Induction of functional anaphylatoxin C5a receptors on hepatocytes by in vivo treatment of rats with IL-6

In normal rat liver, anaphylatoxin C5a receptors (C5aR) are only expressed by nonparenchymal cells, mainly Kupffer cells and hepatic stellate cells, but not by parenchymal cells, i.e., hepatocytes (HC). Nevertheless, C5a stimulates glucose output by HC. This HC-specific defense reaction is induced indirectly via prostanoids secreted by the C5aR-expressing Kupffer cells and hepatic stellate cells. It is shown here that under inflammatory conditions simulated by in vivo treatment of rats with IL-6 C5aR mRNA and protein were induced in HC in a time-dependent manner. Maximal mRNA and protein expression were observed at 4-8 h and 8-10 h, respectively, after IL-6 injection. The newly expressed receptors were functional, because recombinant rat C5a significantly activated glycogen phosphorylase in HC isolated from IL-6-treated but not in HC from control rats. In perfused livers of IL-6-treated animals in contrast to control animals, recombinant rat C5a-induced glucose output was not impaired by inhibition of prostanoid synthesis and function with the cyclooxygenase inhibitor indomethacin and the thromboxane receptor antagonist daltroban. These results indicate that HC-specific defense reactions might be differently regulated under normal and inflammatory conditions as shown here for the indirect prostanoid-dependent or direct C5a-induced activation of hepatocellular glycogen phyosphorylase and glucose output in control or IL-6-treated rats, respectively.     

Quantitative comparison of cytokine mRNA and inflammatory responses in cutaneous late phase allergic reactions

The aim of this study was to quantitatively compare expression of mRNA for IL-5 and IFN-gamma with the frequency of mRNA-positive cells, total and activated eosinophils, neutrophils, lymphocytes, and vessels expressing adhesion molecules. Replicate biopsies of skin LPR to pollen antigens (Ag) and control injection sites (B) at 6 and 24 h were assessed for: (1) mRNA for IL-5 and IFN-gamma by quantitative RT-PCR (QC-RT/PCR); (2) frequency of cells expressing mRNA for IL-5 and IFN-gamma by in situ hybridization (ISH); (3) inflammatory cells and adhesion molecule expression. More mRNA for IL-5 was found in Ag- than in B-injected sites at 6 and 24 h by both QC-RT/PCR and ISH. Small amounts of mRNA for IFN-gamma were detected in Ag sites by QC-RT/PCR at 6 and 24 h, but were not significantly different than at B sites. The frequency of IFN-gamma mRNA(+)cells was higher in Ag than in B sites at 6 h. There was no correlation between the amount if IL-5 detected by QC-RT/PCR and frequency of IL-5 mRNA(+)cells by ISH. These findings also did not correlate with the degree of inflammatory responses. In conclusion: (1) greater IL-5 than IFN-gamma deposition in Ag sites suggests Th(2)predominance in LPR; (2) lack of correlation between QC-RT/PCR and ISH findings may reflect varying mRNA content of inflammatory cells.     

Orally administered IL-6 induces elevated intestinal GM-CSF gene expression and splenic CFU-GM

Orally administered interleukin (IL)-6 has been shown to be of benefit in eliminating Campylobacter infection and in preventing sepsis following hemorrhage. In related experiments, it was seen that proliferating cells were found in the spleens of untreated mice given IL-6 by oral gavage. Injection of the DNA label, BrdU, showed that significant proliferation began at 4 h and peaked at 24 h in the splenic red pulp of animals given oral IL-6. Mice given saline showed no increase in splenic BrdU uptake. Histological analysis suggested a hematopoietic lineage for these cells. Clonogenic assays performed on spleen cells taken from mice given oral IL-6 revealed that increased granulocyte-macrophage colony forming units (GM-CFU) were present at 24 h post-IL-6 administration. No increase in GM colonies occurred in mice fed IL-3, granulocyte-colony stimulating factor (G-CSF) or granulocyte-macrophage (GM)-CSF. RT-PCR analysis of intestinal mRNA from treated mice revealed that GM-CSF mRNA was elevated at 4 h after oral IL-6 administration, but not in mice fed other cytokines. It is suggested that oral administration of IL-6 induces both proliferation and a brief elevation of GM-CFU in the hematopoietic spleens of mice. This increase appears to be the result of increased GM-CSF mRNA production in the intestines of mice fed IL-6.     

Type I IL-1 receptor blockade exacerbates murine listeriosis.

It was found that IL-1 is produced in livers and spleens of mice shortly after the i.v. injection of a sublethal or lethal Listeria monocytogenes inoculum. In sublethally infected mice, IL-1 was present in infected livers and spleens by the end of the first day of infection. Thereafter, the amounts of IL-1 in these organs increased and decreased in concordance with bacterial numbers. IL-1 was not present in the peripheral circulation of mice during sublethal listeriosis, but was present in the blood late in lethal infection. Evidence showing that IL-1 plays a role in antibacterial resistance early in listeriosis was obtained through the use of 35F5 mAb that binds to the murine type I IL-1R and functions to block IL-1 alpha and IL-1 beta actions. Blockade of the type I IL-1R by the 35F5 mAb results in greatly enhanced bacterial growth in the livers and spleens of mice that had received a sublethal Listeria inoculum. Consistent with the exacerbation of listeriosis caused by 35F5 mAb, but in contrast to the effect of 35F5 mAb in other murine models, 35F5 mAb-treated mice exhibit markedly elevated levels of IL-6 in their circulation and infected organs.     

Inhibition of interleukin-12 production by Trypanosoma brucei in rat macrophages

The immune response of a host infected with Trypanosoma brucei is modulated by trypomastigotes. We examined the changes in cytokine production in T. brucei gambiense (Wellcome strain; WS) infected rats and the influence on production of interleukin (IL)-12 by macrophages. The blood concentration of interferon-gamma, tumor necrosis factor-alpha, and IL-10 increased beginning the second day after infection. However, an increase in IL-12p40 was not observed until 4 days after infection. When spleen macrophages and Kupffer cells harvested from uninfected rats and HS-P cells (a rat macrophagelike cell line) were cocultured with WS, IL-12p40 production did not change. When HS-P cells were cultured with WS, transport of nuclear factor-kappaB into the nucleus increased. Levels of macrophage colony-stimulating factor (M-CSF) and granulocyte macrophage colony-stimulating factor mRNA in the spleens and livers of WS-infected rats were high in comparison with uninfected rats, suggesting that the WS promotes macrophage proliferation. The level of IL-12p40 mRNA in HS-P cells cocultured with WS increased in response to transfection with a small interfering RNA against M-CSF or addition of anti-M-CSF antibody. These results suggest that the WS inhibits IL-12p40 mRNA production by promoting production of macrophage colony-stimulating factor by macrophages.     

In vivo distribution and gene expression of genetically modified hepatocytes after intrasplenic transplantation

To investigate the feasibility and efficacy of liver gene therapy mediated by intrasplenic transplanta-tion of genetically modified hepatocytes, the normal mouse liver cell line BNL CL. 2 cells were introduced with Neo-re-sistant (NeoR) gene or interleukin-2 (IL-2) gene in vitro, and transplanted intrasplenically into normal syngeneic mice (2 × 106 cell/mouse); subsequently, the expressions of the introduced genes in vivo were detected. The RT-PCR results showed that NeoR mRNA expressions were detectable in livers 24 h after transplantation and lasted over 11 weeks. Moreover, The NeoR mRNA was detected to be expressed temporarily in spleens (24 h- 1 week) and lungs (24-96 h) after transplantation. After intrasplenic transplantation of IL-2 gene-modified BNL CL.2 cells, the stable expressions of IL-2 mRNA in the livers of transplanted mice were detectable by RT-PCR (24 h-11 weeks), and certain levels of IL-2 (5-40 pg/mL) remained in the peripheral blood. When IL-2 gene-modified BNL CL. 2 cells were tran     

Loss of Kupffer cells in diet-induced obesity is associated with increased hepatic steatosis,STAT3 signaling,and further decreases in insulin signaling

While adipose tissue-associated macrophages contribute to development of chronic inflammation and insulin resistance of obesity, little is known about the role of hepatic Kupffer cells in this environment. Here we address the impact of Kupffer cell ablation using clodronate-encapsulated liposome depletion in a diet-induced obese (DIO) and insulin resistant mouse model. Hepatic expression of macrophage markers measured by realtime RT-PCR remained unaltered in DIO mice despite characteristic expansion of adipose tissue-associated macrophages. DIO mouse livers displayed increased expression of alternative activation markers but unaltered proinflammatory cytokine expression when compared to lean mice. Kupffer cell ablation reduced hepatic anti-inflammatory cytokine IL-10 mRNA expression in lean and DIO mice by 95% and 84%, respectively. Despite decreased hepatic IL-6 gene expression after ablation in lean and DIO mice, hepatic STAT3 phosphorylation, Socs3 and acute phase protein mRNA expression increased. Kupffer cell ablation in DIO mice resulted in additional hepatic triglyceride accumulation and a 30–40% reduction in hepatic insulin receptor autophosphorylation and Akt activation. Implicating systemic loss of IL-10, high-fat-fed IL-10 knockout mice also displayed increased hepatic STAT3 signaling and hepatic triglyceride accumulation. Insulin signaling was not altered, however. In conclusion, Kupffer cells are a major source of hepatic IL-10 expression, the loss of which is associated with increased STAT3-dependent signaling and steatosis. One or more additional factors appear to be required, however, for the Kupffer cell-dependent protective effect on insulin receptor signaling in DIO mice.     

IL-6 production by human T lymphocytes. Expression in HTLV-1-infected but not in normal T cells

IL-6 is an important regulator of humoral and cellular immunity. Although this cytokine is produced by diverse cell types, it is not known whether it is produced by T lymphocytes under physiologic conditions or which agents can induce T cell expression of IL-6. We analyzed the production of IL-6 by human peripheral blood T cells, human thymocytes, and human T cell lines. In pure populations of these cells, stimulated with different combinations of various mitogens and cytokines, IL-6 activity could not be detected. Analysis of purified T-alpha beta and T-gamma delta cells showed that neither T cell subset produced IL-6. Similarly, IL-6 mRNA was not detected in T cell or thymocyte populations for up to 48 h after stimulation. With the use of a PCR assay, IL-6 mRNA in T cells was found to be virtually negligible, and did not change after T cell activation. By in situ hybridization it was shown that the cells expressing IL-6 mRNA after mitogen activation of PBMC do not belong to the T cell lineage. To analyze whether human T cells express IL-6 in vivo, we examined lymphoid tissues by in situ hybridization. In normal human thymus there was no detectable signal for IL-6. Tonsils showed only few positive cells within the parenchyma, but strong expression of IL-6 by epithelial cells in crypts. In contrast to normal lymph node, which contained only rare cells positive for IL-6, a lymph node from a patient with Castleman's disease showed IL-6 expression in cells occupying the marginal sinus and interfollicular areas. Screening of various human T cell lines showed that all cell lines infected with HTLV-1 secrete IL-6 activity and express IL-6 mRNA. In addition, in vitro infection of peripheral blood T cells with HTLV-1 induced de novo synthesis and secretion of IL-6. Furthermore, IL-6 expression in HTLV-1-infected cells was enhanced by stimulation with IL-1 beta or TNF-alpha. In contrast, IL-6 was not detectable in non-infected T cell lines. These studies indicate that IL-6 may not be a physiologic product of human T lymphocytes and that infection of T cells with HTLV-1 results in aberrant expression of this cytokine.     

Administration of anti-IL-4 monoclonal antibody 11B11 increases the resistance of mice to Listeria monocytogenes infection.

The role of endogenous IL-4 in resistance to Listeria monocytogenes infection was investigated by in vivo administration of an anti-IL-4 mAb (11B11). Mice treated with 0.01 to 0.4 mg of anti-IL-4 mAb before L. monocytogenes challenge demonstrated a significantly reduced peak bacterial burden in their livers and spleens and accelerated bacterial clearance from these organs. In addition, histopathologic damage to the liver was reduced. Maximal protection was achieved by i.p. injection of 0.1 mg of anti-IL-4 mAb 2 or 24 h before L. monocytogenes challenge; treatment with anti-IL-4 mAb after injection of L. monocytogenes had no effect on antilisterial resistance. Anti-IL-4 mAb-treated and control Listeria-infected mice exhibited similar patterns of IFN-gamma, IL-2, and IL-4 mRNA, as determined by polymerase chain reaction amplification of RNA extracted from spleen cells. In both anti-IL-4 mAb-treated and control mice, IFN-gamma, IL-2, and IL-4 mRNA were produced within 4 h after challenge. Cytokine mRNA levels were similar for anti-IL-4 mAb-treated and control mice, except for the greater amount of IFN-gamma mRNA in the anti-IL-4 mAb-treated mice at 4 h after L. monocytogenes challenge. IFN-gamma and IL-2 mRNA levels were sustained for at least 5 days, whereas IL-4 mRNA was undetectable by 3 days after challenge. There were no significant differences in the amounts of IL-4 and IFN-gamma detected in culture supernatants of spleen cells from anti-IL-4 mAb-treated and control Listeria-infected mice. These results suggest that endogenous IL-4, a cytokine thought to be produced principally by Th2 cells, has a deleterious effect on host defense against the facultative intracellular pathogen L. monocytogenes. Administration of an anti-IL-4 mAb increases antilisterial resistance without causing a detectable shift to a Th1 type of cytokine response.     

IL-6 plays an essential role in neutrophilia under inflammation

In the present study, we explored the involvement of interleukin-6 (IL-6) in neutrophilia under inflammatory conditions. The neutrophil count in the peripheral blood was high in arthritic monkeys, and anti-IL-6 receptor antibody reduced neutrophil counts to normal levels. IL-6 injection into normal monkeys significantly increased neutrophil counts in the blood 3h after injection. The expression of cluster of differentiation (CD) 162 on circulating neutrophils was reduced by IL-6 injection. IL-6 treatment in vitro did not affect CD162 expression on neutrophils from human blood. In IL-6-treated monkeys, IL-8 and granulocyte-macrophage colony-stimulating factor (GM-CSF) levels in plasma were clearly elevated. IL-8 and GM-CSF treatment in vitro reduced cell-surface CD162 expression on human neutrophils, and moreover, increased soluble CD162 expression in the cell supernatant. The addition of IL-6 into human whole peripheral blood induced IL-8 production and reduced CD162 expression on neutrophils. Furthermore, IL-8 and GM-CSF augmented mRNA expression of a disintegrin and metalloprotease like domain 10 (ADAM10) in neutrophils. Knock-down of ADAM10 by siRNA in neutrophil-like HL-60 cells partially reversed the expression of CD162 reduced by GM-CSF and IL-8 on HL-60 cells. In conclusion, IL-6 induced neutrophilia and reduced CD162 expression on neutrophils in inflammation.     

IL-1 gene expression in lymphoid tissues

We examined the expression of IL-1 mRNA in vivo by in situ hybridization. RNA probes for murine IL-1 alpha and IL-1 beta were used to detect IL-1 mRNA in frozen sections of spleen, lymph node, and thymus of mice injected with Salmonella typhi LPS or SRBC. No IL-1 was detected in lymphoid tissues from un-injected mice. This lack of expression correlated with the absence of IL-1 biologic activity. However, after LPS injection, IL-1 alpha and beta mRNA expression was found in macrophages of the red pulp and marginal zone of the spleen. The periarteriolar lymphoid sheath contained cells that only expressed IL-1 beta mRNA. These cells were not lymphocytes and did not stain with the macrophage marker F4/80. A similar cellular response was found after SRBC injection. Scattered macrophages in lymph nodes and thymus were positive, but only after LPS or SRBC injection. The spleens of mice injected with LPS had megakaryocytes containing IL-1 mRNA.     

Kinetic analysis of cytokine gene expression in the livers of naive and immune mice infected with Listeria monocytogenes. The immediate early phase in innate resistance and acquired immunity.

The anamnestic response to infection with Listeria monocytogenes is characterized by the rapid elimination of normally lethal doses of bacteria and accelerated granuloma formation. These phenomena are mediated by listeria-specific memory T cells within the first 24 h after reinfection. In order to elucidate the mechanisms operative during this decisive phase of infection, we conducted a comprehensive kinetic and quantitative analysis of cytokine gene expression in the livers of naive and immune mice. Organs were removed at 30 min, and 1, 2, 6, and 24 h after primary and secondary infections, and PCR3-assisted messenger RNA (mRNA) amplification was performed on matched samples using primers specific for IL-1 beta, IL-6, M-CSF, GM-CSF, TNF-alpha, IFN-gamma, IL-10, IL-4, IL-2, IL-3 and I1-2Rp55. The cytokine pattern characteristic of secondarily infected animals differed qualitatively by the expression of mRNA for IL-2, IL-2Rp55, IL-3, and IL-4, demonstrating the accumulation and activation of specific T cells in the livers as early as 1 to 2 h after reinfection. Combined in vivo depletion of both CD4+ and CD8+ T cells before reinfection almost completely abrogated the differentiated cytokine profile typical of the anamnestic response. Using competitive PCR for semiquantitative determination of mRNA levels, the amount of IL-1 beta and IL-6 mRNA was found to be very similar during primary and secondary infection, whereas TNF-alpha mRNA was found to be increased by approximately 10-fold 2 h and IFN-gamma mRNA by approximately 50 to 100-fold 6 h after reinfection when compared with a primary challenge. Combined in vivo depletion of both CD4+ and CD8+ T cells before reinfection resulted in a substantial (approximately 10-fold) decrease in IFN-gamma mRNA expression. To correlate these findings with cytokine secretion, spleen cells from naive and immune as well as normal and CD4+ and CD8+ cell depleted mice infected 6 h previously were cultured for 48 h, and supernatants were analyzed for the amount of the above mentioned cytokines. Semiquantitative PCR-assisted mRNA amplification is demonstrated to be a superior tool in dissociating the mediators of innate resistance from those operative in protective immunity and granuloma formation.     

Effect of interleukin-18 on metastasis of mouse osteosarcoma cells

The effect of interleukin-18 (IL-18) on metastasis of highly metastatic LM8 mouse osteosarcoma cells was investigated using nude mice treated with anti-asialo GM1 serum to exclude anti-tumor actions of IL-18 through activation of T and natural killer cells. Injection of LM8 cells which do not express IL-18 receptor β into a tail vain resulted in the formation of pulmonary and hepatic metastatic foci. Daily injection of mice with IL-18 starting the fifth day from the cell injection had no significant effect on the number of metastatic foci, while five daily injections of IL-18 before and after the cell injection resulted in marked decreases. Culture of LM8 cells with IL-18 for 5 days before the injection into mice produced no significant effect on the number of pulmonary and hepatic metastatic foci. In contrast, pretreatment of mice with IL-18 for 5 days before the cell injection markedly decreased metastatic foci. The retention of LM8 cells in the lung 24 h after their injection was also reduced by the pretreatment of mice with IL-18. Serum obtained from mice pretreated with IL-18 for 5 days suppressed mobility of LM8 cells but IL-18 itself did not. These results suggest that IL-18 inhibits metastasis of LM8 cells partly by inducing a factor(s) in the host which suppresses cell mobility.     

The regulation of phenylalanine hydroxylase in rat tissues in vivo. Substrate- and cortisol-induced elevations in phenylalanine hydroxylase activity.

Injections of phenylalanine increased a 2.5-fold in 9 h the hepatic phenylalanine hydroxylase activity of 6-day-old or adult rats that had been pretreated (24h earlier) with p-chlorophenylalanine; without such pretreatment, phenylalanine did not raise the enzyme concentration. This difference is paralleled by the much greater extent to which the injected phenylalanine accumulated in livers of the pretreated compared with the normal animals. The hormonal induction of hepatic phenylalanine hydroxylase activity obeyed different rules: an injection of cortisol was without effect on adult livers but caused a threefold rise in phenylalanine hydroxylase activity of immature ones, both without and after pretreatment with p-chlorophenylalanine. In the latter instance, the effects of cortisol, and of phenylalanine were additive. Actinomycin inhibited the cortisol- but not the substrate-induced increase of phenylalanine hydroxylase, whereas puromycin inhibited both. The results indicate that substrate and hormone, two potential positive regulators of the amount of the hepatic (but not the renal) phenylalanine hydroxylase, act independently by two different mechanisms. The negative effector, p-chlorophenylalanine, also appears to interact with the synthetic (or degradative) machinery rather than with the existing phenylalanine hydroxylase molecules: 24h were required in vivo for an 85% decrease to ensue, and no inhibition occurred in vitro when incubating the enzyme with p-chlorophenylalanine or with liver extracts from p-chlorophenylalanine-treated rats.     

Vitamin E-enhanced IL-2 production in old mice: naive but not memory T cells show increased cell division cycling and IL-2-producing capacity

Aging is associated with reduced T cell function, as demonstrated by decreased T cell proliferation and IL-2 production. These changes respond to supplemental vitamin E both in animals and humans, in part by the reduction of T cell suppressive PGE(2), the production of which by macrophages is increased with age. To evaluate whether vitamin E has a direct PGE(2)-independent effect on T cell responses, T cells purified from the spleens of young and old mice were preincubated with vitamin E or vehicle control. Activation-induced cell division of T cells from old mice was lower than that by young, and the production of IL-2 following 48-h activation was less by T cells from old mice. There was an age-related decline in both the number of IL-2+ T cells and the amount of IL-2 produced per cell. Despite decreased IL-2 protein at 48 h, the expression of IL-2 mRNA at 6 h and IL-2 protein production at 6 and 16 h was greater by T cells from old mice compared with that of young. Age-related decline in cell division and IL-2 production at 48 h was only observed within the naive T cell subpopulation. Vitamin E increased both cell-dividing and IL-2-producing capacity of naive T cells from old mice, with no effect on memory T cells. These data indicate that naive T cells exhibit the greatest age-related defect and show for the first time that supplemental vitamin E has direct immunoenhancing effect on naive T cells from old mice.     

Interleukin-1 inhibits the induction of insulin-like growth factor-I by growth hormone in CWSV-1 hepatocytes

Sepsis results in hepatic "growth hormone (GH) resistance" with reductions in plasma IGF-I despite a two- to fourfold increase in circulating GH. In this study, we examine the effects of IL-1 on GH receptor (GHR) expression, GH signaling (via the JAK/STAT and MAPK pathways), and the induction of gene expression [IGF-I mRNA and serine protease inhibitor (Spi) 2.1] by GH in CWSV-1 hepatocytes. Incubation of cells with IL-1beta (10 ng/ml, 24 h) had no effect on the relative abundance of GHR or signaling proteins JAK2, STAT5b, and ERK1/2 in cell lysates. Baseline phosphorylation of GHR, JAK2, STAT5b, and ERK1/2 was minimal. After GH stimulation, tyrosine phosphorylation of GHR, JAK2, STAT5b, and ERK1/2 increased 2- to 10-fold. However, neither the time course nor the magnitude of GHR, JAK2, and ERK1/2 phosphorylation by GH were significantly altered by IL-1. The GH-induced translocation of STAT5b to the nucleus was not prevented by IL-1. Although phosphorylated STAT5 in nuclear extracts from GH + IL-1 cells was decreased by 24% (vs. controls) 15 min after GH stimulation, this did not result in reduced STAT5-DNA binding activity. Pretreatment with IL-1 did not significantly decrease IGF-I mRNA stability. We conclude that IL-1 only minimally affects the time course of JAK2/STAT5 and MAPK signaling by GH. Therefore, an inhibitory effect of IL-1 on IGF-I and Spi 2.1 mRNA synthesis by GH represents the most likely mechanism for IL-1-mediated GH resistance.     

In vivo molecular analysis of lymphokines involved in the murine immune response during Schistosoma mansoni infection. II. Quantification of IL-4 mRNA, IFN-gamma mRNA, and IL-2 mRNA levels in the granulomatous livers, mesenteric lymph nodes, and spleens during the course of modulation.

Parasite egg-induced granulomas are the primary pathogenic lesions in murine schistosomiasis mansoni. This cell-mediated granulomatous response is specific for soluble egg Ag and appears to be mediated predominantly by CD4+ Th2 cells. As infection progresses from the acute to the chronic phase, the cell-mediated anti-soluble egg Ag responses attenuate in a process termed modulation. In this study the hypothesis that modulation is effected by a chronic phase increase in Th2-inhibiting Th1 cell activity was investigated. Northern blot quantification of mRNA specific for the Th2 lymphokine, IL-4, and the Th1 lymphokines, IFN-gamma and IL-2, in the spleens, mesenteric lymph nodes, and granulomatous livers of mice infected for various lengths of time over the course of modulation was performed. Also, the capacity of mitogen- and Ag-stimulated spleen cells to produce message for these lymphokines was compared. Peak tissue levels of both IL-4 mRNA and IFN-gamma mRNA were seen in acutely infected mice, and levels of both messages declined as infection became chronic. Stimulated spleen cells from acutely infected mice also produced higher levels of IL-4 and IFN-gamma mRNA than cells from chronically infected mice. IL-2 mRNA was never detected in any tissue sample but was detected in the stimulated spleen cells, again with acute phase levels higher than chronic phase levels. Hence, this study shows no evidence for increased Th1 cell activity during chronic infection and suggests that modulation may be effected by a generalized suppression of lymphokine synthesis.