Pamela J. Durant

Toll-Like Receptor 2 Mediates Alveolar Macrophage Response to Pneumocystis murina

ABSTRACT The innate immune response to Pneumocystis infection is not well understood. In this study, normal C57BL/6 mouse alveolar macrophages were found to respond to Pneumocystis murina organisms through Toll-like receptor 2 (TLR2), leading to the nuclear translocation of NF-κB and the production of proinflammatory cytokine tumor necrosis factor alpha (TNF-α) and chemokine macrophage inflammatory protein 2 (MIP-2). P. murina stimulation of normal alveolar macrophages from C57BL/6 mice resulted in increased TLR2 transcription but not increased TLR4 transcription. In gain-of-function studies with HEK293 cells expressing TLR2 or TLR4, only TLR2 was found to stimulate an NF-κB response to P. murina. TNF-α and MIP-2 production in response to P. murina by mouse alveolar macrophages was inhibited by a monoclonal antibody that specifically blocked the ligand-binding ability of TLR2. Alveolar macrophages from TLR2 knockout (TLR2−/−) mice showed little increase in TNF-α and MIP-2 mRNA levels upon P. murina stimulation. An in vivo study showed that TLR2−/− mice challenged with P. murina had reduced cytokine responses. These results indicate that TLR2 plays a major role in the innate immune response to P. murina.

Comparative studies on fatty acid synthesis, glycogen metabolism, and gluconeogenesis by hepatocytes isolated from lean and obese Zucker rats.

Hepatocytes isolated from genetically obese female Zucker rats and lean female Zucker rats were compared. Hepatocytes from fed obese rats exhibited greater rates of fatty acid synthesis, more extensive accumulation of lactate and pyruvate from their glycogen stores, increased rates of net glucose utilization but produced less ketone bodies from exogenous fatty acids and had lower citrate levels than hepatocytes from lean rats. Lipogenesis was not as sensitive to dibutyryl cyclic AMP (DBcAMP) inhibition in hepatocytes from obese rats but glycogenolysis was stimulated to the same extent by this nucleotide in both preparations. Ketogenesis was less sensitive to stimulation by DBcAMP in hepatocytes from obese rats. A difference in sensitivity of lipogenesis to DBcAMP was not found when lactate plus pyruvate was added to the incubation medium, suggesting that a greater rate of glycolysis by hepatocytes from obese rats accounts for their relative insensitivity to DBcAMP. Citrate levels were elevated by DBcAMP to a greater extent in hepatocytes from obese rats. Hepatocytes prepared from lean rats starved for 48 hr were glycogen depleted and lacked significant capacity for lipogenesis and glycogen synthesis. In contrast, hepatocytes isolated from starved obese rats retained considerable amounts of liver glycogen and exhibited detectable rates of lipogenesis and glycogen synthesis. Hepatocytes prepared from starved lean rats gave faster apparent rates of lactate gluconeogenesis than hepatocytes prepared from starved obese rats. Thus, hepatocytes prepared from obese Zucker rats are more glycogenic, glycolytic, and lipogenic but less ketogenic and glucogenic than hepatocytes prepared from lean rats.

Lupus erythematosus-like disease due to hydrazine

A case of systemic lupus erythematosus-like disease due to occupational exposure to hydrazine is described. The patient had four of the 1982 revised criteria for SLE (malar rash, photosensitivity, antinuclear antibody, and antibody to nDNA) and genetically is a slow acetylator with the HLA DR2,3 phenotype. Many of her healthy family members had antibodies to nuclear constituents. Lymphocytes from the patient and an identical twin sister, but not from three normal control subjects, showed inhibition of pokeweed mitogen-stimulated IgG synthesis after five daily exposures of each subject to hydrazine. Chemicals such as hydrazine in the environment can induce cases of SLE-like disease in predisposed persons.

Correlation of Organism Burden and Alveolar Macrophage Counts during Infection with Pneumocystis carinii and Recovery

ABSTRACT Changes in the number of alveolar macrophages were correlated with organism burden during Pneumocystis carinii infection. The lungs of healthy, dexamethasone-treated, and dexamethasone-treated and P. carinii-infected rats were lavaged with phosphate-buffered saline. Counting of alveolar macrophages in the lavage fluids revealed that P. carinii infection caused a 58% decrease in the number of alveolar macrophages and that higher P. carinii organism burdens caused a more rapid decrease in alveolar macrophage number. As a control, healthy rats were challenged with the same number of organisms as that normally used to generate P. carinii infections in dexamethasone-treated rats. Thirteen days after challenge, these rats had a profound (54%) increase in alveolar macrophage number in response to the challenge, while the number of alveolar macrophages in immunosuppressed and P. carinii-infected rats had decreased significantly by this time point. These experiments created the first animal model to mimic human pneumocystis pneumonia in alveolar macrophage number alterations. Reduction of P. carinii organism numbers by treatment of rats with trimethoprim and sulfamethoxazole brought a slow rebound in alveolar macrophage number, while recovery from P. carinii infection by cessation of immunosuppression brought a rapid rebound in alveolar macrophage number. These results suggest that both the immune state of the host and P. carinii burden affect alveolar macrophage number.

Suppression of Alveolar Macrophage Apoptosis Prolongs Survival of Rats and Mice with Pneumocystis Pneumonia

The number of alveolar macrophages is decreased in patients or animals with Pneumocystis pneumonia (Pcp). This loss of alveolar macrophages is in part due to apoptosis caused by Pneumocystis infection. The mechanism of apoptosis induction is unknown. Cell-free bronchoalveolar lavage fluids from Pneumocystis-infected rats or mice have the ability to induce apoptosis in normal alveolar macrophages. To characterize the mechanisms by which apoptosis proceeds in alveolar macrophages during Pcp, specific caspase inhibitors are tested for their ability to suppress the apoptosis. In vitro induction of apoptosis can be inhibited by the caspase-9 inhibitor (Z-LEHD-FMK) but not by the inhibitor to caspase-8 or -10. The caspase-9 inhibitor can also inhibit apoptosis of alveolar macrophages in vivo when it is intranasally instilled into dexamethasone-immunosuppressed, Pneumocystis-infected rats or L3T4 cell-depleted, Pneumocystis-infected mice. The number of alveolar macrophages rebounds in caspase-9 inhibitor-treated Pcp animals. Phagocytic activity of alveolar macrophages in treated animals is also recovered, and organism burden in these animals is reduced. Administration of caspase-9 inhibitor also clears the exudate that normally fills the alveoli during Pcp and decreases lung inflammation. Furthermore, caspase-9-treated Pcp animals survive for the entire 70-day period of the study, whereas nontreated Pcp animals die 40–60 days after initiation of infection. Depletion of recovered alveolar macrophages by intranasal administration of clodronate-containing liposomes in caspase-9 inhibitor-treated animals abrogates the effects of the inhibitor. Together, these results indicate that immunomodulation of the host response may be an alternative to current treatments for Pcp.

Effect of Transcription Factor GATA-2 on Phagocytic Activity of Alveolar Macrophages from Pneumocystis carinii-Infected Hosts

ABSTRACT Alveolar macrophages from Pneumocystis carinii-infected hosts are defective in phagocytosis (W. Chen, J. W. Mills, and A. G. Harmsen, Int. J. Exp. Pathol. 73:709-720, 1992; H. Koziel et al., J. Clin. Investig. 102:1332-1344, 1998). Experiments were performed to determine whether this defect is specific for P. carinii organisms. The results showed that these macrophages were unable to phagocytose both P. carinii organisms and fluorescein isothiocyanate (FITC)-conjugated latex beads, indicating that alveolar macrophages from P. carinii-infected hosts have a general defect in phagocytosis. To determine whether this defect correlates with the recently discovered down-regulation of the GATA-2 transcription factor gene during P. carinii infection, alveolar macrophages from dexamethasone-suppressed or healthy rats were treated with anti-GATA-2 oligonucleotides and then assayed for phagocytosis. Aliquots of the alveolar macrophages were also treated with the sense oligonucleotides as the control. Cells treated with the antisense oligonucleotides were found to have a 46% reduction in phagocytosis of P. carinii organisms and a 65% reduction in phagocytosis of FITC-latex beads compared to those treated with the sense oligonucleotides. To determine whether the defect in phagocytosis in alveolar macrophages from P. carinii-infected hosts can be corrected by overexpression of GATA-2, a plasmid containing the rat GATA-2 gene in the sense orientation driven by the cytomegalovirus (CMV) promoter was introduced into alveolar macrophages from P. carinii-infected rats. Aliquots of the same cells transfected with a plasmid containing GATA-2 in the antisense orientation relative to the CMV promoter served as the control. Alveolar macrophages treated with the sense GATA-2 expression construct were found to increase their phagocytic activity by 66% in phagocytosis of P. carinii organisms and by 280% in phagocytosis of FITC-latex beads compared to those that received the antisense GATA-2 construct. The results of this study indicate that GATA-2 plays an important role in the regulation of phagocytosis in alveolar macrophages during P. carinii infection.

Genetic Diversity of Pneumocystis carinii Derived from Infected Rats, Mice, Ferrets, and Cell Cultures

ABSTRACT. The degree of strain and/or species diversity among Pneumocystis carinii isolates is unknown. As a first approach to the study of P. carinii genetic relatedness, we compared the pulsed field gel electrophoretic karyotypes of P. carinii derived from lung homogenates of three immunosuppressed host animals: rats transtracheally inoculated with P. carinii‐infected rat lung; mice transtracheally inoculated with P. carinii‐infected mouse lung; and ferrets which developed reactivated latent P. carinii pneumonia. Rat P. carinii propagated on HEL299 cells was also examined. Karyotypes of P. carinii DNA from both rat lung homogenate and cell culture were identical (14 bands, 315–680 kb). In contrast, mouse and ferret P. carinii DNA karyotypes were each distinctly different from the rat P. carinii samples (mouse P. carinii 15 bands, 315–610 kb; ferret P. carinii nine bands, 410–760 kb). Three distinct rat P. carinii gene probes reacted with both Southern‐transferred rat and mouse P. carinii DNA but not with ferret P. carinii DNA. Thus, P. carinii from rat, mouse, and ferret are genetically diverse. The results are consistent with recently reported antigenic and nucleic acid sequence differences among P. carinii isolates recovered from different hosts.

Inhibition of hepatic gluconeogenesis and lipogenesis by benzoic acid, p-tert.-butylbenzoic acid, and a structurally related hypolipidemic agent SC-33459.

Abstract Benzoic acid, p-tert. -butylbenzoic acid, and a structurally related hypolipidemic agent SC-33459 were found to inhibit glucose synthesis by hepatocytes isolated from 48-h fasted rats as well as fatty acid synthesis by hepatocytes isolated from meal-fed rats. Glucose synthesis was less sensitive than fatty acid synthesis. Benzoic acid was the least effective inhibitor of both processes; SC-33459 and p-tert. -butylbenzoic acid were very potent inhibitors with similar efficacy. Glycine prevented the inhibition of fatty acid synthesis caused by benzoic acid, but had no effect on that caused by p-tert. -butylbenzoic acid. Octanoate opposed the inhibitory effects of both benzoic acid and p-tert. -butylbenzoic acid. Oxidation of [1- 14 C]oleate to ketone bodies and acid-soluble radioactive products was inhibited by both p-tert. -butylbenzoic acid and SC-33459. Preincubation of hepatocytes with SC-33459 was required for the latter effect, suggesting catabolism of this compound may be involved. SC-33459 is a p-tert. -butylphenyl derivative which should be readily converted to p-tert. -butylbenzoic acid by β oxidation. Both p-tert. -butylbenzoic acid and SC-33459 decreased citrate levels dramatically. All three compounds reduced CoA and acetyl-CoA levels and increased medium-chain acyl-CoA ester levels. p-tert. -Butylbenzoic acid and SC-33459 also increased long-chain acyl-CoA ester levels. The increase in medium-chain acyl-CoA levels presumably reflects benzoyl-CoA formation from benzoic acid and p-tert. -butylbenzoyl-CoA formation from p-tert. -butylbenzoic acid and SC-33459. Inhibition of glucose and fatty acid synthesis by these compounds may be due to effects on specific enzymes or to CoA sequestration.

Polyamine-mediated apoptosis of alveolar macrophages during Pneumocystis pneumonia

The number of alveolar macrophages is decreased during Pneumocystis pneumonia (Pcp), partly because of activation of apoptosis in these cells. This apoptosis occurs in both rat and mouse models of Pcp. Bronchoalveolar lavage (BAL) fluids from Pneumocystis-infected animals were found to contain high levels of polyamines, including spermidine, N1-acetylspermine, and N1-acetylspermidine. These BAL fluids and exogenous polyamines were able to induce apoptosis in alveolar macrophages. Apoptosis of alveolar macrophages during infection, after incubation with BAL fluids from Pneumocystis-infected animals, or after incubation with polyamines was marked by an increase in intracellular reactive oxygen species, activation of caspases-3 and -9, DNA fragmentation, and leakage of mitochondrial cytochrome c into the cytoplasm. When polyamines were depleted from the BAL fluids of infected animals, the ability of these BAL fluids to induce apoptosis was lost. Interestingly, the apoptosis inducing activity of the polyamine-depleted BAL fluids was restored when polyamines were added back. The results of this study suggested that Pneumocystis infection results in accumulation of high levels of polyamines in the lung. These polyamines activate apoptosis of alveolar macrophages, perhaps because of the ROS that are produced during polyamine metabolism.

Accumulation of Myeloid-Derived Suppressor Cells in the Lungs during Pneumocystis Pneumonia

ABSTRACT Myeloid-derived suppressor cells (MDSCs) are a heterogeneous population of hematopoietic precursors with the ability to adversely affect host immunity. They have been shown to accumulate in pathological conditions, such as cancer and some microbial diseases. In the mouse and rat models of Pneumocystis pneumonia (PcP), we found a distinct population of cells with MDSC-like morphology in the bronchoalveolar lavage (BAL) fluid, constituting up to 50% of the total cells in BAL fluid. These cells were not seen in the BAL fluid from normal animals or from Pneumocystis-infected animals that had been successfully treated for PcP with a combination of trimethoprim and sulfamethoxazole. With flow cytometry, these cells were found to express the characteristic MDSC surface markers Gr-1 and CD11b in mice or CD11bc and His48 in rats. Using reverse transcription-PCR, we demonstrated that these cells produced high levels of arginase-1 and inducible nitric oxide synthase (iNOS) mRNA. These cells were shown to suppress CD4+ T-cell proliferation in response to stimulation by anti-CD3 and anti-CD28 antibodies. Adoptive transfer of these cells to normal mice caused lung damage, as indicated by elevated levels of albumin and lactate dehydrogenase in the BAL fluid. These experiments provide evidence of the presence of MDSCs in the lungs during PcP. Further studies on the roles of MDSCs in PcP are warranted in order to develop treatment strategies which can reduce the number of MDSCs and the damage caused by these cells.