Summary Cytokines are crucial in host defence against pathogens such as bacteria, viruses, fungi and parasites. A newly described cytokine, interleukin‐32 (IL‐32), induces various proinflammatory cytokines (tumour necrosis factor‐α, IL‐1β, IL‐6) and chemokines in both human and mouse cells through the nuclear factor‐κB and p38 mitogen‐activated protein kinase inflammatory signal pathway. The IL‐32 primarily acts on monocytic cells rather than T cells. In an attempt to isolate the IL‐32 soluble receptor, we used an IL‐32 ligand‐affinity column to purify neutrophil proteinase 3, which is a serine proteinase involved in many inflammatory diseases. IL‐32 has biological activity associated with Mycobacterium tuberculosis and chronic proinflammatory diseases such as rheumatoid arthritis. IL‐32 is transcribed as six alternative splice variants and the biological activity of each individual isoform remains unknown. Here, we cloned the complementary DNA of the four IL‐32 isoforms (α, β, γ and δ) that are the most representative IL‐32 transcripts. To produce recombinant protein with a high yield, the amino acids of two cysteine residues were mutated to serine residues, because serine residues are not conserved among different species. The multi‐step purified recombinant IL‐32 isoform proteins were assessed for their biological activities with different cytokine assays. The γ isoform of IL‐32 was the most active, although all isoforms were biologically active. The present study will provide a specific target to neutralize endogenous IL‐32, which may contribute to basic and clinical immunology.
Papiliocin is a novel 37-residue cecropin-like peptide isolated recently from the swallowtail butterfly, Papilio xuthus. With the aim of identifying a potent antimicrobial peptide, we tested papiliocin in a variety of biological and biophysical assays, demonstrating that the peptide possesses very low cytotoxicity against mammalian cells and high bacterial cell selectivity, particularly against Gram-negative bacteria as well as high anti-inflammatory activity. Using LPS-stimulated macrophage RAW264.7 cells, we found that papiliocin exerted its anti-inflammatory activities by inhibiting nitric oxide (NO) production and secretion of tumor necrosis factor (TNF)-␣ and macrophage inflammatory protein (MIP)-2, producing effects comparable with those of the antimicrobial peptide LL-37. We also showed that the innate defense response mechanisms engaged by papiliocin involve Toll-like receptor pathways that culminate in the nuclear translocation of NF-B. Fluorescent dye leakage experiments showed that papiliocin targets the bacterial cell membrane. To understand structure-activity relationships, we determined the three-dimensional structure of papiliocin in 300 mM dodecylphosphocholine micelles by NMR spectroscopy, showing that papiliocin has an ␣-helical structure from Lys 3 to Lys 21 and from Ala 25 to Val 36 , linked by a hinge region. Interactions between the papiliocin and LPS studied using tryptophan blue-shift data, and saturation transfer difference-NMR experiments revealed that Trp 2 and Phe 5 at the N-terminal helix play an important role in attracting papiliocin to the cell membrane of Gram-negative bacteria. In conclusion, we have demonstrated that papiliocin is a potent peptide antibiotic with both anti-inflammatory and antibacterial activities, and we have laid the groundwork for future studies of its mechanism of action.
After emigration from the bone marrow to the peripheral blood, monocytes enter tissues and differentiate into macrophages, the prototype scavenger of the immune system. By ingesting and killing microorganisms and removing cellular debris, macrophages also process antigens as a first step in mounting a specific immune response. IL-32 is a cytokine inducing proinflammatory cytokines and chemokines via p38-MAPK and NF-B. In the present study, we demonstrate that IL-32 induces differentiation of human blood monocytes as well as THP-1 leukemic cells into macrophage-like cells with functional phagocytic activity for live bacteria. Muramyl dipepide (MDP), the ligand for the intracellular nuclear oligomerization domain (NOD) 2 receptor, has no effect on differentiation alone but augments the monocyte-to-macrophage differentiation by IL-32. Unexpectedly, IL-32 reversed GM-CSF/IL-4-induced dendritic cell differentiation to macrophage-like cells. Whereas the induction of TNF␣, IL-1, and IL-6 by IL-32 is mediated by p38-MAPK, IL-32-induced monocyte-to-macrophage differentiation is mediated through nonapoptotic, caspase-3-dependent mechanisms. Thus, IL-32 not only contributes to host responses through the induction of proinflammatory cytokines but also directly affects specific immunity by differentiating monocytes into macrophage-like cells.immune cell differentiation ͉ inflammation ͉ muramyl dipeptide ͉ cytokine ͉ antigen presentation I n addition to their role for the activation of the antimicrobial function of leukocytes, cytokines have an important role for the proliferation and differentiation of myeloid cell populations. IL-32 is a proinflammatory cytokine that is induced by IL-18 and IFN-␥ in human epithelial cells (1). The gene expression of IL-32 is increased in human T lymphocytes and natural killer cells when stimulated by mitogens or IL-2 (2, 3). In turn, IL-32 also induces the synthesis of proinflammatory cytokines such as IL-1, IL-6, and TNF␣. Elevated levels of mRNA have been reported in synovial tissue explants from patients with rheumatoid arthritis, but not osteoarthritis (4). The intensity and frequency of tissue-staining levels of IL-32 protein in synovial cells of patients with rheumatoid arthritis correlate with disease activity, as well as tissue levels of TNF␣, IL-1, and IL-18 (5). Affected tissues from patients with Crohn's disease and ulcerative colitis show prominent staining for IL-32 (6, 7). IL-32 is produced by peripheral blood mononuclear cells (PBMCs) stimulated with Mycobacterium tuberculosis (8), and IL-32 acts synergistically with muramyl peptide (MDP) to induce IL-6 via caspase-1-dependent IL-1 (6).In vitro, cytokines such as macrophage colony-stimulating factor (M-CSF) induce differentiation of monocytes into macrophages (9), whereas a combination of GM-CSF and IL-4 induces differentiation into dendritic cells (DCs) (10-13). Cytokines such as IL-6 and IFN-␥ can modulate GM-CSF/IL-4-induced monocyte differentiation by switching from DCs to macrophages (10,14). Although IL-6 induces th...
BackgroundThe purpose of this study was to identify risk factors for abscess formation in acute bacterial prostatitis, and to compare treatment outcomes between abscess group and non-abscess group.MethodsThis is a multicenter, retrospective cohort study. All patients suspected of having an acute prostatic infection underwent computed tomography or transrectal ultrasonography to discriminate acute prostatic abscesses from acute prostatitis without abscess formation.ResultsA total of 31 prostate abscesses were reviewed among 142 patients with acute prostatitis. Univariate analysis revealed that symptom duration, diabetes mellitus and voiding disturbance were predisposing factors for abscess formation in acute prostatitis. However, diabetes mellitus was not related to prostate abscess in multivariate analysis. Patients with abscesses <20 mm in size did not undergo surgery and were cured without any complications. In contrast, patients with abscesses >20 mm who underwent transurethral resection had a shorter duration of antibiotic treatment than did those who did not have surgery. Regardless of surgical treatment, both the length of hospital stay and antibiotic treatment were longer in patients with prostatic abscesses than they were in those without abscesses. However, the incidence of septic shock was not different between the two groups. A wide spectrum of microorganisms was responsible for prostate abscesses. In contrast, Escherichia coli was the predominant organism responsible for acute prostatitis without abscess.ConclusionImaging studies should be considered when patients with acute prostatitis have delayed treatment and signs of voiding disturbance. Early diagnosis is beneficial because prostatic abscesses require prolonged treatment protocols, or even require surgical drainage. Surgical drainage procedures such as transurethral resection of the prostate were not necessary in all patients with prostate abscesses. However, surgical intervention may have potential merits that reduce the antibiotic exposure period and enhance voiding function in patients with prostatic abscess.
Inflammatory cytokines mediate inflammatory bowel diseases (IBDs) and cytokine blocking therapies often ameliorate the disease severity. IL-32 affects inflammation by increasing the production of IL-1, TNFα, and several chemokines. Here, we investigated the role of IL-32 in intestinal inflammation by generating a transgenic (TG) mouse expressing human IL-32γ (IL-32γ TG). Although IL-32γ TG mice are healthy, constitutive serum and colonic tissue levels of TNFα are elevated. Compared with wild-type (WT) mice, IL-32γ TG mice exhibited a modestly exacerbated acute inflammation early following the initiation of dextran sodium sulfate (DSS)-induced colitis. However, after 6 d, there was less colonic inflammation, reduced tissue loss, and improved survival rate compared with WT mice. Associated with attenuated tissue damage, colonic levels of TNFα and IL-6 were significantly reduced in the IL-32γ TG mice whereas IL-10 was elevated. Cultured colon explants from IL-32γ TG mice secreted higher levels of IL-10 compared with WT mice and lower levels of TNFα and IL-6. Constitutive levels of IL-32γ itself in colonic tissues were significantly lower following DSS colitis. Although the highest level of serum IL-32γ occurred on day 3 of colitis, IL-32 was below constitutive levels on day 9. The ability of IL-32γ to increase constitutive IL-10 likely reduces TNFα, IL-6, and IL-32 itself accounting for less inflammation. In humans with ulcerative colitis (UC), serum IL-32 is elevated and colonic biopsies contain IL-32 in inflamed tissues but not in uninvolved tissues. Thus IL-32γ emerges as an example of how innate inflammation worsens as well as protects intestinal integrity.
Background:The maturation process of IL-33 (IL-1F11) remains unclear. Results: IL-33 ligand affinity column isolates neutrophil proteinase 3. Conclusion: PR3 is an IL-33-processing enzyme. Significance: PR3 has a dual function in IL-33 biological activity.
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