spatial gene is expressed in highly polarized cell types such as testis germ cells, brain neurons and thymic epithelial cells (TEC). Its expression was documented in testis and brain but poorly characterized in thymus. Here, we characterize for the first time Spatial‐expressing TEC throughout ontogeny and adult mouse thymus. Spatial is expressed in thymic‐fated domain by embryonic day E10.5 and persists in subcapsular, cortical, medullary epithelial cells and in MTS24⁺ progenitor TEC. Using mouse strains in which thymocyte development is blocked at various stages, we show that Spatial expression is independent of thymocyte‐derived signals during thymus organogenesis. Analyses on purified thymic cell subsets show that Spatial short isoforms are expressed in cortical TEC (cTEC) and mature medullary TEC (mTEC). Spatial long isoforms were detected in the same TEC population. Spatial presents a nuclear distribution specific to mature mTEC expressing UEA1 and Aire. Aire‐ and RANKL‐deficient mice revealed that Spatial expression is drastically reduced in the thymus of these mutants. These findings reveal a critical function of Aire in regulating Spatial expression, which is compatible with promiscuous Spatial gene expression.     

Immunocytochemical Localization of a Medullary Thymic Epithelial Glycoprotein

The thymic microenvironment is known to play a key role in T-cell differentiation, but the exact nature of the interactions between epithelial and lymphoid cells has not been fully elucidated. With a monoclonal antibody to a thymic epithelial glycoprotein, we report the localization of an antigen specific for medullary epithelial cells of the mouse thymus. This antigen is found in the Golgi apparatus of epithelial cells, and on their borders with adjoining lymphocytes. This location is compatible with the previously reported observation that differentiation signals transmitted to thymic lymphocytes by thymic epithelial cells require actual contact between these two cell types.     

Sheep lymphocyte antigens (OLA). II. Major histocompatibility complex class II molecules

A panel of monoclonal antibodies have been produced which recognize monomorphic determinants of sheep MHC Class II antigens, including an allogenically derived murine monoclonal antibody specific for the I-E gene product. Immunoprecipitation and SDS-PAGE analyses indicates that these monoclonal antibodies recognize a non-covalently associated glycoprotein complex of molecular weight 30-32 kDa (alpha chain) and 24-26 kDa (beta chain). One and two colour immunofluorescence was used to measure the distribution of these 'Ia-like' antigens on mononuclear cells from various lymphoid organs. They were found almost exclusively on lymphocytes expressing surface immunoglobulin (B lymphocytes) and on a small population of surface immunoglobulin negative cells. Most thymocytes were negative for Class II molecules while thymic epithelial cells were positive. The tissue distribution of Class II molecules was found to be similar to that described in man. Individual monoclonal antibodies displayed no variations in reactivity with the different tissues studied.