Is epsilon-aminocaproic acid as effective as aprotinin in reducing bleeding with cardiac surgery?: a meta-analysis

Infection of BALB/c mice with Trypanosoma cruzi resulted in up-regulated expression of Fas and Fas ligand (FasL) mRNA by splenic CD4+ T cells, activation-induced CD4+ T cell death (AICD), and in Fas: FasL-mediated cytotoxicity. When CD4+ T cells from infected mice were co-cultured with T. cruzi-infected macrophages, onset of AICD exacerbated parasite replication. CD4+ T cells from T. cruzi-infected FasL-deficient BALB gld/gld mice had no detectable AICD in vitro and their activation with anti-TCR did not exacerbate T. cruzi replication in macrophages. However, infection of BALB gld/gld mice with T. cruzi resulted in higher and more prolonged parasitemia, compared to wild-type mice. Secretion of Th2 cytokines IL-10 and IL-4 by CD4+ T cells from infected gld mice was markedly increased, compared to controls. In addition, in vivo injection of anti-IL-4 mAb, but not of an isotype control mAb, reduced parasitemia in both gld and wild-type mice. These results indicate that, besides controlling CD4+ T cell AICD and parasite replication in vitro, an intact Fas: FasL pathway also controls the host cytokine response to T. cruzi infection in vivo, being required to prevent an exacerbated Th2-type immune response to the parasite.     

Antimalarial activity of novel arylene bis(methylketone) compounds

Because of the spread of drug-resistant Plasmodium species, there is an urgent need for novel effective antimalarial agents. A series of arylene bis(methylketone) compounds were screened in vitro against a number of Plasmodium falciparum clones and in vivo against Plasmodium berghei. 2-amino-4-(3,5-diacetylphenyl)amino-1,6-dimethylpyrimidinium chloride (Cytokine Network Inc. [CNI]-H0294) was the most effective of the compounds in vitro, with an IC50 of 1.5-4.0 microM against parasite clones with a wide range of sensitivities to chloroquine and pyrimethamine. Other compounds in the series had in vitro IC50 values of 20-25 microM. In a 4-day test for suppression of P. berghei parasitemia in vivo, 50 mg/kg/day CNI-H0294 significantly decreased parasitemia by >90%. The compound was found to have low toxicity in mice, with an LD50 of 590 +/- 66 mg/kg intraperitoneally, and rapid plasma kinetics. These results show that CNI-H0294 has considerable antimalarial activity and merits further study.     

Psychomotor development in children with triphalangeal thumbs. A preliminary study

A double-blind, randomized, clinical field trial was designed to test the efficacy and tolerance of a specific drug treatment in children in the indeterminate phase of infection by Trypanosoma cruzi. Children were treated with benznidazole at a dose of 5 mg/kg/day for 60 days or placebo and followed-up for 48 months. The treated children showed a significant decrease in geometric mean titers of antibodies against T. cruzi measured by indirect hemagglutination, indirect immunofluorescence, and ELISA. After a four year follow-up, 62% of the benznidazole-treated children and no placebo-treated child were seronegative for T. cruzi when tested by an ELISA using a T. cruzi flagellar calcium-binding protein (F29). Xenodiagnosis carried out after 48 months of follow-up was positive in 4.7% of the benznidazole-treated children and in 51.2% of the placebo-treated children. These results show the tolerance to and efficacy of benznidazole against T. cruzi in seropositive children six to 12 years of age. We used an early serologic marker of cure after treatment, consisting of a recombinant antigen implemented in a rapid, conventional serologic procedure.     

Treatment with interleukin 12 in combination with atovaquone or clindamycin significantly increases survival of mice with acute toxoplasmosis

The capacity of interleukin 12 (IL-12) to potentiate drugs in the treatment of murine toxoplasmosis was examined. IL-12 (100 ng/injection), atovaquone (10 mg/kg of body weight/day), or clindamycin (5 mg/kg/day) administered alone caused delayed time to death or minimal survival rates. In contrast, significant survival rates resulted when the same dose of IL-12 was used in combination the same doses of atovaquone (P=0.01) or clindamycin (P=0.001). Infected mice treated with IL-12 plus drug produced significantly higher levels of gamma interferon than controls. Although IL-12 was effective only when administered before infection, these results suggest that this cytokine may be a useful adjunct in the therapy of human toxoplasmosis in situations when cysts reactivate and tachyzoites start multiplying in immunocompromised patients.     

Recombinant IL-4 treatment augments resistance to Borrelia burgdorferi infections in both normal susceptible and antibody-deficient susceptible mice

Recent evidence suggests that T cells and their associated cytokines critically influence outcome in mice experimentally infected with Borrelia burgdorferi (Bb), the causative agent of human Lyme disease. In vivo T cell subset and cytokine depletion studies suggest that CD4+ T cell-derived IL-4 plays a critical role in control of spirochete growth in vivo, whereas CD8+ T cell-derived IFN-gamma appears to promote disease, particularly in susceptible mouse strains. To further investigate the immunologic basis of protection and the role of IL-4, we have examined the effects of early rIL-4 treatment on outcome in susceptible mice infected with Bb. In this study, we show that administration of rIL-4 to susceptible C3H mice during the first week of infection with Bb leads to early control of their infections, as evidenced by significant reductions in joint swelling at wk 5, 6, and 7 postinfection, and in the numbers of spirochetes recovered from their joints and skin at wk 7 when compared with sham-treated mice. Increased resistance in rIL-4-treated mice was accompanied by significant reductions in their in vitro splenic Bb-specific IFN-gamma responses and in serum levels of specific IgG2a and IgG3 Abs and significant increases in specific IgG1 Abs. We also show that the inherent susceptibility of Ab-deficient, C57BL/6-IgM knockout (B6-MKO) mice to Rh infection is intermediate relative to C57BL/6 severe combined immunodeficient (B6-SCID) mice (susceptible) or normal C57BL/6 mice (resistant), confirming the importance of both Ab-dependent and Ab-independent, T cell-dependent immune mechanisms in control of Bb infections. The additional finding that early treatment with rIL-4 significantly reduced the severity of Bb infections in B6-MKO mice indicates that IL-4 may augment anti-spirochetal immunity via an Ab-independent mechanism.     

Interleukin-1alpha synergistic in vivo enhancement of cyclophosphamide- and carboplatin-mediated antitumor activity

Interleukin-1alpha (IL-1alpha) has potent acute antitumor activity in vivo and can enhance the efficacy of chemotherapeutic drug-mediated antitumor responses. Studies were undertaken to examine the ability of IL-1alpha to enhance the activity of cyclophosphamide (CTX) administered in combination with carboplatin. To determine the in vivo effect of IL-1alpha, CTX and/or carboplatin, mice bearing 14-day RIF-1 tumors were treated on day 0 with a concurrent i.p. injection of varying doses of CTX (5-150 mg/kg), human IL-1alpha (125 microg/kg), and carboplatin (50 mg/kg) and examined 24 h later for the surviving fraction by the in vivo excision clonogenic-tumor-cell assay. Even at the lowest doses of CTX, IL-1alpha significantly enhanced the clonogenic tumor cell kill when compared to treatment with CTX alone. When carboplatin was added to the treatment schema, significantly greater clonogenic cell killing and tumor regrowth delay were observed as compared to any agent alone or a two-drug combination (CTX/IL-1alpha or CTX/carboplatin). Significant enhancement was observed even at low doses of CTX in combination with carboplatin and IL-1alpha. The interaction between the three-drug combination was found to be synergistic as determined by the median dose effect with significant dose reduction apparent for IL-1alpha and CTX when used in this combination. These results demonstrate that IL-1alpha can synergistically enhance the antitumor efficacy of CTX and the combination of CTX and carboplatin.     

The Friedreich's ataxia mutation confers cellular sensitivity to oxidant stress which is rescued by chelators of iron and calcium and inhibitors of apoptosis

Interleukin 12 (IL-12) exhibits anti-tumor activity in a variety of laboratory models. Although IL-12 itself activates strong anti-tumor activity, the combination of vaccine therapy with IL-2-transduced tumor cells and systemic rIL-12 has been shown to cure tumor-bearing mice more effectively than either rIL-12 or IL-2-transduced tumor vaccines alone. In the present study, regression of brain tumors established in naive mice was obtained by combined administration of an intratumoral injection of a single dose of IL-2-producing glioma cells (SR/IL-2 cells) and recombinant IL-12. Intraperitoneal rIL-12 administration substantially delayed the growth of s.c. inoculated gliomas, but not of gliomas located in the brain. Although vaccination with SR/IL-2 cells alone was not effective against s.c. inoculated gliomas, the combination therapy of vaccination with irradiated SR/IL-2 cells and systemic rIL-12 was more effective than rIL-12 alone. In our brain-tumor model, intratumoral administration of irradiated SR/IL-2 cells and of rIL-12 remarkably prolonged survival as compared with untreated mice. Efficacy was reduced when studies were performed in mice depleted of CD8+ cells or NK cells. Mice cured of their intracerebral tumors by combined administration of SR/IL-2 cells and rIL-12 demonstrated protective immunity upon rechallenge. In summary, the therapeutic potential for control of tumor growth by intratumoral administration of IL-2-producing glioma cells and rIL-12 may be useful in the development of treatment for patients with glioma.     

An anti-IL-2 antibody increases serum half-life and improves anti-tumor efficacy of human recombinant interleukin-2

We examined the ability of anti-human recombinant interleukin-2 (hu rIL-2) monoclonal antibody DMS-1.10 to increase serum half-life of hu rIL-2, and the effect of this complex on inhibition of tumor progression in a B16-F10 murine melanoma model. In C57B1/6 mice, intravenous (i.v.) injection of DMS-1.10 premixed with 1 x 10(4) units (U) of hu rIL-2 at a 1:1 molar ratio extended serum half-life greater than 10-fold (222 min) when compared to the same dose of hu rIL-2 alone (20 min). In a murine tumor model, multiple intraperitoneal (i.p.) injections of non-neutralizing DMS-1.10 premixed with hu rIL-2 at a 5:1 molar ratio reduced the growth rate of subcutaneous (s.c.) B16-F10 tumor in C57B1/6 mice by 64% when compared to PBS and irrelevant antibody treated controls. Although similar treatment with hu rIL-2 alone reduced tumor growth rate by 46%, it was significantly less effective than the premixed treatment. Results from a flow cytometry assay confirm B16-F10 does not have IL-2 receptors, precluding direct inhibition of tumor growth by hu rIL-2 treatments. We propose that therapeutic efficacy of hu rIL-2 is improved by prolonging the in vivo half-life with an anti-IL-2 antibody, thus augmenting hu rIL-2 bioactivity and enhancing the hosts immune response against tumor.     

Canarypox virus-mediated interleukin 12 gene transfer into murine mammary adenocarcinoma induces tumor suppression and long-term antitumoral immunity

The antitumoral activity of recombinant canarypox virus vectors (ALVAC) expressing murine interleukin 12 (IL-12) was evaluated in the syngeneic, nonimmunogenic murine mammary adenocarcinoma model (TS/A). Seven-day preestablished subcutaneous tumors (5- to 6-mm mean diameters) were injected on days 7, 10, 14, 17, 21, and 24 with the vector ALVAC-IL12 at 2.5 x 10(5) TCID50 (50% tissue culture infective dose). Total tumor regression occurred in 40 to 50% of the treated mice. Furthermore, 100% of the cured mice were protected against a contralateral subsequent challenge with the TS/A parental cells on day 28. The ALVAC-IL12 treatment is not effective in nude mice, suggesting the critical role of T cells. CD4 and CD8 T cells infiltrated the tumors treated with ALVAC-IL12 in the BALB/c model. Furthermore, in vivo depletion of CD4+ T cells totally abrogated the induction of the long-term antitumoral immune response by ALVAC-IL12. Interestingly, some tumor growth inhibition was also observed with ALVAC-betaGal treatment and a vaccinal effect was found in 33% of the treated animals, suggesting an adjuvant effect of the vector itself. Other ALVAC vectors expressing murine cytokines (IL-2, GM-CSF, IFN-gamma) were evaluated in the same model. Major antitumoral activity was observed with ALVAC-GM-CSF. However, a combination of ALVAC-GM-CSF and ALVAC-IL12 had no synergistic effect. These results suggest that in vivo gene transfer with canarypox virus expressing IL-12 may provide an effective and safe strategy for the treatment of human cancers.     

A pathogenic role of Th2 cells and their cytokine products on the pulmonary metastasis of murine B16 melanoma

The role of Th2 cells and the cytokines produced by these cells on experimental pulmonary metastasis of B16 melanoma was investigated in a murine model implanted with high metastatic (B16F10) or low metastatic (B16F1) melanoma cells. An average of 250 colonies of metastasis in the lungs was counted in mice (BF10 mice) at 14 days after the inoculation of 2 x 10(5) B16F10 cells/mouse, while <20 colonies were detected in mice (BF1 mice) inoculated with the same number of B16F1 cells. CD4+ CD11b+ TCR-alphabeta+ T cells (BF10-Th2 cells) were produced in the spleens of BF10 mice, while these cells were not detected in BF1 mice. The BF10-Th2 cells produced IL-4 and IL-10 into culture fluids when stimulated in vitro with anti-CD3 mAb. However, IL-2 and IFN-gamma were not produced. The level of a pulmonary metastasis in BF1 mice increased to the level observed in BF10 mice, when BF10-Th2 cells were adoptively transferred to BF1 mice. Also, an increase in the number of pulmonary melanoma was demonstrated in BF1 mice treated with 10 microg/kg murine rIL-4. The level of pulmonary metastasis in BF10 mice or in BF1 mice inoculated with BF10-Th2 cells decreased to the level observed in BF1 mice when mice were treated with an anti-IL-4 mAb at a dose of 250 microg/kg on days 1, 3, and 5 after tumor inoculation. These results suggest that the severity of pulmonary metastasis in mice receiving B16 melanoma cells is strongly influenced by the IL-4 released from tumor-associated Th2 cells.     

Reversal of chloroquine resistance in murine malaria parasites by prostaglandin derivatives

An oligomeric ester of prostaglandin B2 (OC-5186) was found to reverse chloroquine resistance in the murine malarial parasite Plasmodium berghei. When mice were infected with either chloroquine-sensitive or -resistant P. berghei on day 0 (by intraperitoneal injection of 1 x 10(6) parasitized erythrocytes), they died before day 23. When treated with 15 mg/kg/day of chloroquine for the first four days of infection, all mice infected with the sensitive-strain survived, while all those infected with the resistant strain died before day 23. When OC-5186 (3-12 mg/kg/day) was administered in combination with chloroquine for the first four days, 60% of the animals infected with the resistant strain survived. The differences in the survival rate between the group treated with chloroquine only and the group treated with a combination of drugs (chloroquine plus 3-12 mg/kg/day of OC-5186) were significant. There was also a significant inhibition of parasitemia in the group treated with the combination of drugs. The combinations of chloroquine and a monomer ester of prostaglandin B2 (OC-5181) had some antimalarial activity, but the differences between the chloroquine-treated group and the combination treatment group were not significant in terms of both the parasitemia and the survival rate. Another oligomeric ester of prostaglandin E1 (MR-356) as well as unesterified monomer prostaglandins (PGA2 and PGB2) were ineffective by themselves and in combination with chloroquine.     

The influence of gonadectomy of host on parasitemia and mortality of mice infected with Trypanosoma cruzi

Male CF1 mice were more susceptible to acute infections of Trypanosoma cruzi than female mice as evidenced by significantly greater maximum mean parasitemia of approximately 8.9 times 10-6 per ml in males as compared to 1.5 times 10-6 per ml in females. Mortality was also greater in males (80 to 90% as compared to 28% in females). Ovariectomy of female mice made them more susceptible than unoperated female of similar age and stock to the Brazil strain of T. cruzi as indicated by maximum mean parasitemia of 10.9 times 10-6 per ml in the former and 7.5 times 10-6 in the latter. Mortality of the ovariectomized mice was as great as 90% in some experiments while that of unoperated controls nerve exceeded 30%. Parasitemia and mortality is castrated male mice were not significantly different from unoperated male mice infected with T. cruzi.     

A trans-acting enhancer modulates estrogen-mediated transcription of reporter genes in osteoblasts

The maturation of eosinophils in bone marrow, their migration to pulmonary tissue, and their subsequent degranulation and release of toxic granule proteins contributes to the pathophysiology observed in asthma. Interleukin-5 (IL-5) is essential for these processes to occur. Therefore, much emphasis has been placed on attempts to inhibit the production or activity of IL-5 in order to attenuate the inflammatory aspect of asthma. In this report, the immunological consequences of long-term exposure to an antibody recognizing IL-5 (TRFK-5) were studied in a murine pulmonary inflammation model. A single dose of TRFK-5 (1 mg/ kg, intraperitoneally) reversibly inhibited antigen-dependent lung eosinophilia in mice for at least 12 wk and inhibited the release of eosinophils from bone marrow for at least 8 wk. Normal responses to aerosol challenge were attained after 24 wk. In mice treated acutely with antibody (2 h before challenge), 50% inhibition of pulmonary eosinophilia occurred when 0. 06 mg/kg TRFK-5 was administered (intraperitoneally; ED50), resulting in 230 ng/ml (IC50) in serum. In mice treated with one dose of TRFK-5 (1 mg/kg) and rested before challenge, the antibody exhibited a half-life of 2.4 wk. After 18 to 19 wk, antigen challenge-induced eosinophilia was inhibited by 50% and serum levels of TRFK-5 were 25 ng/ml. TRFK-5 remaining in mice 8 wk after a single injection of TRFK-5 was sufficient to inhibit at least 50% of the eosinophilia induced in blood 3 h after injection of recombinant murine IL-5 (10 microg/kg, intravenously). To assess the biologic effect of long-term exposure of mice to antibody, several parameters of immune-cell function were measured. Throughout the extended period of activity of TRFK-5 (>/= 12 wk) there were no gross effects on antigen-dependent increases in T-cell recruitment into bronchoalveolar fluid (BALF), in IL-4 and IL-5 steady-state mRNA levels in lung tissue, or in immunoglobulin E (IgE) and IgG levels in serum. There was a small increase in IL-5 steady-state mRNA production in TRFK-5-treated mice after 2 h or 2 wk, but this was not observed at other times examined. In untreated mice, IL-5 steady-state mRNA production in response to antigen challenge decreased > 6-fold with age, although at all time points there was an increase in mRNA levels following challenge. Therefore, at later times, 25 ng/ml rather than 230 ng/ml of TRFK-5 inhibited BALF eosinophilia, probably because of reduced IL-5 levels. Twenty-four weeks after treatment with TRFK-5, when challenge-induced eosinophilia was restored, there was an excess of CD4(+) T cells in BALF from challenged mice. However, these T cells had no measurable effects on other responses to challenge, including cytokine production, B-cell accumulation, and immunoglobulin production in serum. Thus, the biologic duration of TRFK-5 was several months, and its activity was due to the presence of antibody above a therapeutic threshold rather than to any profound effect on the immune system.     

Interactive effects of cocaine and gender on thymocytes: a study of in vivo repeated cocaine exposure

This study used a mouse model including both sexes to assess the impact of repeat cocaine exposure on the differentiation and function of T cell in thymus. Cocaine hydrochloride in 0.9% saline, 5 mg or 40 mg/kg, was administrated by i.p. injection to C57BL/6 mice for 10 days. Thymocytes were obtained 24 h after the 10th injection. Repeat in vivo cocaine exposure inhibited the proliferation of T lymphocytes in response to Con-A and Con-A plus anti-CD28. The proliferation induced by IL-2 in the Con-A stimulated T blasts was attenuated in cocaine treated mice. These effects were seen at a lower cocaine dose in female mice. The total number of thymocytes was reduced. Although the percentage of mature thymocytes (CD4+ CD8- and CD4- CD8+ cells) was not altered, the absolute cell numbers were attenuated. Both percentage and absolute cell number of immature thymocytes (CD4+ CD8+) decreased and the pre-mature (CD4- CD8-) cells increased. CD28 and CD25 expression were attenuated in Con-A stimulated thymocytes of mice treated with cocaine at 40 mg/kg. Interleukin 2 production was not significantly altered, however, gamma-IFN production was decreased by cocaine exposure at 40 mg/kg. In conclusion, cocaine exerts inhibitory effects on the function of mature thymocytes, and on the differentiation of thymocytes. A gender difference in response to cocaine was noted in that female mice were more sensitive to lower dose of cocaine exposure.     

Antitumor efficacy of adenocarcinoma cells engineered to produce interleukin 12 (IL-12) or other cytokines compared with exogenous IL-12

BACKGROUND: Numerous animal model studies have examined the ability of genetically engineered tumor cells to release cytokines and to elicit an immune memory against the parental tumor. Often only a single cytokine is studied, and few comparative studies have been conducted. PURPOSE: We evaluated the antitumor efficacy of adenocarcinoma cells engineered to release interleukin (IL)-12 in a mouse model system. The efficacy of this cytokine was compared with that of other cytokines released by engineered adenocarcinoma cells and that of exogenous IL-12 administered both locally and intraperitoneally. METHODS: BALB/cAnCr mice were inoculated with syngeneic parental mammary adenocarcinoma (TSA) cells in quantities sufficient to lead to tumors in all inoculated mice. TSA cells engineered to release IL-12 (TSA-IL12) were also injected into normal and selectively immunosuppressed BALB/cAnCr mice. Tumor incidence, growth, and rejection patterns were evaluated by the measurement of neoplastic masses and by the study of the histologic and ultrastructural features of the tumor site. The effects of local or intraperitoneal administration of recombinant IL-12 (rIL-12) on tumor-bearing animals were also studied. RESULTS: Most mice rejected TSA-IL12 cells through a CD8-positive, T-lymphocyte-dependent reaction associated with macrophage infiltration, vessel damage, and necrosis. The systemic immunity of mice that had rejected TSA-IL12 cells to a subsequent challenge with parental TSA cells was less efficient than that elicited by TSA cells engineered to release IL-4 or IL-10 but equivalent to that elicited by TSA cells engineered to release IL-2, IL-7, and interferon alfa. Compared with TSA cells engineered to produce other cytokines, TSA-IL12 cells were the most efficient in curing mice with established TSA tumors; injection of 0.1 million proliferating cells contralaterally to the tumor growth area cured five of 15 mice bearing 1-day-old tumors; injection of the same dose of proliferating cells into the tumor growth area cured two of 20 tumor-bearing mice. However, two 5-day courses with a nontoxic dose (0.1 microgram) of rIL-12 given intraperitoneally cured a similar proportion of these animals (six of 20). Only two of 20 mice with 7-day-old TSA tumors were cured by vaccination with proliferating TSA-IL12 cells, whereas 24 of 30 mice with such tumors were cured by intraperitoneal administration of rIL-12. CONCLUSIONS: TSA cells engineered to release IL-12 are rejected by most mice; the ensuing immune memory for TSA parental cells, however, was less efficient than that elicited by proliferating TSA cells engineered to release other cytokines (e.g., IL-4, IL-10, and possibly interferon gamma). The immune reaction elicited by TSA-IL12 cells was the most efficient in curing mice with established TSA tumors; notably though, the same or a better cure rate was obtained with rIL-12 given intraperitoneally.     

Administration of recombinant interleukin 12 prevents outgrowth of tumor cells metastasizing spontaneously to lung and lymph nodes

The present study investigates the ability of recombinant interleukin 12 (rIL-12) to modulate the growth of a primary tumor as well as the outgrowth of metastatic tumor cells in an ovarian carcinoma (OV-HM) model. This aggressive tumor displayed rapid growth of the primary tumor mass, high incidence of metastases to lung and lymph nodes, and invasion from the primary s.c. site to the peritoneal cavity. Starting 12 days after s.c. tumor cell implantation, several i.p. injections of rIL-12 at 2-3 day intervals resulted in regression of growing tumors. These treated mice did not show signs of metastases or tumor recurrence at the original site. One month after tumor implantation, untreated mice did not have visible lung metastasis, but some did have palpable lymph nodes. At this stage, the primary tumors of animals without palpable lymph nodes were surgically resected. When examined 2 months later, most animals had developed lymph node and lung metastases. In contrast, rIL-12 injections after tumor resection inhibited the development of metastases in both lung and lymph nodes. This contrasted with the failure of IL-2 to prevent metastases. Even for mice already showing signs of lymph node metastases or invasion of the abdominal wall, rIL-12 administration after tumor resection prevented further invasion to the peritoneal cavity and growth of metastatic tumor cells in lung. It was somewhat surprising that the IL-12 treatment of animals after 1 month of tumor growth without resection also resulted in complete tumor regression, as well as eradication of micrometastasis that would have occurred before the treatment. Moreover, they exhibited resistance to a rechallenge with the same tumor but not with a second tumor. Thus, this tumor system provides a relevant model to clinical situations in terms of treatment of advanced tumors and metastases. These results also indicate that IL-12 can induce a curative immune response, even in the face of an aggressive micrometastasizing tumor.     

In vivo effects of T helper cell type 2 cytokines on macrophage antigen-presenting cell induction of T helper subsets

SJL mice provide an interesting paradigm to examine the role(s) of APC in the differential induction of Th1 and Th2 cells. Immunization of young male SJL mice results in the preferential induction of Th2 cells, whereas Th1 cells are induced in age-matched female or older male SJL mice. The absence of Th1 responses in young male mice is associated with in vivo IL-4 and IL-10 down-regulating Mac-3+ APC priming of Th1 cells. The present report examines the mechanism of this APC-dependent induction of Th subsets. Examination of the surface expression of MHC class II, adhesion molecules (CD11a, CD11b, CD48, CD54, and CD102) or costimulatory molecules (CD24, CD80, and CD86) showed no differences between male- and female-derived Mac-3+ APC populations. In addition, no differences were detected in IL-1alpha, IL-1beta, IL-18, TNF-alpha, or IL-12 p35 mRNA expression. However, reduced expression of both IL-10 and IL-12 p40 mRNA were found in Mac-3+ cells from male mice compared with those in Mac-3+ cells from female mice. Anti-IL-4 or anti-IL-10 mAb treatment of young male donor mice eliminated the reduction of both IL-10 and IL-12 p40 mRNA, suggesting that the Th2 inducer phenotype is related to a decreased IL-12 secretion. Consistent with this idea, fewer IL-12 p40-secreting Mac-3+ cells were found in male mice compared with female mice, and treatment with rIL-12 resulted in the priming of Th1 cells in male mice. These data suggest that increased Th2 cytokines in vivo before encounter with Ag inhibit APC expression of IL-12, resulting in the preferential induction of Th2 cells in male SJL mice.     

Antiparasitic effects of the intra-Golgi transport inhibitor megalomicin

The macrolide antibiotic megalomicin (MGM) has been shown to inhibit vesicular transport between the medial- and trans-Golgi, resulting in the undersialylation of cellular proteins (P. Bonay, S. Munro, M. Fresno, and B. Alarcón, J. Biol. Chem. 271:3719-3726, 1996). Due to the effects of MGM on the Golgi and on the replication of enveloped viruses, we decided to test whether it has any antiparasitic activity. The results showed that MGM has potent activity against the epimastigote stage of Trypanosoma cruzi, producing a 50% inhibitory concentration (IC50) of 0.2 microg/ml. Furthermore, MGM was also active against the intracellular replicative, amastigote form of T. cruzi, completely preventing its replication in infected murine LLC/MK2 macrophages at a dose of 5 microg/ml. Although less potent, MGM was also active against Trypanosoma brucei epimastigotes (IC50, 2 microg/ml) and Leishmania donovani and Leishmania major promastigotes (IC50, 3 and 8 microg/ml, respectively). MGM also blocked intracellular replication of the asexual stage of Plasmodium falciparum-infected erythrocytes at 1 microg/ml. Finally, MGM was active in an in vivo model, resulting in the complete protection of BALB/c mice from death caused by acute T. brucei infection and significantly reducing the parasitemia. These results suggest that MGM is a potential drug for the treatment of veterinary and human parasitic diseases.     

Recruitment of hepatic NK cells by IL-12 is dependent on IFN-gamma and VCAM-1 and is rapidly down-regulated by a mechanism involving T cells and expression of Fas

NK cells have been shown to be important antitumor or antiviral effector cells in the liver. In the present study we have examined the factors that regulate the initial recruitment and subsequent fate of hepatic NK and T cells in mice treated with IL-12 or IL-2. Daily administration of IL-12 caused a rapid initial increase in NK cells followed by a subsequent decrease that coincided with an accumulation of T cells. The recruitment of hepatic NK cells by IL-12, but not the subsequent T cell infiltrate, was abrogated in IFN-gamma(-/-) mice. In contrast, daily administration of IL-2 caused a sustained increase in liver-associated NK cells that was not diminished in IFN-gamma(-/-) mice. The IL-12-induced recruitment in both hepatic NK and T cells was abrogated by in vivo treatment with anti-VCAM-1 mAbs, while treatment with anti-ICAM-1 Abs decreased only the recruitment of T cells in the IL-12-treated mice. The rapid loss of newly recruited hepatic NK cells in IL-12-treated mice did not occur in SCID mice or in B.MRL-Fas(lpr) (Fas-) and B6Smn.C3H-Fasl(gld) (FasL-) mutant mice, suggesting that T cells can actively eliminate hepatic NK cells through a Fas-dependent mechanism. These findings also imply that during the endogenous innate immune response to infectious agents or tumors or in the host response induced by cytokine therapies, the biologic effects of NK cells may be limited by T cell-mediated effects.     

Derivation and characterization of a quinapyramine-resistant clone of Trypanosoma congolense

Over a period of 208 days a quinapyramine-resistant population was derived in vivo from a quinapyramine-susceptible clone of Trypanosoma congolense: IL 1180. While the dose of quinapyramine sulfate required to cure 50% of mice infected with the parental clone was 0.23 mg/kg of body weight, the 50% curative dose for the resistant derivative, IL 1180/Stabilate 12, was greater than 9.6 mg/kg. This approximately 40-fold increase in resistance to quinapyramine was shown to be associated with an 8-fold increase in resistance to isometamidium, a 28-fold increase in resistance to homidium, and a 5.5-fold increase in resistance to diminazene. Cross-resistance to homidium and diminazene was also demonstrated in goats. Two clones derived from the drug-resistant derivative underwent cyclical development in Glossina morsitans centralis, producing mature infection rates of 39.6 and 23.9%. Thus, induction of resistance to quinapyramine in T. congolense IL 1180 was associated with cross-resistance to isometamidium, homidium, and diminazene and did not compromise the population's ability to undergo full cyclical development in tsetse flies.