IntroductionThe SET protein is a potent physiologic inhibitor of protein phosphatase 2A (PP2A) 1 that was isolated from a chromosomal rearrangement at 9q34 in a patient with acute undifferentiated leukemia. 2 The SET protein is overexpressed in chronic myelogenous leukemia (CML) cells, and SET protein levels are further elevated during blast crisis. 3 SET overexpression in CML cells correlates with decreased PP2A activity. 3 This indicates that many of the SET oncogenic activities may be manifest through inhibition of PP2A. PP2A plays a role in many cellular processes, including cell cycle regulation, cell proliferation, apoptosis, development, cytoskeleton dynamics, cell motility, and stem cell self-renewal. 4 In addition, PP2A is a critical tumor suppressor gene that regulates multiple important oncogenic signal transduction pathways. [5][6][7] PP2A inhibition is essential for cell transformation and tumor formation, 8,9 but overexpression of PP2A inhibitory proteins in chronic lymphocytic leukemia (CLL) has not been reported.Of the nearly 84 000 annual cases of leukemia in the Western world, B-cell CLL is the most common, accounting for ϳ 30% of adult leukemia cases. 10 Characterized by accumulation of monoclonal mature B cells, 11 the CLL clinical course is heterogeneous, with some patients experiencing an aggressive course that demands early treatment and others experiencing long survival without disease-related symptoms or ever requiring treatment. 11 Aberrant apoptosis in CLL cells correlates with arrest either in the G 0 or early G 1 phases of the cell cycle. 12,13 This defective apoptosis in CLL cells is partly the result of aberrant signaling through the Akt kinase and the ERK MAPK pathways, in which phosphorylated-Akt is necessary for survival of the leukemia cells. 14,15 The observation of aberrantly activated Akt and downstream pathways in CLL cells also suggests that the normal regulator of these pathways, PP2A, is unable to perform its normal role.We thus sought to determine whether SET is overexpressed in CLL cells relative to normal B cells. We found that SET is significantly overexpressed in CLL cells and related non-Hodgkin lymphoma (NHL) cell line cells. In freshly isolated CLL patient samples, higher cellular levels of the SET correlated with more aggressive disease requiring earlier treatment. Antagonism of SET using shRNA-mediated knockdown or pharmacologic antagonism with novel cell-permeable SET antagonist peptides induced apoptosis, reduced cellular levels of Mcl-1, and caused death of CLL and NHL cells, but normal B cells were scarcely affected by SET antagonism. We also found that pharmacologic SET antagonism in vivo inhibited growth of B-cell NHL tumor xenografts in SCID mice. Methods GeneralAll reagents were from Sigma-Aldrich unless noted otherwise. Anti-SET antibody was from Santa Cruz Biotechnology. Anti--actin, total c-Myc, pS62 c-Myc, and Mcl-1 were from Abcam. All primary antibodies were used at a 1:1000 dilution, except for -actin, which was used at 1:10 000. All secondary ...
IntroductionImpaired T cell function in sepsis is associated with poor outcome, but the mechanisms are unclear. In cancer, arginase-expressing myeloid derived suppressor cells (MDSCs) deplete arginine, impair T cell receptor CD3 zeta-chain expression and T cell function and are linked to poor clinical outcome, but their role during acute human infectious disease and in particular sepsis remains unknown. Hypoarginemia is prevalent in sepsis. This study aimed to determine whether neutrophils that co-purify with PBMC express arginase, and if arginine depletion constrains T cell CD3 zeta-chain expression and function in human sepsis.MethodsUsing flow cytometry, cell culture, HPLC, arginase activity and mRNA detection, our study examined whether neutrophils, with reduced buoyant density isolated in the Ficoll interface, metabolise L-arginine and suppress T cell proliferation in sepsis. A total of 35 sepsis patients (23 with septic shock) and 12 hospital controls in a tertiary referral hospital in tropical Australia were evaluated.ResultsOnly sepsis patients had interphase neutrophils, neutrophils co-purifying with mononuclear cells (≤1.077 specific gravity). The percentage of interphase neutrophils in sepsis was proportional to sepsis severity and correlated with plasma IL-6 concentrations. Ex vivo, sepsis-derived interphase neutrophils expressed arginase, metabolised culture L-arginine and suppressed T cell proliferation and CD3 zeta-chain expression. In vivo, in septic shock there was a longitudinal inverse association between interphase neutrophil number and CD3 zeta-chain expression. Depletion or inhibition of interphase neutrophils in vitro restored zeta-chain expression and T cell function.ConclusionsFor the first time during an acute human infection, interphase neutrophils that express arginase were found to circulate in sepsis, in proportion to disease severity. These neutrophil-MDSCs impair T cell CD3 zeta-chain expression and T cell function via L-arginine metabolism, and likely contribute to the T cell dysfunction seen in sepsis. Modulation of neutrophil-MDSC or their downstream effects warrant consideration as targets for novel adjunctive therapies in sepsis.Electronic supplementary materialThe online version of this article (doi:10.1186/cc14003) contains supplementary material, which is available to authorized users.
Rho-kinase (ROK) promotes CD44v3,8-10-ankyrin interaction and tumor cell migration in metastatic breast cancer cells
Metastatic breast tumor Met‐1 cells express CD44v3,8–10, a major adhesion receptor that binds extracellular matrix components at its extracellular domain and interacts with the cytoskeletal protein, ankyrin, at its cytoplasmic domain. In this study, we have determined that CD44v3,8–10 and RhoA GTPases are physically associated in vivo, and that CD44v3,8–10‐bound RhoA displays GTPase activity, which can be inhibited by botulinum toxin C3‐mediated ADP‐ribosylation. In addition, we have identified a 160 kDa Rho‐Kinase (ROK) as one of the downstream targets for CD44v3,8–10‐bound RhoA GTPase. Specifically, RhoA (complexed with CD44v3,8–10) stimulates ROK‐mediated phosphorylation of certain cellular proteins including the cytoplasmic domain of CD44v3,8–10. Most importantly, phosphorylation of CD44v3,8–10 by ROK enhances its interaction with the cytoskeletal protein, ankyrin. We have also constructed two ROK cDNA constructs that encode for proteins consisting of 537 amino acids [designated as the constitutively active form of ROK containing the catalytic domain (CAT, also the kinase domain)], and 173 amino acids [designated as the dominant‐negative form of ROK containing the Rho‐binding domain (RB)]. Microinjection of the ROK's CAT domain into Met‐1 cells promotes CD44‐ankyrin associated membrane ruffling and projections. This membrane motility can be blocked by CD44 antibodies and cytochalasin D (a microfilament inhibitor). Furthermore, overexpression of a dominant‐negative form of ROK by transfection of Met‐1 cells with ROK's Rho‐binding (RB) domain cDNA effectively inhibits CD44‐ankyrin‐mediated metastatic behavior (e.g., membrane motility and tumor cell migration). These findings support the hypothesis that ROK plays a pivotal role in CD44v3,8–10‐ankyrin interaction and RhoA‐mediated oncogenic signaling required for membrane‐cytoskeleton function and metastatic tumor cell migration. Cell Motil. Cytoskeleton 43:269–287, 1999. © 1999 Wiley‐Liss, Inc.
Anthranilic diamides are one of the most important classes of modern agricultural insecticides. To discover new structure-modified compounds with high activity, series of novel carbonyl thioureas, carbonyl ureas, oxadiazoles, carbonyl thiophosphorylureas, oxadiazole-containing amides, and thiazoline-containing amides were designed through the modification of the amide bridge based on the structure of chlorantraniliprole and were synthesized, and bioassays were carried out. The compounds were characterized and confirmed by melting point, IR, (1)H NMR, and elemental analyses or HRMS. Preliminary bioassays indicated that some compounds exhibited significant insecticidal activities against oriental armyworm, diamondback moth, beet armyworm, corn borer, and mosquito. Among them, trifluoroethoxyl-containing carbonyl thiourea 20a showed best larvicidal activity against oriental armyworm, with LC50 and LC95 values of 0.1812 and 0.7767 mg/L, respectively. Meanwhile, 20c and 20e showed 86 and 57% death rates against diamondback moth at 0.005 mg/L, and the LC50 values of the two compounds were 0.0017 and 0.0023 mg/L, respectively, which were lower than that of the control chlorantraniliprole. The relationship between structure and insecticidal activity was discussed, and the HF calculation results indicated that the carbonyl thiourea moiety plays an important role in the insecticidal activity. The present work demonstrated that the trifluoroethoxyl-containing carbonyl thioureas can be used as lead compounds for further development of novel insecticides.
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