The 3C-like proteinase (3CL pro ) of severe acute respiratory syndrome-associated coronavirus (SARS-CoV) is one of the most promising targets for anti-SARS-CoV drugs due to its crucial role in the viral life cycle. In this study, a database containing structural information of more than 8,000 existing drugs was virtually screened by a docking approach to identify potential binding molecules of SARS-CoV 3CL
Unfractionated spleen cells taken from tumor-bearing mice 2 weeks after tumor implantation contained tumor-primed T cells which produced cytokines including IL-2 and IFN-gamma when cultured in vitro. With progressive tumor growth this initial lymphokine-producing capacity decreased. Here, we investigated the ability of IL-12 to (i) restore suppressed IFN-gamma production, (ii) cause tumor regression and (ii) induce anti-tumor protective immunity. Addition of rIL-12 to spleen cell cultures from 4- to 10-week-old tumor-bearing mice resulted in a striking enhancement in the production of IFN-gamma compared with cultures of these cells in the absence of rIL-12 or of normal spleen cells in the presence of rIL-12. Five i.p. injections of rIL-12 into mice bearing s.c. tumors induced complete tumor regression. This was found when rIL-12 was given at early (1-2 weeks), intermediate (4-5 weeks) or even late (7 weeks) stages of tumor growth. Furthermore, IL-12-treated mice which rejected the primary tumor exhibited complete resistance to a rechallenge with the same tumor but did not reject a second syngenetic tumor. Immunohistochemical analyses following IL-12 treatment revealed that CD4+ and CD8+ T cells infiltrate the tumor. More importantly, IFN-gamma mRNA expression was observed in fresh tumor masses from tumor-bearing mice receiving IL-12 treatment. The importance of IFN-gamma was further demonstrated by the observation that the systemic administration of anti-IFN-gamma mAb prior to IL-12 treatment completely abrogated the anti-tumor effect of IL-12. Thus, these results indicate that administration of modest levels of rIL-12 to tumor-bearing mice results in tumor regression through mechanisms involving reversal of suppressed IFN-gamma production by anti-tumor T cells and the establishment of a tumor-specific protective immune response.
The present study investigates the molecular mechanisms by which IFN-gamma produced as a result of in vivo IL-12 administration exerts its anti-tumor effects. rIL-12 was administered three or five times into mice bearing CSA1M fibrosarcoma, OV-HM ovarian carcinoma or MCH-1-A1 fibrosarcoma. This regimen induced complete regression of CSA1M and OV-HM tumors but only transient growth inhibition of MCH-1-A1 tumors. The anti-tumor effects of IL-12 were associated with enhanced induction of IFN-gamma because these effects were abrogated by pretreatment of hosts with anti-IFN-gamma antibody. Exposure in vitro of the three types of tumor cells to rRFN-gamma resulted in moderate to potent inhibition of tumor cell growth. IFN-gamma stimulated the expression of mRNAs for an inducible type of NO synthase (iNOS) in CSA1M cells and indoleamine 2,3-dioxygenase (IDO), an enzyme capable of degrading tryptophan, in OH-HM cells, but induced only marginal levels of these mRNAs in MCH-1-A1 cells. In association with iNOS gene expression, IFN-gamma-stimulated CSA1M cells produced a large amount of NO which functioned to inhibit their own growth in vitro. Although OV-HM and MCH-1A1 cells did not produce NO, they also exhibited NO susceptibility. Whereas the tumor masses from IL-12-treated CSA1M-bearing or OV-HM-bearing mice induced higher levels of iNOS (for CSA1M) or IDO and iNOS (for OV-HM) mRNAs, the MCH-1-A1 tumor mass expressed lower levels of iNOS mRNA alone. Moreover, massive infiltration of CD4(+) and CD8(+) T cells and Mac-1(+) cells was seen only in the CSA1M and OV-HM tumors. Thus, these results indicate that IFN-gamma produced after IL-12 treatment induces the expression of various genes with potential to modulate tumor cell growth by acting directly on tumor cells or stimulating tumor-infiltrating lymphoid cells and that the effectiveness of IL-12 therapy is associated with the operation of these mechanisms.
Previous studies have documented discordant cellular and humoral immune responses to subjects exposed to HIV-1, and that the nature of such responses may determine susceptibility and resistance to disease. We determined whether there is a spectrum of cellular versus humoral immunodominant responses to cytomegalovirus (CMV) infection. Blood samples from 50 healthy blood donors were tested for anti-CMV IgG antibodies and for proliferative responses of peripheral blood mononuclear cells (PBMC) to CMV antigens. Four patterns of immune responses to CMV were found: no detectable response (30%, Ab(-)/Tc(-)), anti-CMV IgG only (28%, Ab(+)/Tc(-)), both anti-CMV IgG and T lymphocyte proliferation to CMV antigens (18%, Ab(+)/Tc(+)), and, interestingly, T lymphocyte proliferation to CMV only (24%, Ab(-)/Tc(+)). To determine whether these immunodominant phenotypes correlate with the ability of PBMC to secrete IL-2 and IFN-gamma in response to CMV antigens, we found that a greater percentage of individuals with a T cell proliferative response to CMV antigens (Ab(-)/Tc(+) and Ab(+)/Tc(+)) responded with increased IL-2 (P = 0.001) and IFN-gamma levels (P = 0.002), compared to those without a proliferative response (Ab(-)/Tc(-) and Ab(+)/Tc(-)). Our data therefore demonstrate that different individuals exhibit different immunodominant patterns of response to CMV. In particular, some individuals who are exposed to CMV fail to develop an antibody response but do develop cellular immunity. Whether these different patterns predict susceptibility or resistance to CMV-induced disease remains to be determined.
The present study deals with the effect of transforming growth factor‐β (TGF‐β) on anti‐tumor immune responsiveness at various stages of the tumor‐bearing state. Spleen cells from BALB/c mice bearing a syngeneic tumor (CSA1M) 1–3 wk after inoculation with CSA1M cells produced interleukin‐2 (IL‐2) and macrophage‐activating factor (MAF)/interferon‐γ (IFN‐γ) upon in vitro culture without addition of exogenous tumor antigens. This lymphokine production was achieved through collaboration between anti‐CSA1M CD4+ T cells and antigen‐presenting cells that had been pulsed with CSA1M tumor antigens in vivo in the tumor‐bearing state. The IL‐2‐producing capacity of CD4+ T cells reached the maximal level as early as one week after tumor implantation but decreased with the progress of tumor‐bearing stages. In contrast, the capacity of CD4+ T cells to produce MAF/IFN‐γ was not affected but was maintained at high levels even late in the tumor‐bearing state. The addition of recombinant TGF‐β (rTGF‐β) to cultures of spleen cells from various tumor‐bearing stages resulted in the suppression of lymphokine production. However, the magnitude of the TGF‐β‐induced suppression varied depending on which tumor‐bearing stages of splenic cells were tested as a responding cell population; it was slight in cells from early (1–3 wk) tumor‐bearing stages but increased in cells from donor mice at later tumor‐bearing stages. Thus, spleen cells from late tumor‐bearing stages with weak but significant IL‐2‐producing and considerable MAF/IFN‐γ producing capacities failed to produce these lymphokines when rTGF‐β was present in cultures. A progressive increase in the TGF‐β susceptibility was also observed for IL‐4‐producing Th2 as well as IL‐2/MAF‐producing Th1 cells. In addition, increased levels of TGF‐β were detected in plasma from tumor‐bearing mice at late stages. Taken together, these results indicate that tumor‐bearing mice exhibit enhanced production of TGF‐β as well as a progressive increase in the susceptibility of anti‐tumor CD4+ T cells to TGF‐β‐induced suppressive mechanisms.
Unfractionated spleen cells taken from tumor-bearing mice contained tumor-primed T cells which produced lymphokines such as IFN-gamma and IL-2 through collaboration with antigen-presenting cells (APC) binding tumor antigens when cultured in vitro. Here, we investigated the regulatory mechanisms underlying IFN-gamma production by T-APC interactions. Elimination of B cells from a splenic population of tumor-bearing mice resulted in enhanced IFN-gamma production. Adding B cells back into cultures down-regulated IFN-gamma production to almost the same levels as those induced by unfractionated spleen cells. IL-2 production was not enhanced by B cell depletion, but rather was significantly suppressed. IFN-gamma-selective up-regulation was due to an enhancement of IL-12 production because IL-12 was detected in B cell-depleted cultures and enhanced IFN-gamma production was prevented by addition of anti-IL-12 mAb or anti-CD40 ligand (CD40L) mAb capable of inhibiting CD40L-induced IL-12 production. These results indicate that B cells interfere with IFN-gamma production induced through interactions between anti-tumor T cells and APC, and this suppressive effect is based on the capacity of CD40+ B cells to down-regulate the CD40L-induced IL-12 production by APC.
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