IL-1诱导小鼠胸腺上皮细胞(MTEC1)克隆分泌化学趋化因子

通过将本室所建小鼠胸腺上皮细胞系MTEC1进行克隆,获得由单一细胞来源的12个MTEC1-DW细胞克隆,检测各克隆分泌IL-1,IL-6及CF活性,分析诱导MTECl-DW细胞克隆分泌CF的因素.选择不分泌IL-1及CF的MTEC1-DW克隆,于细胞培养中加入外源IL-1或/及IL-6,分析其细胞培养液中CF活性;选择分泌高活性IL-1及CF的MTEC1-DW克隆,于细胞培养中加入抗IL-1mAb,阻断IL-1活性,分析其细胞培养液中CF活性.结果显示IL-1能诱导MTEC1-DW细胞克隆分泌CF,IL-6的这种作用则很微弱.     

IL—1诱导小鼠胸腺上皮细胞（MTEC1）克隆分泌化学趋化因子

To analyze the capability of IL-1 and IL-6 in the induction of chemokine (CF) production by mouse thymus epithelial cell (MTEC1) clones, MTEC1 cells were cloned through one cell culture and individual cell clones were established in long term culture referred to as MTEC1-DW clones. The constitutive production of IL-1, IL-6 and CF by MTEC1-DW clones was evaluated and the patterns of the cytokine production determined. Addition of exogenous IL-1 or IL-6 or both to the cultures of those MTEC1-DW clones that are unable to produce CF, and incubated for 2 days, then, to assess the chemotactic activity in the cell culture supernatants (SNs). In the opposite, addition of anti-IL-1 mAb(s) to the cultures of those MTEC1-DW clones that can produce IL-1 and CF to neutralize secreted IL-1 then, to test chemotactic activity in the SNs after 2-day incubation. The results showed that in the MTEC1-DW clones which were unable to constitutively produce IL-1 or CF, addition of IL-1 could induce these cloned cells to produce CF with high chemotactic activity. By constrast, addition of anti-IL-1 mAb(s) to those MTEC1-DW clones that constitutively produce IL-1 and CF could significantly inhibit them to produce CF. IL-6 only exhibited weak activity in the induction of CF production by those cloned cells. Therefore, in the cytokine network regulation, CF production is mainly induced by endogenously produced IL-1 in MTEC1 cells.     

Difference in requirement of macrophage products for concanavalin A-induced production of eosinophil chemotactic factor and macrophage chemotactic factor from guinea pig lymphocytes in vitro

Differences between the conditions for an eosinophil chemotactic factor (ECF) and macrophage chemotactic factor (MCF) production by lymphoid cells of mesenteric lymph nodes and spleen were studied in guinea pigs. If lymphoid cells were washed less than 4 hr after concanavalin A (Con A) stimulation and were cultured for an additional 24 hr, they failed to produce ECF, whereas Con A stimulation for 1 hr before washing was sufficient to stimulate them to produce MCF. Subsequently, it was shown that heat-labile soluble factors (termed ECF-PF) with potentiating activity for ECF production are produced from macrophages by 5 micrograms/ml Con A activation. When ECF-PF were added to the cell culture with 5 micrograms/ml Con A, the lymphoid cells could produce ECF even when they were washed 2 hr after Con A stimulation and were cultured for an additional 24 hr, suggesting that ECF-PF plays a critical role in the early stage of ECF production. The lymphoid cells were also able to produce ECF even when they were cultured with ECF-PF and a suboptimal dose of Con A (1 microgram/ml) for ECF production. Protein synthesis seemed to be essential for ECF-PF production. The ECF-PF activity was associated with two separated molecular fractions with m.w. of about 50,000 to 70,000 and of 10,000 to 20,000. It is thus suggested that ECF is produced from T cells by Con A stimulation under conditions which differ, at least, from those for MCF in the requirement of ECF-PF.     

Migration of putative progenitor T cells in response to thymus-derived chemotactic factors

Progenitor T cells reach the thymus through the circulation from hematopoietic organs and then migrate toward the site of differentiation in the thymus. The mechanism that regulates such intrathymic migration is not well understood. In order to clarify this mechanism, in vitro chemotactic activity for murine thymocytes was assayed in the extracts and culture supernatants of thymic tissue elements. A potent thymocyte chemotactic activity was found in the extract and culture supernatant from Ig-, Ia- thymic stromal cells. Peanut agglutinin-positive (PNA+1), Thy 1+, TL-, Lyt 1+2-, L3T4- thymocytes, Ig-, Thy 1- bone marrow cells, and mononuclear cells of spleen and peripheral blood, but neither B cells nor lymph node cells, were chemotactically attracted by the factor(s). The chemotactic activity was found in none of the following materials tested: the extract and culture supernatant of thymocytes, culture supernatant of lymph node stromal cells, normal mouse serum, and zymosan-activated serum. The chemotactic activity was found in three molecular fractions by gel chromatography. The activity in all three fractions was destroyed by trypsin digestion or by heating at 56 degrees C for 30 min. These results suggest that Ig-, Ia- thymic stromal cells but not thymocytes secrete a chemotactic factor(s) for progenitor T cells with three molecular species. The factor is considered to play an important role in the migration of intrathymic progenitor T cells into the site of differentiation.     

Correlation between production of colony-stimulating activity (CSA) and adipose conversion in a murine marrow-derived preadipocyte line (H-1/A)

The correlation between adipose conversion of cloned H-1 cells (H-1/A) and their production of colony-stimulating activity (CSA) was examined. The production of CSA from H-1/A cells declined after adipose conversion, although H-1/A cells are active producers of CSA during their fibrocytic stage. The addition of 2 X 10(-5) M 5-bromo-2'-deoxyuridine to the cultures almost completely inhibited adipose conversion and there was no reduction of CSA levels after 9 days of culture. On the other hand, the addition of 10(-6) M hydrocortisone sodium succinate to the culture markedly enhanced adipose conversion, and a greater reduction in the CSA level was observed in the supernatants than in the control cultures after 12 days of culture. Indomethacin had no effect on the production of CSA or on adipose conversion. Furthermore, there were no significant differences between the CSA levels of nondialyzed supernatants and dialyzed supernatants from the control cultures during the entire course of the experiment. Supernatants during the adipocyte stage of H-1/A cultures did not inhibit the CSA derived from the fibrocytic stage. There were no differences in colonies in agar cultures stimulated by supernatants derived from cultures that had undergone either of the above treatments. These results suggest that the reduction of CSA is not due to the production of inhibitors, but that the production of CSA declines after adipose conversion of H-1/A cells. Preadipocytes in bone marrow therefore appear to contribute to granulopoiesis during the fibrocytic stage and are hematopoietically inactive when they convert to adipocytes.     

Two distinct mechanisms for stimulation of oxygen-radical production by polymorphonuclear leucocytes.

Oxygen-radical production stimulated from rat polymorphonuclear leucocytes by either unopsonized latex particles (diameter = 1.01 microM) or chemotactic peptide (N-formyl-Met-Leu-Phe) was monitored by using luminol-dependent chemiluminescence. Azide inhibited by more than 80% the luminescence response induced by chemotactic peptide whether added before or after stimulation. However, the luminescence response to latex particles was progressively less susceptible to azide inhibition if the azide was added after the stimulus. Cytochalasin B, which was shown to abolish phagocytosis of the latex beads, also abolished the chemiluminescence response. However, the same cells showed a greatly enhanced response to chemotactic peptide. Cytochalasin B-treated cells secreted approx. 45% of total cellular myeloperoxidase in response to chemotactic peptide, but there was no detectable secretion in response to unopsonized latex particles. Microperoxidase equivalent to 20% of cellular peroxidase activity added to the cells before addition of the stimulus had no effect on the response to latex particles but increased approx. 2-fold the peak rate of chemiluminescence induced by chemotactic peptide. It was concluded that the unopsonized latex particles stimulated oxygen-radical production by the mechanism that involved endocytosis, whereas chemotactic peptide stimulated production by a mechanism that involved exocytosis of myeloperoxidase, the latter mechanism requiring an increase in intracellular free [Ca2+].     

IFN-gamma retards the turnover of H-2Dd antigens by splenic lymphocytes

The effect of IFN-gamma on the rate of shedding and biosynthesis of H-2Dd was determined by culture of cell surface-radioiodinated BALB/c spleen cells with rIFN-gamma or spleen cells metabolically labeled with 35S-methionine in the presence of IFN-gamma. Radioiodinated or 35S-labeled H-2Dd was quantitated by immunoprecipitation of H-2Dd from detergent lysates of radiolabeled cells taken at different culture intervals. The loss of 125I-labeled H-2Dd was retarded 75 to 90% by IFN-gamma whereas the biosynthetic rate was unaffected during the first 10-h culture. The net result was a ninefold increase in newly synthesized cell-associated H-2Dd. The results were consistent with determination of the kinetics of increased expression of H-2Dd determined by immunofluorescence and suggest that an early effect of IFN-gamma on the expression of class I Ag is a retardation of catabolism leading to an increase of newly synthesized class I Ag.     

Functional and immunological analysis of recombinant mouse H- and L-ferritins from Escherichia coli

The production and characterization of recombinant mouse H- and L-ferritin chains from Escherichia coli are described. The proteins were efficiently expressed and purified with yields of 7-40 mg per liter of cell culture. They had the expected molecular mass and showed a physical stability analogous to that of the corresponding human ferritins. Mouse H- and L-ferritins had a very similar mobility on denaturing SDS-PAGE, but could be readily separated on nondenaturing PAGE because of the distinct slow mobility of mouse L-ferritin. Direct comparative experiments showed that mouse and human H-ferritins had the same iron incorporation activity, whereas mouse L-ferritin incorporated iron less efficiently than human L-ferritin. The difference was attributed to the substitution of a residue exposed on the cavity surface (Glu140 --> Lys) in mouse L-ferritin, a hypothesis confirmed by the finding that the mouse L-ferritin mutant Lys140-Glu incorporated iron as efficiently as human L-ferritin. Rabbit antisera elicited by the recombinant mouse ferritins were specific for the H- and L-chains and did not cross-react with the human ferritins. The antibodies and the derived specific ELISA assays allow the determination of H- and L-ferritins in mouse tissues.     

Biochemical and functional analyses of a secreted H-2Ld molecule.

A truncated H-2Ld gene was constructed by deleting the transmembrane and cytoplasmic exons. The truncated H-2Ld gene was introduced into mouse L cells using the thymidine kinase gene as a selectable marker. Transformants were isolated and screened for the presence of truncated H-2Ld antigen. The truncated H-2Ld gene product was present in both the cytoplasm and culture medium, but not on the cell surface. The truncated H-2Ld antigen was stable in culture medium for at least 9 h and was secreted into the medium at a rate similar to the kinetics with which complete H-2 antigens reach the cell surface. Transformants expressing the truncated H-2Ld molecule were not recognized by cytotoxic T lymphocytes specific for the H-2Ld antigen.     

Eosinophils and immune mechanisms: V. Demonstration of mouse spleen cell-derived chemotactic activities for eosinophils and mononuclear cells and comparisons with eosinophil stimulation promoter

The chemotactic response of mouse eosinophil-rich peritoneal exudative cells to the lymphokine eosinophil stimulation promoter (ESP) was examined. Both eosinophils and monocytes are chemotactically attracted across a 3-μm-pore size polycarbonate filter toward a concentration gradient of ESP-containing culture supernatant fluids. Deactivation of both cell types occurs following preincubation of the responding cells in culture supernates containing ESP activity. The chemotactic activity for both eosinophils and mononuclear cells is stable when incubated at 60 °C for 30 min but is labile at 80 °C, is nondialyzable, and at peak activity exhibits an apparent molecular weight of approximately 25,700 daltons, based on Sephadex G-100 gel chromatography. Production conditions required for the generation of chemotactic and ESP activities are identical, and fractions of culture supernatant fluids possessing one activity are also positive for the other. Preliminary results therefore indicate that the lymphokine ESP attracts both eosinophils and monocytes in a gradient-induced chemotaxis assay.     

Production of a human T lymphocyte chemotactic factor by T cell subpopulations

Concanavalin A-stimulated human peripheral blood mononuclear cells release a lymphocyte chemotactic factor. This lymphocyte chemotactic factor is produced optimally after 24 to 48 hr of culture and is not found before 3 hr of culture, which suggests that the factor is synthesized de novo and is not preformed and secreted after Con A stimulation. This is further supported by experiments showing that the protein synthesis inhibitors cycloheximide and puromycin totally prevent the production of the chemotactic factor. Experiments using cultured and uncultured T lymphocytes as responding cells show that cultured T cells respond more efficiently than uncultured T cells to this factor. Furthermore, the lymphocyte chemotactic factor preferentially stimulates T lymphocyte locomotion as compared to peripheral blood non-T lymphocyte migration. Fractionation of mononuclear cells into glass nonadherent lymphocytes, monocyte-enriched preparations, T lymphocytes, and non-T lymphocytes shows that lymphocyte chemotactic factor is produced by Con A-stimulated, glass nonadherent lymphocytes and T cells but not by monocytes or non-T lymphocytes. Further fractionation of T lymphocytes into Leu-2 and Leu-3 T cell subpopulations shows that the production of T lymphocyte chemotactic factor can be attributed to the Leu-2 suppressor/cytotoxic T cell subset. The generation of a T lymphocyte chemotactic factor by Leu-2 T cells may represent a means of recruiting other T cells to the site of its release.     

Role of the fourth complement component (C4) in the regulation of contact sensitivity. I. Analysis in mice with high and low C4 levels

Lymph node cells collected from CBA/J mice 4 days after painting the skin with picryl chloride are able to immunize naive recipients by hapten-IgM immuno complexes. These cells ("4-day" cells) activate the early components of the classical pathway of complement from mice of the H-2 Sd haplotype (high-C4), but fail to activate the classical pathway of complement from mice of the H-2 Sk haplotype (low-C4). Incubation of "4-day" cells in complement from mice with high-C4 levels abolishes the induction of contact sensitivity, probably as a consequence of the solubilization of membrane-bound immuno complexes caused by complement activation. The presence of "4-day" cells is determined by the levels of C4. In fact, using strains of mice which differ only at the S region of the H-2 complex, we found that mice of the H-2 Sd (and perhaps H-2 Sb) haplotype (high-C4 levels) lack "4-day" cells in their lymph nodes and this is due to the activation of the early components of the classical complement pathway which occurs in vivo in these mice during sensitization with picryl chloride. The finding that contact sensitivity reaction to picryl chloride in H-2 Sk mice lasts about 21 days, whereas H-2 Sd mice show a contact sensitivity reaction until 7 days after sensitization, strongly suggests that the S region, and in particular C4 levels, controls the persistence of "4-day" immunogenic cells, and so play a role in the duration of the contact sensitivity reaction to picryl chloride in the mouse.     

Effect of IL-2 in vitro on CTL generation in spleen cells of young and old mice: asialo GM1+ cells are required for the apparent restoration of the CTL response

The role of asialo GM1+ (ASGM1+) cells and exogenous IL-2 in the age-related decline in allospecific CTL activity was evaluated. Primary CTL were generated in mixed leukocyte culture (MLC) [BALB/cANN (H-2d) anti C57BL/6N (H-2b)] and tested for allospecific lytic activity against the EL-4 (H-2b) cell culture line, and for non-MHC-restricted activity against WEHI-3 (H-2d) and YAC-1 (H-2a). Cultures included responder cell populations which had been treated with antibody to ASGM1 plus complement or complement alone, and irradiated stimulator cells, in the presence or absence of rIL-2 or crude IL-2-containing supernatants. The amount of rIL-2 used to accommodate the age-related decline in IL-2 production was determined empirically to be 500 U by assessing IL-2 production in MLCs containing responder cells from young versus old animals. rIL-2 appeared to restore the allospecific CTL activity generated by spleen cells of old mice to the level of that of young. However, treatment with anti-ASGM1 antibody revealed that this restoration was due to an effect of the IL-2 on ASGM1+ cells. The allospecific target cells, EL-4, were not sensitive to lymphokine-activated killer (LAK) cells induced by IL-2 alone under the conditions used. It is suggested that the apparent restoration was due to increased LAK-like (or MHC-nonrestricted) activity mediated by an ASGM1+ cell in the CTL precursor population.     

Proteolytic processing and inactivation of CCL2/MCP-1 by meprins

Monocyte chemotactic protein 1 (CCL2/MCP-1) is a small chemokine involved in the recruitment and trafficking of mononuclear immune cells to inflammation sites. Our studies demonstrate that the metalloendopeptidases meprin A (purified from kidney cortex), recombinant meprin α, and recombinant meprin β can all process CCL2/MCP-1. The cleavage sites were determined by amino acid sequencing and mass spectrometry analysis of the generated products, and the biological activity of the products was evaluated by chemotactic migration assay using THP-1 cells. The cleavage sites generated by the meprin isoforms revealed that meprin A and meprin α cleaved the N-terminal domain of mouse CCL2/MCP-1 at the Asn⁶ and Ala⁷ bond, resulting in significant reduction in the chemotactic activity of the cleaved CCL2/MCP-1. Meprin β was unable to cleave the N-terminus of mouse CCL2/MCP-1 but cleaved the C-terminal region between Ser⁷⁴ and Glu⁷⁵. Human CCL2/MCP-1 that lacks the murine C-terminal region was also cleaved by meprin α at the N-terminus resulting in significant loss of CCL2/MCP-1 biological activity, whereas meprin β did not affect the biological activity. These studies suggest that meprin α and meprin β may play important roles in regulating the CCL2/MCP-1 chemokine activity during inflammation.     

Induction and characterization of minor histocompatibility antigens. Specific primary cytotoxic T lymphocyte responses in vitro

A definite cytotoxic activity was developed in a BALB/c (H-2d) anti-DBA/2 primary mixed leukocyte culture (MLC), which received interleukin 2 (IL-2) on day 3 of culture. This cytotoxic activity was minor histocompatibility antigens (MIHA)-specific at the stimulator level, and was not developed in a syngeneic (BALB/c anti-BALB/c) MLC. The addition of IL-2 on day 3 of culture was crucial; no or very weak cytotoxic activity was developed in MLC receiving IL-2 on day 0 or on both day 0 and day 3. Only appropriate MIHA-allogeneic tumor cells were lysed as the target of the cytotoxic activity. The cytotoxic activity seemed MIHA-specific also at the target level; it lysed tumor cells of DBA/2 mouse origin but not those of BALB/c (syngeneic) origin. Phenotypes of the cytotoxic effector cell were Thy-1+ Lyt-2+. We concluded from these results that MIHA-specific cytotoxic T lymphocytes (CTL) were generated in the MIHA-allogeneic primary MLC. In this newly developed system, we studied genetic and antigenic requirements for primary anti-MIHA CTL responses in vitro. We demonstrated; among spleen cells (SC) of seven B10 H-2-congenic strains only SC of B10.D2 strain whose major histocompatibility complex (MHC) (H-2d) was compatible with the responder MHC effectively stimulated responder BALB/c (H-2d) SC for an anti-MIHA (DBA-C57BL-common) CTL response. Similarly, only SC of two out of seven C x B recombinant inbred strains (C x B.H and C x B.D), which were compatible at the MHC with responder SC, activated responder BALB/c SC for the response. The possibility that cells responding to H-2 alloantigens suppressed the anti-MIHA response was ruled out. Additional experiments showed that compatibility at the H-2K-end or the H-2D-end of the MHC was sufficient for a definite anti-MIHA response. These provided formal evidence that primary anti-MIHA CTL responses in vitro were MHC-restricted at the stimulator level. We then showed that sonication-disrupted SC or Sephadex G-10 column-passed nonadherent SC failed to stimulate responder SC for a primary anti-MIHA CTL response, whereas G-10-passed nonadherent SC responded well to adherent stimulator cells. Further study demonstrated that Ia+ adherent cells were the most active cell type as stimulator. Finally, we confirmed that the primary anti-MIHA CTL responses to adherent stimulator cells was MHC-restricted.     

Does the major histocompatibility complex serve as a specific receptor for Semliki Forest virus?

Murine F9 and PCC4 teratoma cells do not express H-2 major transplantation antigens according to virus-specific T-lymphocyte cytotoxic or serological assays. However, such cells can be infected with and readily replicate many types of viruses (coxsackie B 3, mouse hepatitis, Sindbis, Semliki Forest [SFV], lymphocytic choriomeningitis, Pichinde, vesicular stomatitis, herpes simplex type 1) to the same extent as do murine F12 teratoma cells and mouse embryo fibroblasts, all of which express the H-2 determinants. In contrast, F9 and PCC4 cells are not productively infected with murine cytomegalovirus, whereas F12 and mouse embryo fibroblast cells are. In addition to replicating in H-2-negative murine teratoma cells, SFV replicates in H-2-negative murine lymphoblastoid cells. The ability of SFV to infect cells without H-2 antigens and then to effect viral antigenic expression in the cells' cytoplasm and on their surface with similar kinetics and in equivalent amounts as cells with H-2 antigens indicates that the H-2 receptor is not needed for SFV infection. Daudi cells, which lack HLA antigens, block the replication of SFV. This occurs at some point after receptor binding, as demonstrated by diminished viral mRNA. In addition, a possible membrane defect precludes viral exit in Daudi cells transfected with SFV infectious RNA. These results indicate that a cell's possession of H-2 antigens is not a requirement for SFV infection and that major histocompatibility complex antigens are not specific receptors for this virus.     

Effect of Vesicular Stomatitis Virus Infection on the Histocompatibility Antigen of L Cells

When mouse L cells are infected for 22 hr with vesicular stomatitis virus (VSV), a ribonucleic acid-containing enveloped virus, greater than 70% of the major histocompatibility antigen (H-2), is no longer detectable by the method of inhibition of immune cytolysis. Infected cells prelabeled with (14)C-glucosamine also show a correspondingly greater loss of trichloroacetic acid-insoluble radioactivity than uninfected cells. The loss of H-2 antigenic activity is not due to the viral inhibition of host cell protein synthesis since cells cultured for 18 hr in the presence of cycloheximide have the same amount of H-2 activity as untreated controls. Also, cells infected with encephalomyocarditis virus, a picornavirus, show no loss of H-2 activity at a time when host cell protein synthesis is completely inhibited. VSV structural proteins associated in vitro with uninfected L-cell plasma membranes do not render H-2 sites inaccessible to the assay. Although antibodies may not combine with all the H-2 antigenic sites on the plasma membrane, anti-H-2 serum reacted with L cells before infection does not prevent a normal infection with VSV. H-2 activity can be detected in virus samples purified from the medium of infected L cells; this virus purified after being mixed with L-cell homogenates shows greater H-2 activity than virus purified after being mixed with HeLa cell homogenates. However, VSV made in HeLa cells shows no H-2 activity when mixed with L-cell homogenates.     

Murine IgA binding factors (IgA-BF) suppressing IgA production: characterization and target specificity of IgA-BF

Chemical and functional properties of IgA binding factor(s) (IgA-BF) from both murine Con A-activated spleen cells and Fc gamma R+, Fc alpha R+ T hybridoma cells (T2D4) were studied. IgA-BF produced from the cells after preculture with IgA were purified with IgA-Sepharose. Purified IgA-BF inhibited the binding of IgA to Fc alpha R+ L5178Y T lymphoma cells, and class-specifically suppressed in vitro IgA synthesis of the pokeweed mitogen (PWM)-stimulated murine spleen cells. Both IgA-specific suppressive activity and IgA binding activity of the factor(s) were co-fractionated between BSA and OVA in gel filtration analysis. SDS-PAGE analysis of IgA-BF biosynthetically labeled with [35S]methionine showed a specific band on 56,000. Suppressive activity of IgA-BF was absorbed with lentil-lectin-Sepharose and was eluted with 0.2 M alpha-methyl-D-mannoside. The suppressive activity obtained from T2D4 cells (H-2k) and BALB/c Con A blasts (H-2d) was absorbed with the corresponding anti-H-2 and anti-I-A column and recovered in the acid-eluate. The activity was not absorbed with the unrelated anti-H-2 column. Despite the presence of MHC products, IgA-BF from both cell sources equally suppressed IgA-specific responses of BALB/c (H-2d), C3H/He (H-2k), and C57BL/10 (H-2b) spleen cells. They also suppressed IgA production as well as IgA synthesis of PWM-stimulated culture of human peripheral blood lymphocytes without affecting IgM and IgG responses. Suppression of murine and human IgA responses both in mouse and human were mediated by the molecules having the same Ia products, suggesting that there is no MHC, as well as species restriction, for the interaction between IgA-BF and their target cells. IgA-specific suppressive activity was absorbed with human B blastoid cells bearing surface IgA (Dakiki) but not with those bearing surface IgG (CESS) or murine and human T cell line cells (BW5147, L5178Y, HPB-ALL, and MOLT4), indicating that IgA-BF interact with B cells bearing IgA to suppress their differentiation.