T cell control of the antibody response to the T-independent antigen, DAGG-Ficoll

C57BL/6J nu/nu mice respond to the type 2 TI antigen DAGG-Ficoll, but not to the TD antigen SRC. A comparable difference can also be seen in vitro, but only at high spleen cell density and in the presence of selected batches of FBS. At low spleen cell density and in the absence of FBS, the DAGG-Ficoll-induced B cell response is strictly dependent on soluble helper factors or cloned specific helper T cells. The B cell response so induced requires that the T cell-depleted spleen cells be compatible in the I-A subregion of the H-2 complex. These helper factors, induced by antigen in an I-A-restricted T cell-macrophage interaction, provide helper for T cell-depleted spleen cells irrespective of their H-2 haplotype. Under conventional culture conditions, the stringent requirement for helper factors in the in vitro response to DAGG-Ficoll is obscured by FBS. In vitro culture of low numbers of spleen cells, in serum-free medium instead of FBS, provides a sensitive assay for helper factors. We have compared the helper activity for a B cell response to SRC or DAGG-Ficoll as provided by antigen-induced supernatants of various individual EA-specific T cell clones. There was a remarkable and consistent heterogeneity among individual T cell clones: their helper activity in the response to TI and TD antigens did not correlate, nor was there any correlation between helper activity and antigen-induced TCGF (interleukin 2) activity.     

Cloned T cells with "co-helper" activity. I. Biologic activities of the clone

Clones of sheep erythrocyte-(SRBC) specific helper T cells with the surface phenotype Thy-1+, Ly-1+, Ly-2- have been derived that grow in vitro in the absence of exogenous antigen or added growth factors. The IL 2-independent clone, 101.6 has been shown to produce a supernatant factor that augments the primary anti-SRBC but not anti-burro RBC responses of whole spleen cells or Ly-1 T plus B cell cultures. The supernatant does not help B cells directly. This augmenting activity is terminated "co-helper" because the enhancement requires the presence of normal Ly-1 T cells. The supernatant of 101.6 was not shown to contain IL 2; co-helper activity was distinguishable from IL 2 activity by absorption with SRBC but not with Con A blasts, and we observed that co-helper activity does not act on spleen cells that differ at the major histocompatibility complex.     

Long-term effects of in vitro sensitization on immune reactivity of lymphocytes: generation of suppressor and helper T cells.

Mouse spleen cells were cultured for 5 days with or without HRBC. Cultured cells were 'parked' in irradiated syngeneic recipients for 3 weeks and then tested for their immunologic reactivity in vitro. We found that spleen cells from recipients of HRBC-sensitized cells (S) as well as spleen cells from recipients of control unsensitized cells (U) possessed radiosensitive suppressor and radioresistant helper activities. Suppressor activity was observed by the capacity of unirradiated S and U spleen cells to inhibit the in vitro generation of IgM and IgG PFC by spleen cells primed in vivo to HRBC or to LacKLH. Helper activity was shown by the capacity of the irradiated S and U cells to restore IgM and IgG PFC responses of in vivo primed, T-depleted spleen cells to HRBC, LacHRBC, and LacCRBC. Both suppressor and helper activities were mediated by T cells. The possibilities that immunologically specific or nonspecific mechanisms account for these phenomena are discussed.     

Local T helper cell signals by lymphocytes infiltrating intraocular tumors.

Tumor-infiltrating lymphocytes from mice bearing minor histoincompatible tumor cells in the anterior chamber (AC) or subconjunctival (SCon) space of the eye have been shown to contain large numbers of tumor-specific precursor cytotoxic T cells. Because SCon tumors eventually acquire directly cytotoxic, tumor-specific T cells and are rejected by their hosts and because AC tumors never acquire cytotoxic effector cells and are not rejected, we have examined tumor-infiltrating lymphocytes from both types of ocular tumors for the capacity to secrete lymphokines in response to in vitro stimulation with tumor cells. The results indicate that T "helper" cells were able to infiltrate both SCon and AC tumors. In the former, T cells capable of secreting IL-2 and IL-4 were found whereas in the latter only IL-2-secreting T cells were detected. These findings implicate a defect in local delivery of appropriate T cell help as the reason why AC tumors are not rejected. The failure of AC tumor-bearing mice to destroy their tumors correlates not only with defective delivery of local help but with a systemic inability to produce tumor-specific T cells that can secrete IL-2 and IL-4. Because these mice also generate down-regulatory T cells that suppress the expression of tumor-specific delayed hypersensitivity, they appear to have an immunologically mediated block in T helper cell differentiation which renders them unable to generate either T helper 1 or T helper 2 cells. This immunologic abnormality is discussed in terms of tumor rejection and the phenomenon of immunologic privilege.     

Lymphokines: their role in lymphocyte responses. Properties of interleukin 1

Interleukin 1, or IL 1, otherwise known as lymphocyte-activating factor, is a macrophage-derived 12,000- to 15,000-dalton polypeptide. Isoelectric focusing of human IL 1 reveals three peaks at pI's of 5.2, 6.0 and 6.9 respectively. IL 1 can be depleted of lymphocyte-derived IL 2 by SP-Sephadex chromatography. IL 1 augments the mitogenic response of PNA- Lyt 1+ thymocytes, and promotes thymocyte helper functions and B cell antibody production. IL 1 induces stable E rosette formation and the production of lymphokines such as T cell growth factor (IL 2) by peripheral T lymphocytes. Others have shown that IL 1 or closely related factors also stimulate hypothalamic cells to induce fever; induce in vitro fibroblast growth, prostaglandin, and collagenase production; and stimulate hepatocytes to produce acute phase proteins such as serum amyloid A. Murine epidermal cells also produce a 15,000-dalton factor that is mitogenic for thymocytes and may be similar to IL 1. We have recently hybridized spleen cells from mice sensitized with partially purified human IL 1 with a myeloma cell line. Clones have been isolated that produce supernatants that partially inhibit the thymocyte proliferative response to IL 1 but not the T cell growth factor activity of IL 2. Should these hybridoma products prove to be monoclonal anti-IL 1 antibodies, they will facilitate the further purification and characterization of IL 1.     

Functional heterongeneity among the T-derived lymphocytes of the mouse. VI. Memory T cells stored in the T2 subpopulation.

Memory T cells were demonstrated in mice which were the precursors for cells causing sheep red blood cell-(SRBC) specific helper activity in the in vitro response of spleen cells to trinitrophenyl (TNP)-SRBC. These memory cells were distinguished from the effectors of helper activity generated during the primary response and were shown to belong to the T2 subpopulation of peripheral T cells on the basis of 1) their rapid response to a challenge with SRBC, 2) their long lifetime, and 3) their sensitivity to small in vivo doses of anti-thymocyte serum.     

Hapten-specific T cell response to azobenzenearsonate-N-acetyl-L-tyrosine in the Lewis rat. II. Induction of helper activity demonstrated by TNP-haptenated ABA-peptide-Ficoll

In an effort to study T cell functions in Lewis rats immunized with ABA-N-acetyl-L-tyrosine (ABA-tyr), we developed an antigen that provides a sensitive assay of ABA-specific helper function that is read as an increase in TNP-specific plaque-forming cells (PFC). This antigen has ABA coupled to AECM-Ficoll by virtue of a tripeptide (tyr-ala-ala) spacer and TNP coupled to the AECM side chains. At subimmunogenic doses, this antigen induced 400 anti-TNP PFC/10(6) spleen cells in ABA-tyr-immunized rats. As many as 8000 PFC/10(6) spleen cells were induced with larger doses of antigen (200 micrograms). By contrast, only 490 PFC/10(6) spleen cells could be induced with 1 mg of the conventional doubly haptenated protein carriers such as ABA-BSA-TNP. Both direct and indirect PFC were induced by this antigen in primed rats. The use of this antigen and passive transfer techniques to study ABA-specific helper activity revealed some differences from ABA-specific delayed-type hypersensitivity (DTH) and in vitro proliferation, which were studied previously. Cells responsible for helper activity appeared sooner after immunization and were found most prominently in peritoneal exudates but also significantly in spleen where the cells responsible for DTH or in vitro proliferative responses were never found. By contrast, helper cells were not seen in lymph nodes, where some proliferative activity could be found. Of these three ABA-specific T cell functions, helper activity was least easily suppressed by the previously used regimens of ABA-tyr in incomplete freunds adjuvant (IFA). Moreover, helper activity appears after injection of ABA-tyr in IFA, a method that has never in our hands yielded detectable DTH or in vitro proliferative responses. Despite these differences, phenotyping with monoclonal antibodies indicated that cells responsible for helper and proliferative activities were both W3/25+ and OX8-.     

Interleukin 3 augments the murine primary cytolytic T lymphocyte response to allogeneic tumor cells

The primary anti-H-2k allospecific cytolytic T lymphocyte (CTL) response by BALB/c (H-2d) spleen cells in vitro to x-irradiated RDM4 (H-2k) tumor cells is weak. This response has been shown to be augmented by CTL helper factor (CHF), a factor present in supernatants of spleen cells cultured with Sendai virus (SC-CM). Conditioned medium from WEHI-3 cells (WEHI-CM) also contains activity that augments the BALB/c anti- RDM4 CTL response. Attempts to separate the CHF activity from interleukin 3 (IL 3), also present in WEHI-CM, were unsuccessful. Purified IL 3 was then tested, and was found to increase the BALB/c anti- RDM4 CTL response by five- to 10-fold. IL 3 is apparently the only material in WEHI-CM that is active in this assay. The response is apparently a classical CTL response because: 1) the effector cells are sensitive to monoclonal anti-Thy-1.2 antibody plus C; 2) the response is dependent on antigen stimulation, and it peaks on day 5 or 6 of culture; and 3) the effector cells are specific for H-2k targets. IL 3 must be added very early during the in vitro culture period for maximal augmentation of the response, consistent with possible action of IL 3 as a differentiation factor.     

Characterization of suppressor cells regulating in vitro expression of IgG2A and IgG2B antibody responses

In vitro cooperative responses between hapten-primed anti-Thy-1.2 plus C-treated spleen cells and carrier-primed T cells have different isotypic patterns depending on the source of the T helper cells. T helper cells from primed lymph node induce IgG1, IgG2a, and IgG2b PFC responses, whereas T helper cells from primed spleen induce only an IgG1 type of response. The addition of activated spleen cells to the lymph node cells suppresses their ability to generate IgG2a and IgG2b PFC responses. The suppressor cells involved have been characterized. Functionally, they appear as nonantigen specific and isotype specific, because they never reduce the IgG1 response. They are Lyt-2.2 positive, Lyt-1 negative, and radiosensitive. Their relative resistance to anti-Thy-1.2 plus C treatment indicates that they express low amounts of this antigen or that they are heterogeneous concerning the expression of Thy-1.2.     

Effect of alpha-endorphin on the antigen-induced primary antibody response of human blood B cells in vitro

The interference of alpha-endorphin with the primary antibody response to ovalbumin (OA) of human blood lymphocytes in vitro was investigated. It was found that alpha-endorphin can block the OA-specific IgM-PFC response in a concentration of 0.05 to 0.5 microM. The decrease in the PFC response is due to an inhibitory effect of alpha-endorphin at the T cell level as well as at the B cell level. It appears that the neuropeptide is capable of blocking the production and/or secretion of antigen-specific T cell helper factor as well as of anti-OA antibodies by PFC. In addition, alpha-endorphin was shown to be capable of inhibiting the transition of B cells into PFC, which normally occurs after stimulation with antigen in the presence of adequate T cell helper activity. When alpha-endorphin, lacking the N-terminal amino acid residue tyrosine, is added to the cultures, inhibition of the PFC response is no longer observed. This indicates that alpha-endorphin influences the PFC response via opiate receptor interaction.     

Monocyte-derived human macrophages mediate anergy in allogeneic T cells and induce regulatory T cells

Activation of alloreactive T cells by APCs such as dendritic cells (DC) has been implicated as crucial step in transplant rejection. In contrast, it has been proposed that macrophages (Mphi) maintain tolerance toward alloantigens. It was therefore the aim of this study to further analyze the T cell-stimulatory capacity of mature DC and Mphi in vitro using the model of allogeneic MLR. There was a strong proliferative response in T cells cocultured with DC, which was further increased upon restimulation in a secondary MLR. In contrast, T cells did not proliferate in cocultures with Mphi despite costimulation with anti-CD28 and IL-2. Cytokine analysis revealed considerable levels of IL-10 in cocultures of T cells with Mphi, whereas high amounts of IL-2 and IFN-gamma were present in cocultures with DC. There was only minimal T cell proliferation in a secondary MLR when T cells were rescued from primary MLR with Mphi and restimulated with DC of the same donor, or DC of an unrelated donor (third party), whereas a strong primary proliferative response was observed in resting T cells, demonstrating induction of T cell anergy by Mphi. Functional analysis of T cells rescued from cocultures with Mphi demonstrated that anergy was at least partly mediated by IL-10-producing regulatory T cells induced by Mphi. These results demonstrate that Mphi drive the differentiation of regulatory T cells and mediate anergy in allogeneic T cells, supporting the concept that Mphi maintain peripheral tolerance in vivo.     

The role of hapten-reactive T lymphocytes in the induction of autoimmunity in mice. I. Establishment of the experimental conditions for the termination of immunological tolerance to human gamma globulin.

In order to study the role of hapten-reactive helper T cells in the induction of autoimmunity in mice, an attempt was made to establish an experimental model for the development of hapten-reactive helper T cells and the termination of immunological tolerance against heterologous proteins. Spleen cells taken from mice which were immunized with hapten-isologous protein conjugates (PAB-MGG) demonstrated helper activity for the anti-DNP antibody response of DNP-primed B cells responding to DNP and PAB-conjugated protein, but spleen cells from hapten-heterologous protein conjugate (PAB-HGG)-primed mice could not respond to PAB-determinant. Thus, hapten-reactive helper T cells can develop in mice by the immunization with hapten-isologous protein conjugate, but not with hapten-heterologous protein conjugate. However, spleen cells from mice which had been rendered tolerant by treatment with 2.5 or 0.2 mg of DHGG and then immunized with PAB-HGG could demonstrate helper activity responding to PAB-determinant. This helper activity was PAB-specific, because these spleen cells did not demonstrate helper activity if PAB-determinant was omitted in the primary and the secondary antigen. This helper activity was abrogated by the treatment of spleen cells with anti-θ serum and complement. Thus, hapten-reactive helper T cells were successfully induced by the challenge with hapten-heterologous protein conjugate in carrier-protein tolerant mice. When mice were treated with 2.5 or 0.2 mg of DHGG, no anti-HGG antibody response was induced by the challenge with HGG or PAB-HGG. However, the termination of HGG-tolerance was demonstrated only when the mice were preimmunized with PAB-MGG to raise PAB-rcactive helper T cells, treated with 0.2 mg of DHGG, and then challenged with PAB-HGG. This termination of immunological tolerance was not observed when the mice were preimmunized with PAB-BαA to raise PAB-specific B cells and anti-PAB antibody, or when the mice were treated with 2.5 mg of DHGG. Thus, if HGG-specific B cells remain intact in mice such as treated with low dose of DHGG, these B cells can be activated by some bypass mechanisms in the presence of PAB-reactive helper T cells through the PAB-determinant even in the absence of HGG-reactive helper T cells. These data clearly showed the role of hapten-reactive helper T cells in the termination of immunological tolerance and provide experimental supports to the hypothesis on the termination mechanism proposed by Weigle. The cellular mechanism for the development of hapten-reactive helper T cells in tolerant animals and the cellular mechanism of autoantibody production were discussed on the basis of T-B cell collaboration.     

Abrogation of anti-Pichinde virus cytotoxic T cell memory by cyclophosphamide and restoration by coinfection or interleukin 2

Previously, we demonstrated that memory cell-mediated immune responses can be generated in Pichinde virus (PV)-primed mice after secondary challenge in vivo with homologous virus. Further, treatment of mice with cyclophosphamide (CY) before primary infection with PV abrogated the generation of H-2-restricted, virus-specific cytotoxic T lymphocytes (CTL), and rechallenge of these mice was followed by neither a primary nor a secondary CTL response. Here, we demonstrate that this CY-induced block in memory anti-PV CTL generation was not due to establishment of a persistent infection. Interestingly, this CY-induced block in memory anti-PV CTL generation was overcome by secondarily coinfecting mice with PV and lymphocytic choriomeningitis virus (LCMV) or PV and Tacaribe virus. Secondary infection with LCMV or Tacaribe virus alone did not elicit anti-PV CTL. Coinfection resulted in the generation of a PV-specific memory CTL response as judged by maximal activity on day 4 after rechallenge. Co-infection with PV and vesicular stomatitis virus, an unrelated rhabdovirus, did not efficiently restore memory anti-PV CTL responses. Memory anti-PV CTL responses were also restored when interleukin 2 (IL 2)-containing supernatants were injected i.p. after rechallenge of CY-treated mice with PV. To demonstrate that IL 2 was the responsible lymphokine in these preparations, highly purified IL 2 was added to in vitro cultures of spleen cells from CY-treated PV-primed mice. In the presence of PV-infected syngeneic macrophages, addition of purified IL 2 resulted in a dose-dependent restoration of H-2-restricted anti-PV CTL activity. The CTL precursor (CTLp) frequency of CY-treated PV-primed mice was markedly decreased from that of normal PV-primed mice. Thus, the long-lasting block in the ability to generate a PV-specific memory CTL response after CY treatment appears to be due to both a lack of helper T cell activity and a significant reduction of CTLp. However, this block may be overcome by coinfecting with viruses that cross-react at the helper T cell level or by exogenous treatment with highly purified IL 2.     

Severe acute respiratory syndrome and the innate immune responses: modulation of effector cell function without productive infection

Severe acute respiratory syndrome (SARS) caused by a novel human coronavirus (CoV), designated SARS-CoV, is a highly contagious respiratory disease with the lungs as a major target. Although the exact mechanism of SARS-CoV pathogenesis remains unknown, an intense, ill-regulated local inflammatory response has been suggested as partially responsible for the devastating lung pathology. We investigated the interaction of SARS-CoV with human macrophages (Mphi) and dendritic cells (DC), two key innate immune cells of the host immune system, by focusing on their susceptibility to viral infection and subsequent responses (e.g., phenotypic maturation, T cell-priming activity, phagocytosis, and cytokine production). We found neither cell to be permissive for SARS-CoV replication. However, incubation of Mphi and DC with live, but not gamma irradiation-inactivated, viruses appeared to better sustain their viability. Also, exposure to infectious SARS-CoV led to the phenotypic and functional maturation of DC, with regard to MHC class II and costimulatory molecule expression, T cell-stimulatory capacity, and cytokine production, respectively. Cytokine production was also observed for Mphi, which were refractory to cell surface phenotypic changes. Strikingly, live SARS-CoV could further prime cell types to respond to a suboptimal dose of bacterial LPS (100 ng/ml), resulting in massive release of IL-6 and IL-12. However, the endocytic capacity (e.g., Ag capture) of Mphi was significantly compromised upon exposure to infectious SARS-CoV. This study is the first demonstration that although SARS-CoV does not productively infect human Mphi or DC, it appears to exert differential effects on Mphi and DC maturation and functions, which might contribute to SARS pathogenesis.     

Helper cells activated by allogeneic H-2K or H-2D differences have a Ly phenotype distinct from those responsive to I differences.

Helper activity for the primary in vitro response to sheep erythrocytes was induced by recognition of foreign major histocompatibility antigens. The Lyt phenotypes of helper activity induced by differences in the whole haplotype, K or D antigens, I region antigen, or by differences at the M1s locus were determined. All allohelper cells expressed Ly1. In a single spleen cell suspension helper activity generated in response to the whole haplotype, I region, or M1s antigens was derived from an Ly2-negative population, whereas helper activity generated to K or D alone was derived from a population of Ly2-positive cells. Mixtures of anti-Ly1 and anti-Ly2 treated populations were unable to generate helper activity in response to K or D differences. Such helper activity was therefore dependent on the presence of Ly12 cells. It was concluded that the Ly phenotype of the helper cells is not determined solely by the T cell function but is influenced by the region of the major histocompatibility complex that is recognized. Possible interpretations of these findings are discussed.     

Radiosensitivity of the helper cell function.

The helper function of T cells primed and irradiated in vivo was tested in vitro by the Mishell-Dutton technique. Spleen cells from mice carrier-primed with HRBC and exposed to 50 to 2000 rads of x-radiation were assayed for their ability to help syngeneic normal spleen cells to mount an in vitro anti-hapten antibody response after stimulation with the conjugate TNP-HRBC. The anti-TNP response was evaluated by the Jerne technique. The helper activity was titrated by adding graded numbers of carrier-primed spleen cells to a constant number of normal spleen cells. The slope of the initial linear portion of the response-cell dose titration curve was taken as an estimated of the helper activity and found to decrease with increasing the x-ray dose. The curve describing the remaining helper activity as a function of the radiation dose shows the presence of two components, one radiosensitive, the other, radioresistant. This suggests the existence either of helper cells at different stages of activation or of two cell subpopulations participating in the helper function.     

Helper T cells against tumor-associated antigens (TAA): preferential induction of helper T cell activities involved in anti-TAA cytotoxic T lymphocyte and antibody responses

This study establishes assay systems for helper T cell activities assisting cytotoxic T lymphocyte (CTL) and antibody responses to tumor-associated antigens (TAA) and demonstrates the existence of TAA that induce preferentially anti-TAA CTL helper and B cell helper T cell activities in two syngeneic tumor models. C3H/HeN mice were immunized to the syngeneic X5563 plasmacytoma or MH134 hepatoma. Spleen cells from these mice were tested for anti-TAA helper T cell activity capable of augmenting anti-trinitrophenyl(TNP) CTL and anti-TNP antibody responses from anti-TNP CTL and B cell precursors (responding cells) by stimulation with TNP-modified X5563 or MH134 tumor cells. The results demonstrate that cultures of responding cells plus 85OR X-irradiated tumor-immunized spleen cells (helper cells) failed to enhance anti-TNP CTL or antibody responses when in vitro stimulation was provided by either unmodified tumor cells or TNP-modified syngeneic spleen cells (TNP-self). In contrast, these cultures resulted in appreciable augmentation of anti-TNP CTL or antibody response when stimulated by TNP-modified tumor cells. Such anti-TAA helper activities were revealed to be Lyt-1+2- T cell mediated and TAA specific. Most interestingly, immunization with X5563 tumor cells resulted in anti-TAA helper T cell activity involved in CTL, but not in antibody responses. Conversely, TAA of MH134 tumor cells induced selective generation of anti-TAA helper T cell activity responsible for antibody response. These results indicate that there exists the qualitative TAA-heterogeneity as evidenced by the preferential induction of anti-TAA CTL- and B cell-helper T cell activities. The results are discussed in the light of cellular mechanisms underlying the preferential anti-TAA immune responses, and the interrelationship between various types of cell functions including CTL- and B cell-help.     

T cell-derived glucosteroid response-modifying factor (GRMFT): a unique lymphokine made by normal T lymphocytes and a T cell hybridoma

Mouse spleen cells and a murine T cell hybridoma, FS6 14.13.1, produce a glucosteroid response-modifying factor (GRMFT) after stimulation with concanavalin A. GRMFT blocks glucosteroid suppression of helper T cell function and the growth of granulocyte/macrophage progenitor cells in vitro. IL 1 also protects helper T cells and myeloid precursors from glucosteroid suppression. This suggests that GRMFT and IL 1 act congruently to ensure that an effective immune response is generated when endogenous glucosteroid levels are elevated. To understand the role of GRMFT in normal immune responses and in disease states characterized by imbalances in the immune system, we began to purify and characterize GRMFT. GRMFT appears to be distinct from other well-characterized T cell-derived factors. GRMFT is larger than IL 2 as determined by gel exclusion chromatography and is completely separated from IL 2 by isoelectric focusing. Furthermore, purified IL 2 does not have GRMFT activity. Purified IL 3 also lacks GRMFT activity, and conditions that inactivate immune interferon have no effect on GRMFT. Thus, GRMFT is different from IL 2, IL 3, and immune interferon. GRMFT also lacks activity in the thymocyte co-mitogenic assay and is therefore different from IL 1. Finally, FS6 14.13.1 reportedly does not produce TRF or CSF, which suggests that GRMFT is different from these molecules as well.     

Enhancing effect of IFN-gamma on helper T cell activity and IL 2 production

A single injection of young murine immune interferon (IFN-gamma) in young (3 mo) or old (14 to 24 mo) mice 3 days before carrier-priming significantly enhances helper T cell activity of their spleen cells. Maximal enhancement is attained when IFN-gamma is injected once immediately before priming or for 4 consecutive days from the time of priming. Helper activity for anti-TNP antibody response was titrated in vitro by adding graded numbers of spleen cells from HRBC-primed mice of a given age to cultures containing a constant number of spleen cells from 3-mo-old normal mice and TNP-HRBC. When T cell-enriched spleen cells from HRBC-primed young or old mice, uninjected or injected with IFN-gamma, were separated by nylon wool filtration into passed (Thi) and adherent (Th2) cells, the helper activity of both T cell subpopulations was found to be enhanced by IFN-gamma injection. Helper activity of purified Th1 and Th2 cells was also increased by their in vitro preincubation with IFN-gamma. Furthermore, interleukin 2 (IL 2) production by mitogen-activated spleen cells from young and old mice is enhanced by addition of IFN-gamma to cultures. These data altogether indicate that IFN-gamma plays an important role in immunoregulation of helper T cell activity.     

Sodium stibogluconate interacts with IL-2 in anti-Renca tumor action via a T cell-dependent mechanism in connection with induction of tumor-infiltrating macrophages

IL-2 therapy results in 10-20% response rates in advanced renal cell carcinoma (RCC) via activating immune cells, in which the protein tyrosine phosphatase Src homology 2 domain-containing phosphatase 1 (SHP-1) is a key negative regulator. Based on finding that sodium stibogluconate (SSG) inhibited SHP-1, the anti-RCC potential and action mechanism of SSG and SSG/IL-2 in combination were investigated in a murine renal cancer model (Renca). Despite its failure to inhibit Renca cell proliferation in cultures, SSG induced 61% growth inhibition of Renca tumors in BALB/c mice coincident with an increase (2-fold) in tumor-infiltrating macrophages (Mphi). A combination of SSG and IL-2 was more effective in inhibiting tumor growth (91%) and inducing tumor-infiltrating Mphi (4-fold), whereas IL-2 alone had little effect. Mphi increases were also detected in the spleens of mice treated with SSG (3-fold) or SSG/IL-2 in combination (6-fold), suggesting a systemic Mphi expansion similar to those in SHP-deficient mice. T cell involvement in the anti-Renca tumor action of the combination was suggested by the observations that the treatment induced spleen IFN-gamma T cells in BALB/c mice, but failed to inhibit Renca tumor growth in athymic nude mice and that SSG treatment of T cells in vitro increased production of IFN-gamma capable of activating tumoricidal Mphi. The SSG and SSG/IL-2 combination treatments were tolerated in the mice. These results together demonstrate an anti-Renca tumor activity of SSG that was enhanced in combination with IL-2 and functions via a T cell-dependent mechanism with increased IFN-gamma production and expansion/activation of Mphi. Our findings suggest that SSG might improve anti-RCC efficacy of IL-2 therapy by enhancing antitumor immunity.