John C. Hiserodt

The human LT system. I. Physical-chemical heterogeneity of LT molecules released by mitogen activated human lymphocytes in vitro.

Abstract Molecules with LT activity which can be identified in supernatants from PHA stimulated human lymphocytes by lysis of murine L-929 cell in vitro are heterogeneous. They can be separated by MW on sephadex or ultrogel columns into four separate classes: (a) complex (>200,000 daltons); (b) α (70–90,000 d); (c) β (25–50,000 d); and (d) γ (10–20,000 d). The amount of activity in a supernatant due to each class varies but is approximately: Cx —5 to 20%, α—40 to 60%, β—20 to 40%, and γ—0 to 10%. These classes differ one from another in their stability and kinetics of appearance in culture. Furthermore, they may aggregate together with the complex class under conditions of low ionic strength. Each class, except γ, can be further separated into subclasses by ion exchange chromatography and polyacrylamide gel electrophoresis. Alpha class can be separated on DEAE into the three subclasses, termed, α 1 (rf 0.25), α 2 (rf 0.37), and α 3 (rf 0.50). Alpha 2 subclasses can be further separated on phosphocellulose at pH 6.6 into α 2a (rf 0.37) and α 2b (rf 0.30). However, α 2 contains additional subclasses, which were resolved on PC columns at pH 5.5. Beta class activity can be resolved by DEAE and PAGE into two subclasses, termed β 1 (rf 0.28) and β 2 (rf 0.49). Gamma class activity was not studied, because of its instability. The complex class of LT activity is a macromolecular aggregate greater than 200,000 daltons which appears to contain smaller MW LT class(es). This study demonstrates that materials with LT activity in supernatants from PHA activated human lymphocytes in vitro are very heterogeneous.

Expression of surface antigens during the differentiation of human dendritic cells vs macrophages from blood monocytes in vitro

High expression of MHC antigens and adhesion/costimulation molecules is considered as one of the major characteristics qualifying macrophages (M) and dendritic cells (DC) as professional antigen presenting cells. Since accessory activity of M is known to be weaker than that of DC but both M or DC can differentiate from blood monocytes (MO) depending on culture conditions (i.e. GM-CSF vs GM-CSF/IL-4), we investigated the kinetics of expression of MHC antigens and several adhesion/costimulation molecules during the differentiation of DC or M from blood MO. Blood MO cultured with GM-CSF consistently induced M that showed adherence to plastic and CD14 expression. In contrast, MO cultured with GM-CSF/IL-4 rapidly became nonadherent, acquired DC morphology and lost CD14 expression. M but not DC proliferated as demonstrated by [H3]thymidine incorporation. MHC Class I was highly expressed in both M and DC. In contrast, MHC Class II molecules were significantly higher on DC compared to M. CD80 was upregulated on both DC and M but only on a subset of cells. CD80 expression peaked at day 3 on M and declined thereafter, while on DC expression increased significantly until day 10. CD86 was upregulated on the majority of DC and M. However, while M maintained stable expression of CD86 after day 3, DC progressively upregulated CD86 throughout the culture period. CD1a expression was initially low in both cell types and peaked at day 3 in M declining thereafter, while expression remained stable on DC until day 10. ICAM-1 expression was significantly upregulated on M when compared to DC at day 3. However, on M, ICAM-1 expression became undetectable by day 5 while on DC it increased through day 10. Similarly, CD40 was transiently expressed on M until day 5, while on DC it continuously increased until day 10. Finally, in contrast to other antigens, LFA-3 was always more strongly expressed on M than DC at all culture periods. Taken together, these data suggest that M showed a rapid but transient upregulation in the expression of adhesion/costimulation molecules, suggesting that maximal accessory ability is reached by M at an earlier time point than DC. Significant differences in surface antigen expression DC vs M were recognizable for MHC class II, CD86, CD80, CD1a, CD40 and ICAM-1. Specifically, major differences occurred for MHC class II, CD86, CD40 and ICAM-1. Therefore, the higher accessory ability of DC compared to M in naive T cell priming may be related to qualitative and quantitative differences in expression of these immunologically important surface molecules.

Effects of irradiation on the expression of major histocompatibility complex class I antigen and adhesion costimulation molecules ICAM-1 in human cervical cancer

PURPOSE We initiated studies to analyze the effects of high doses of gamma irradiation on the surface antigen expression of MHC Class I, Class II, and ICAM-1 on human cervical carcinoma cell lines. METHODS AND MATERIALS The expression of surface antigens (MHC Class I, Class II, and ICAM-1) was evaluated by FACS analysis on two cervical cell lines at different time points, following their exposure to high doses of gamma irradiation (i.e., 25.00, 50.00, and 100.00 Gy). RESULTS The CaSki and SiHa cervical cancer cells we analyzed in this study expressed variable levels of MHC Class I and ICAM-1 antigens, while Class II surface antigens were not detectable. Whereas irradiation doses of 25.00 Gy were not sufficient to totally block cell replication in both cell lines, exposure to 50.00 or 100.00 Gy was able to completely inhibit cell replication. Range doses from 25.00 to 100.00 Gy significantly and consistently increased the expression of all surface antigens present on the cells prior to irradiation but were unable to induce neoexpression of antigens previously not expressed by these cells (i.e., MHC Class II). Importantly, such upregulation was shown to be dose dependent, with higher radiation doses associated with increased antigen expression. Moreover, when the kinetic of this upregulation was studied after 2 and 6 days after irradiation, it was shown to be persistent and lasted until all the cells died. CONCLUSIONS These findings may partially explain the increased immunogenicity of tumor cells following irradiation and may suggest enhanced immune recognition in tumor tissue in patients receiving radiation therapy.

The human LT system: II. Immunological relationships of LT molecules released by mitogen activated human lymphocytes in vitro

Abstract Materials with LT activity present in supernatants from PHA stimulated human lymphocytes in vitro are very heterogeneous and can be separated into multiple molecular weight classes, termed complex, α, β, and γ. Several of these classes can be further resolved into subclasses by other physical and chemical methods. The immunologic relationships of these materials one to another were examined employing various rabbit anti-humn LT sera which will neutralize LT activity on L-929 cells in vitro. These studies reveal: (a) LT activities are due to a distinct group of substances which are immunologically related one to another and can exist in several molecular weight forms; (b) a high MW class of molecules, termed complex, appears to contain all currently known LT classes and subclasses; (c) LT classes and subclasses both have common (public) and discrete (private) antigenic specificities; (d) human LT classes and subclasses do not appear to share Ag determinants with materials with LT activity released by lectin stimulated lymphoid cells from rabbit, rat, hamster, guinea pig, or mouse; and (e) human LT molecules are not immunologically related to cell toxins released by glass adherent human peripheral blood monocytes or PMN cells. These data indicate human LT molecules form a “discrete system” of lymphocyte derived cell toxins, which can associate together into various related but different MW forms in the supernatant.

In vitro lymphocyte cytotoxicity. I. Evidence of multiple cytotoxic molecules secreted by mitogen activated human lymphoid cells in vitro.

Abstract Multiple families of cytotoxic molecules [Lymphotoxin (LT)] have been identified in phytohemagglutinin (PHA-P) activated human lymphocyte supernatants and lymphocyte homogenates, using gel filtration chromatography on Sephadex G-150. These macromolecules have molecular weights of 80–90,000, 50,000, and 10–15,000 daltons and have been termed LT 2 , LT 2 and LT 3 , respectively. They are secreted by cells from a variety of lympboid tissues, i . e ., tonsil, adenoid, and peripheral blood. The kinetics of appearance of the cytotoxins indicate that all three are present within 16 hr after lymphocyte activation. However, while LT 1 and LT 2 persist in these cultures through day 5, LT 3 is not detectable after day 3. These molecules can also be detected when either PHA or concanavalin A are employed as the stimulating agent. Moreover, the relative amounts of LT 1 , LT 2 and LT 3 activity in a given supernatant vary dramatically from culture to culture. Extracellular levels of LT accumulate and peak by 4 to 5 days in culture, however, intracellular levels of LT reach a maximum on day 3 and decrease to very low levels on day 5. Mitogen-stimulated lymphocytes at 3 days contain intracellular levels of LT which are several logs higher than that detectable in unstimulated cells. This observation suggests that both the biosynthesis and secretion of lymphotoxin is governed by a regulatory control process(es).

The effects of irradiation on the expression of a tumour rejection antigen (heat shock protein gp96) in human cervical cancer.

PURPOSE Studies were designed to analyse the effects of high doses of gamma-irradiation on the expression of a tumour rejection antigen (heat shock protein gp96) in human cervical carcinoma cell lines. MATERIALS AND METHODS The expression of heat shock protein gp96 was evaluated at the transcriptional (Northern blot) and post-transcriptional levels (Western blot) in two human cervical carcinoma cell lines following exposure to high doses of gamma-irradiation. RESULTS Doses of gamma-irradiation ranging from 25 to 100 Gy significantly and consistently increased the expression of heat shock protein gp96 on CaSki and HT-3 cervical cancer cells. The increase in the amount of protein was due to transcriptional up-regulation of this gene. Radiation doses unable to inhibit completely cell replication in the totality of tumour cells (i.e. 25 Gy), as well as higher (fully lethal) doses of irradiation (i.e. 50 to 100 Gy), were shown to up-regulate significantly the expression of heat shock protein gp96 mRNA in a dose-dependent manner. CONCLUSIONS Recently, gp96 molecules have been implicated in the presentation of endogenous and viral antigens. A number of key elements in this pathway, including major histocompatibility complex (MHC) class I molecules as well as adhesion/co-stimulation molecules such as ICAM-1, are known to be sensitive to irradiation effects. The results show that radiation can also increase the expression of other immunologically important cell molecules such as a tumour rejection antigen (heat shock protein gp96) in human cervical cancer. Such findings may partially explain the increased immunogenicity of tumour cells following irradiation and further support a role for local radiation therapy as a powerful biologic response modifier.

The human LT system: V. A comparison of the relative lytic effectiveness of various MW human LT classes on 51Cr-labeled allogeneic target cells in vitro: Enhanced lysis by LT complexes associated with Ig-like receptor(s)☆

Abstract The present studies examine the in vitro cell-lytic capacity of various molecular weight (MW) human lymphotoxin (LT) classes obtained from lectin-activated normal or immune lymphocytes on allogeneic target cells. The findings reveal that the high-MW complex class of LT is up to 100 times more effective than the smaller MW LT forms (α, β, and γ) in causing lysis of various allogeneic cell types including lymphoid cells in vitro . Moreover, the data suggest that lectin-stimulated alloimmune cells (MLC sensitized) release complex LT forms in association with a specific antigen-binding receptor(s), and that these complexes are from 3 to 10 times more effective on the sensitizing target cell than complexes obtained from lectin-stimulated nonimmune cells. Positive evidence that complex-induced lysis involved LT was indicated by the finding that lysis was completely neutralized by incubation with heterologous antisera directed against a refined human α 2 -LT subclass (anti- α 2 ) and partially neutralized with anti-human Fab 2 ′ serum. These findings support the concept that LT molecules may represent a system of related cell-lytic molecules. While the smaller MW forms are only weakly lytic by themselves, they can be assembled into highly lytic complexes which may be focused or directed by an antigen-binding receptor(s).

The human LT system: III. Characterization of a high molecular weight LT class (complex) composed of the various smaller MW LT classes and subclasses in association with Ig-like molecules

Abstract Cytotoxic activity (lymphotoxin (LT)) present in supernatants from lectin stimulated human lymphocytes in vitro is composed of a heterogeneous system of biological macromolecules which can be separated into multiple classes and subclasses on the basis of their molecular weight and charge. These studies further characterize a large molecular weight human LT class, termed complex (MW >200,000 d), which elutes in the void volume off Sephadex G-150 or Ultrogel AcA 44. Immunological studies on the complex, employing various rabbit anti-LT class and subclass antisera, revealed this material is a macromolecular assemblage of the smaller MW α, β, γ LT classes and subclasses. Furthermore, the reactivity of this material with anti-human Fab′ 2 (IgG) indicates these smaller molecular weight LT components can associate with immunoglobulin or Ig-like molecules. The materials present in the LT complex class appear to be noncovalently associated, since conditions of high ionic strength dissociate certain small MW LT components, while low ionic strength buffers may cause these components to reaggregate with the complex. When subjected to velocity sedimentation on sucrose gradients or gel filtration on Ultrogel AcA 22, LT complex activity elutes as several discrete peaks of activity in the 200,000 to 1,000,000 MW range. These findings suggest the concept that LT molecules can form discrete and specific macromolecular structures which contain the smaller MW LT classes. Moreover, these structures can also associate with immunoglobulin-like molecules to form secondary LT-Ig complexes. This may have important biological significance in explaining how nonspecific cell toxins could play a role in specific or nonspecific cell lytic reactions in vitro .

Effects of cytokines combined with high-dose gamma irradiation on the expression of major histocompatibility complex molecules and intercellular adhesion molecule-1 in human ovarian cancers.

Tumor cells from 7 freshly isolated human ovarian tumors and 2 continuous human ovarian cancer cell lines were analyzed for their surface expression of MHC class‐I, class‐II and ICAM‐I surface antigens before and after exposure to γ‐irradiation and/or the cytokines TNF‐α plus IFN‐γ. All 7 fresh tumors expressed high levels of MHC class‐I and ICAM‐I antigens, and levels were markedly up‐regulated after exposure to TNF‐α plus IFN‐γ. Similarly, class‐II antigens were either induced (3 out of 7 tumors) or significantly up‐regulated by TNF‐α plus IFN‐γ. Exposure to high doses of γ‐irradiation also increased the expression of MHC class‐I and ICAM‐I antigens, albeit to a modest degree. MHC class‐I and ICAM‐I antigen expression was much lower on continuous human ovarian cell lines than on the fresh tumors. Exposure of these cells to TNF‐α plus IFN‐γ markedly up‐regulated antigen expression to levels comparable to those expressed on the freshly isolated tumors. With the established ovarian cell lines, removal of cytokines caused a rapid down‐regulation of antigen expression to basal levels within 6 days, while in the fresh tumors a low level of upregulation was still present at this time. In contrast, exposure to cytokines followed by high‐dose γ‐irradiation resulted in a highly significant and long‐lasting expression of each surface antigen which was either up‐regulated or induced by the cytokines. These data indicate that the combination of these modalities may be beneficial in generating optimal antigen expression for use of tumor cells in vaccine studies.

Identification of membrane-associated lymphotoxin (LT) on mitogen-activated human lymphocytes using heterologous anti-LT antisera in vitro

Abstract Surface-associated lymphotoxin (LT) molecules have been identified on mitogen-activated human lymphocytes employing heterologous anti-α-LT serum in vitro . These membrane-associated LT molecules are present on PHA- or Con A-activated lymphocytes but do not appear to be expressed on unstimulated cells. Furthermore, these molecules were detected primarily on activated T lymphocytes, with little detectable on activated B- or null-cell populations. The removal of surface LT-bearing lymphocytes, using anti-α-LT serum + C′, does not dramatically affect the capacity of the remaining cells to release LT after mitogen restimulation. In addition, the presence of toxic molecules on the surface of activated lymphocytes suggests that these materials may be expressed in an inactive, noncytotoxic form.