Involvement of Caspase-1 and Caspase-3 in the Production and Processing of Mature Human Interleukin 18 in Monocytic THP.1 Cells

Akita, Keiichi; Ohtsuki, Takashi; Nukada, Yoshiyuki; Tanimoto, Tadao; Namba, Motoshi; Okura, Takanori; Takakura-Yamamoto, Rohko; Torigoe, Kakuji; Gu, Yun; Su, Michael; Fujii, Mitsukiyo; Satoh-Itoh, Michiyo; Yamamoto, K.; Kohno, Keizo; Ikeda, Masao; Kurimoto, Masashi

doi:10.1074/jbc.272.42.26595

Cited by 186 publications

(133 citation statements)

References 34 publications

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“…53 Although caspase-1 has greater specificity for pro-IL-18, other caspases, that is, caspase-3-like proteases, are able to process pro-IL-1b and pro-IL-18 in response to antigenic stimulation or FasL, providing an alternative pathway for cytokine generation. [53][54][55] Consistent with the above reports, we demonstrated the release of IL-18 and IFN-g in response to ConA-induced hepatitis. In addition to inhibiting apoptosis in the liver, mice transduced with CrmA inhibited IFN-g and IL-18 production induced by ConA (Figure 6).…”

Section: Discussionsupporting

confidence: 89%

CrmA gene expression protects mice against concanavalin-A-induced hepatitis by inhibiting IL-18 secretion and hepatocyte apoptosis

et al. 2003

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Activated cytotoxic T-cell-mediated hepatocyte apoptosis via Fas/Fas-ligand and perforin/granzyme pathways are believed to involve the model of concanavalin A (ConA)-induced hepatitis. The purpose of the present study is to investigate whether the cytokine response modifier A (crmA) gene effectively inhibits the hepatocyte apoptosis of ConAinduced hepatitis. We examined survival rates, liver pathology, immune histological changes, and cytokine profiles from mice receiving the recombinant adenovirus vectors containing cre and/or crmA genes, transferred to the liver 3 days before ConA injection, and a crmA gene nonexpression control group. Injection of ConA into mice rapidly led to massive hepatocyte apoptosis, and infiltration of leukocytes, especially CD11b + inflammatory cells. In contrast, liver damage was dramatically reduced in the mice that expressed the crmA gene. However, infiltration by CD4 + cells was not affected. The survival of the mice increased significantly to 100% in the treated group versus the control group. Furthermore, we demonstrated that interleukin (IL)-18 plays an important role in ConA-induced hepatitis, and that crmA expression significantly inhibited IL-18 secretion. Our results showed that the crmA gene effectively inhibits apoptosis induced by ConA hepatitis. This indicates a potential therapeutic usage of crmA for protection from cellular damage due to hepatitis.

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Section: Discussionsupporting

confidence: 89%

CrmA gene expression protects mice against concanavalin-A-induced hepatitis by inhibiting IL-18 secretion and hepatocyte apoptosis

et al. 2003

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“…In contrast to non-fractionated splenocytes ( [28], and the present study) or macrophages from P. acnes-infected mice [3], peritoneal or bone marrow-derived macrophages from healthy animals accumulated, but did not release IL-18 upon LPS stimulation in our study. Similar results were obtained after LPS stimulation of human monocyte line THP.1 [31], and murine macrophage lines RAW264 and J774 (our unpublished observation). Therefore, it seems that some additional signals, triggered by infectious agents or contact with other cells, are required for macrophage IL-18 release.…”

Section: Discussionsupporting

confidence: 87%

Pentoxifylline inhibits the synthesis and IFN-γ-inducing activity of IL-18

Samardžić¹,

Janković

Stošić‐Grujičić³

et al. 2001

Clinical and Experimental Immunology

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SUMMARYThe effect of phosphodiesterase-inhibiting anti-inflammatory drug pentoxifylline (PTX) on LPS-induced IL-18 synthesis and IL-18-mediated IFN-g-induction were investigated. In a dose-dependent manner PTX inhibited production of IL-18 in LPS-treated cultures of murine spleen cells and bone marrowderived macrophages. Similarly, PTX treatment significantly reduced blood IL-18 levels and expression of spleen IL-18 mRNA in LPS-challenged mice. The inhibitory effect of PTX was specific for IL-18, since LPS-induced IL-12 p40 release was not suppressed either in splenocyte cultures or blood of LPSinjected animals. Synergistic induction of IFN-g by combined IL-12/IL-18 treatment was also inhibited by PTX in vitro and in vivo. Experiments with IL-12 pretreatment of splenocytes, followed by IL-18 stimulation, revealed that PTX suppressed both IL-12 and IL-18 signals responsible for IFN-g induction. These results suggest that interference with IL-18 synthesis and IFN-g-inducing activity might contribute to anti-inflammatory actions of PTX.

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“…6). Of note, caspase-3 has been shown to degrade mature IL-18 to inactive metabolites (57). It is possible that once the apoptotic machinery is activated, persistent expression of IL-18 may not be necessary to induce cell death.…”

Section: Discussionmentioning

confidence: 99%

Activation of Intrinsic and Extrinsic Proapoptotic Signaling Pathways in Interleukin-18-mediated Human Cardiac Endothelial Cell Death

Chandrasekar

Vemula

Surabhi

et al. 2004

Journal of Biological Chemistry

115

119

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Involvement of Caspase-1 and Caspase-3 in the Production and Processing of Mature Human Interleukin 18 in Monocytic THP.1 Cells

Cited by 186 publications

References 34 publications

CrmA gene expression protects mice against concanavalin-A-induced hepatitis by inhibiting IL-18 secretion and hepatocyte apoptosis

CrmA gene expression protects mice against concanavalin-A-induced hepatitis by inhibiting IL-18 secretion and hepatocyte apoptosis

Pentoxifylline inhibits the synthesis and IFN-γ-inducing activity of IL-18

Activation of Intrinsic and Extrinsic Proapoptotic Signaling Pathways in Interleukin-18-mediated Human Cardiac Endothelial Cell Death

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