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ABSTRACT: The efficacy of a potential therapeutic vaccine against chronic hepatitis B virus (HBV) infection depends on the development of strong and multi-specific T cell responses. The potency of CD8+ cytotoxic T lymphocyte (CTL) responses toward HBV core antigen (HBcAg) has been shown to be critical for the outcomes of HBV chronic infection. In this study we have identified a previously undescribed HLA-A*0201-restricted HBcAg-specific CTL epitope (HBcAg₆₄₋₇₂, C₆₄₋₇₂, ELMTLATWV). T2 binding assay showed that C₆₄₋₇₂ had high affinity to HLA-A*0201 molecule. Functionally, the peptide C₆₄₋₇₂ could induce peptide-specific CTLs both in vivo (HLA-A2.1/K(b) transgenic mice) and in vitro (PBLs of healthy HLA-A2.1+ donors), as demonstrated by interferon-γ (IFN-γ) secretion upon stimulation with C₆₄₋₇₂-pulsed T2 cells or autologous human dendritic cells (DCs) respectively. HLA-A*0201-C₆₄₋₇₂ tetramer staining revealed the presence of a significant population of C₆₄₋₇₂-specific CTLs in C₆₄₋₇₂-stimulated CD8+ T cells. Furthermore, the peptide-specific cytotoxic reactivity and the production of perforin and granzyme B of CTLs also increased after stimulation with C₆₄₋₇₂-pulsed autologous DCs. These results indicate that the newly identified epitope C₆₄₋₇₂ has potential to be used in the development of immunotherapeutic approaches to HBV infection.
International immunopharmacology 04/2012; 13(2):141-7. · 2.21 Impact Factor
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ABSTRACT: Tumors can induce generation and accumulation of the immunosuppressive cells such as regulatory T cells in the tumor microenvironment, contributing to tumor escape from immunological attack. Although dendritic cell (DC)-based cancer vaccine can initiate antitumor immune response, regulatory DC subsets involved in the tolerance induction attracted much attention recently. Our previous studies demonstrate that the stromal microenvironment of the spleen, lung, and liver can program generation of CD11c(low)CD11b(high)Ia(low) DCs with regulatory function (CD11b(high)Ia(low) regulatory DCs). However, whether and how the tumor microenvironment can program generation of CD11b(high)Ia(low) regulatory DCs remain to be investigated. In this study, we used the freshly isolated tumor cells to mimic tumor microenvironment to coculture DCs and found that the freshly isolated tumor cells could drive DCs to differentiate into regulatory DCs with a CD11c(low)CD11b(high)Ia(low) phenotype and high expression of IL-10, NO, vascular endothelial growth factor, and arginase I. Tumor-educated CD11b(high)Ia(low) regulatory DCs inhibited CD4(+) T cell proliferation both in vitro and in vivo. 3LL lung cancer-derived TGF-beta and PGE(2) were responsible for the generation of regulatory DCs. PGE(2) was the main inducer of arginase I in regulatory DCs. Arginase I played a major role in the suppression of T cell response by regulatory DCs induced by 3LL lung cancer. A natural counterpart of CD11b(high)Ia(low) DCs was identified in tumor tissue, and CD11b(high)Ia(low) DCs sorted from 3LL lung cancer tissue expressed arginase I and inhibited T cell response. Therefore, tumors can educate DCs to differentiate into a regulatory DC subset, which contributes to constitution of the immunosuppressive tumor microenvironment and promotes tumor immune escape.
The Journal of Immunology 06/2009; 182(10):6207-16. · 5.79 Impact Factor
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ABSTRACT: Fas/FasL system has been extensively investigated with respect to its capacity to induce cellular apoptosis. However, accumulated evidences show that Fas signaling also exhibits nonapoptotic functions, such as induction of cell proliferation and differentiation. Lung cancer is one of cancer's refractory to the immunotherapy, however, the underlying mechanisms remain to be fully understood. In this study, we show that Fas overexpression does not affect in vitro growth of 3LL cells, but promotes lung cancer growth in vivo. However, such tumor-promoting effect is not observed in FasL-deficient (gld) mice, and also not observed in the immune competent mice once inoculation with domain-negative Fas-overexpressing 3LL cells, suggesting the critical role of Fas signal in the promotion of lung cancer growth in vivo. More accumulation of myeloid-derived suppressor cells (MDSC) and Foxp3(+) regulatory T cells is found in tumors formed by inoculation with Fas-overexpressing 3LL cells, but not domain-negative Fas-overexpressing 3LL cells. Accordingly, Fas-ligated 3LL lung cancer cells can chemoattract more MDSC but not regulatory T cells in vitro. Furthermore, Fas ligation induces 3LL lung cancer cells to produce proinflammatory factor PGE(2) by activating p38 pathway, and in turn, 3LL cells-derived PGE(2) contribute to the Fas ligation-induced MDSC chemoattraction. Furthermore, in vivo administration of cyclooxygenase-2 inhibitor can significantly reduce MDSC accumulation in the Fas-overexpressing tumor. Therefore, our results demonstrate that Fas signal can promote lung cancer growth by recruiting MDSC via cancer cell-derived PGE(2), thus providing new mechanistic explanation for the role of inflammation in cancer progression and immune escape.
The Journal of Immunology 04/2009; 182(6):3801-8. · 5.79 Impact Factor
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ABSTRACT: Toll-like receptor 4 (TLR4) signaling in tumor cells can promote tumor escape and tumor progression, for which TLR4-triggered resistance of tumor cells to apoptosis has been proposed as one of the mechanisms. Rapamycin is an immunosuppressant agent widely used for treatment of transplantation rejection and autoimmune diseases, and recently used for cancer therapy. However, the underlying mechanisms responsible for antitumor effects of rapamycin remain to be fully elucidated. Here we report that rapamycin can reverse TLR4-triggered resistance of colon cancer cells to oxaloplatin- or doxorubicin-induced apoptosis by disrupting Akt and subsequent NF-kappaB activation, suppressing upregulation of anti-apoptotic protein Bcl-xL. Furthermore, Akt/NF-kappaB inhibitors also reverses the apoptosis resistance, accordingly, Akt constitutive activation rescues NF-kappaB activation and Bcl-xL expression in rapamycin-pretreated colon cancer cells, suggesting Akt disruption is critical to the process. Therefore, rapamycin may abrogate TLR4-triggered tumor apoptosis resistance by inhibiting Akt/NF-kappaB pathways and Bcl-xL expression, providing experimental evidence for the anti-tumor effect of rapamycin.
International Immunopharmacology 10/2008; 8(13-14):1854-8. · 2.38 Impact Factor
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ABSTRACT: Dendritic cells (DCs) play crucial roles in linking innate immunity and adaptive immunity, thus being regarded as one of the important targets of immunosuppressant. Natural small molecule products isolated from plants, such as fungal metabolites, have been shown to be effective in the treatment of cancer, inflammation and autoimmune diseases. Albaconol is a new kind of prenylated resorcinols isolated from the fruiting bodies of the inedible mushroom Albatrellus confluens, and has been shown to inhibit tumor cell growth. Considering that most of small molecule compounds with antitumor activity always exert immunosuppressive effect, so we wonder whether albaconol could inhibit maturation and antigen presentation of DCs, thus acting as immunosuppressant. Here we demonstrate that albaconol significantly inhibits LPS-induced production of proinflammatory cytokines TNF-alpha, IL-6, IL-1beta, and expression of MHC-II and co-stimulatory molecules by DCs. Furthermore, albaconol markedly inhibits T cell-stimulating capacity of DCs and DCs-initiated antigen-specific T cell response, indicating albaconol can inhibit phenotypic and functional maturation of DCs. Inhibition of LPS-induced NF-kappaB activation may contribute to the above immunosuppressive or anti-inflammatory activities of albaconol. Therefore, our results suggest that natural small molecule albaconol may be a potential immunosuppressive and anti-inflammatory agent through suppressing DCs function via impairment of NF-kappaB activation.
International Immunopharmacology 09/2008; 8(8):1103-11. · 2.38 Impact Factor
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ABSTRACT: Discovery and functional identification of plant-derived small compounds as the immunosuppressant attract much attention these years. Albaconol is a new kind of small compound, prenylated resorcinol, isolated from the fruiting bodies of the inedible mushroom Albatrellus confluens. Our previous studies showed that albaconol can inhibit tumor cell growth and dendritic cell maturation. However, the immunomodulatory roles and the underlying mechanisms of albaconol have not been fully understood. In this study we investigated the effects of albaconol on the proliferation and LPS-induced proinflammatory cytokine production of macrophages. Albaconol, when used at a dose higher than 1.0 microg/ml, inhibited proliferation of RAW264.7 cells in a dose- and time-dependent manner, and could induce cellular apoptosis when used at high dosage (>or= 7.5 microg/ml). Furthermore, we found that albaconol used at a lower dosage without apoptosis induction could significantly inhibit LPS-induced TNF-alpha, IL-6, IL-1beta and NO production in RAW264.7 cells. The inhibition of NF-kappaB activation and enhancement of SOCS1 expression in LPS-stimulated macrophages by albaconol may contribute to the above immunosuppressive or anti-inflammatory activities of albaconol. Our results suggest that albaconol may be a potential immunosuppressive and anti-inflammatory drug.
Cellular & molecular immunology 08/2008; 5(4):271-8. · 2.99 Impact Factor
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ABSTRACT: We recently identified the Phafin protein family, whose members all contain an N-terminal PH domain (pleckstrin homology) and a C-terminal FYVE (Fab1, YGLO23, Vps27, and EEA1) domain. LAPF (lysosome-associated apoptosis-inducing protein containing PH and FYVE domains, also known as Phafin-1), as one representative member of this new family, has been shown to be able to initiate caspase-independent apoptosis through lysosomal-mitochondrial apoptotic pathway. Here, we describe the cloning and functional characterization of another Phafin member, EAPF (endoplasmic reticulum-associated apoptosis-involved protein containing PH and FYVE domains)/Phafin-2. Overexpression of EAPF/Phafin-2 enhances the sensitivity of L929 and MCF-7 cells to TNF-alpha-induced apoptosis, concomitant with its partial translocation to endoplasmic reticulum (ER). Both the PH and the FYVE domains contribute to the ER translocation of EAPF/Phafin-2 as well as EAPF/Phafin-2-enhanced apoptosis. Knockdown of mouse and human EAPF/Phafin-2 expression protects L929 cells and MCF-7 cells from TNF-alpha-induced apoptosis, respectively. We demonstrate that EAPF/Phafin-2 induces a much sharper and more rapid Ca2+ influx triggered by TNF-alpha and Ca2+ release ER contributes to the enhancement of EAPF/Phafin-2 in TNF-induced apoptosis. EAPF/Phafin-2 increases the activity of caspase 12, suggesting that EAPF/Phafin-2 is involved in ER-related apoptotic pathway. Overexpression of EAPF/Phafin-2 also enhances TNF-alpha-induced activity of caspase 3 (but not caspase 8 or 9), and promotes TNF-alpha-triggered mitochondrial membrane permeabilization (MMP) in L929 cells, including dissipation of mitochondrial membrane potential and release of AIF. Besides, EAPF/Phafin-2 also suppresses the unfolded protein response by inhibiting phosphorylation of eIF2alpha. Therefore, our results demonstrate that EAPF/Phafin-2 facilitates TNF-alpha-induced cellular apoptosis through an ER-mitochondrial apoptotic pathway, which may improve our understanding of drug-induced cancer cell death and cancer chemotherapy.
Journal of Molecular Medicine 05/2008; 86(4):471-84. · 4.67 Impact Factor
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ABSTRACT: Many neuropeptides that are produced by immune cells have been shown to be involved in the pathogenesis of immunological disorders. Nerve growth factor (NGF) and its receptors are found to be widely expressed in the immune system and regulate both innate and adaptive immune responses. However, the underlying mechanisms by which NGF contributes to pathogenesis of inflammatory diseases remain to be fully understood. Dendritic cells (DCs) are potent initiator for inflammatory and immune responses upon recognization and activation of Toll-like receptors (TLRs). In this study, we demonstrated that stimulation with TLR ligand lipopolysaccharide (LPS), but not lipoteichoic acid (LTA), Poly (I:C) and CpG oligodeoxynucleotide (ODN), could significantly induce expression of NGF and NGF receptor p75(NTR) on mouse bone marrow-derived DCs (BMDCs) in vitro in dose- and time-dependent manners. The expression of NGF and NGF receptor p75(NTR) also increased on splenic DCs isolated from the mice injected with LPS in vivo. However, there was no such effect on DCs derived from TLR4-deficient mice, indicating the LPS-induced upregulation of NGF and p75(NTR) was TLR4 pathway-dependent. Furthermore, LPS-induced upregulation of NGF and p75(NTR) could be inhibited by p38MAPK inhibitor SB203580 and NF-kappaB inhibitor PDTC, suggesting TLR4-triggered activation of p38MAPK and NF-kappaB pathways are responsible for the process. Interestingly, NGF could markedly promote LPS-pretreated BMDCs to secret IL-12p40 and TNF-alpha, which could be abolished by pretreatment with p75(NTR) antagonist or the specific small interference RNA duplex targeting p75(NTR) (p75-siRNA), suggesting the inducible p75(NTR) is critical for the TLR4-initiated inflammatory effect of NGF on BMDCs. Thus, TLR4 signaling can induce expression of NGF and p75 (NTR) on DCs via activation of p38 MAPK and NF-kappaB pathways, suggesting that NGF may be involved in the pathogenesis of inflammatory diseases.
Molecular Immunology 04/2008; 45(6):1557-66. · 2.90 Impact Factor
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ABSTRACT: Toll-like receptors (TLRs) are involved in the production of inflammatory mediators upon specific ligands stimuli. Chemokines are important inflammatory mediators capable of chemoattracting diverse immune cells. In addition to normal immune cells, the expression of TLRs and chemokines has been detected in various tumor cells. However, the roles of TLRs and chemokines expressed by tumor cells in the processes of tumor progression and immune escape have not been fully elucidated. Here we report that TLR4 ligation by lipopolysaccharide (LPS) significantly promotes CT-26 colon cancer cells to produce chemokine CCL20 via activation of TLR4 signaling pathways. We find that LPS treatment of CT-26 cells can significantly increase the chemoattraction of immature dendritic cells (DC) by the autocrine CCL20. Our studies suggest that TLR4 expressed by tumor cells may be involved in the induction of chemokines like CCL20, providing a potential linkage between chronic inflammation and tumor immune escape.
Biochemical and Biophysical Research Communications 03/2008; 366(3):852-6. · 2.48 Impact Factor
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ABSTRACT: Tumors actively develop different mechanisms such as immunosuppressive cytokine production to escape from immune control and limit the success of immunotherapy. More and more evidences suggest that chronic inflammation contributes to cancer development and progression. Recently, Toll-like receptors (TLRs), the receptors by which immune cells recognize microbial conserved components such as lipopolysaccharide (LPS) then initiate immune and inflammatory responses, have been found to be expressed by some kinds of tumor cells. However, what is the biological function of TLRs on tumor cells and whether human lung cancer cells can express TLRs remain to be fully understood. In the present study, we demonstrate that TLR4 is expressed on human lung cancer cell lines. TLR4 ligation promotes production of immunosuppressive cytokines TGF-beta, VEGF, proangiogenic chemokine IL-8 by human lung cancer cells. In addition, TLR4 ligation induces resistance of human lung cancer cells to TNF-alpha or TRAIL-induced apoptosis. Furthermore, we show p38MAPK activation is necessary for increased VEGF and IL-8 secretion, NF-kappaB activation contributes to apoptosis resistance of human lung cancer cells induced by LPS. Therefore, we demonstrate that TLR4 expressed on human lung cancer cells is functionally active, and may play important roles in promoting immune escape of human lung cancer cells by inducing immunosuppressive cytokines and apoptosis resistance.
Molecular Immunology 05/2007; 44(11):2850-9. · 2.90 Impact Factor
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ABSTRACT: Inhibition of dendritic cell (DC) migration into tissues and secondary lymphoid organs is an efficient way to induce immunosuppression and tolerance. CCR7 and PGE(2) are critical for DC migration to secondary lymphoid organs where DC initiate immune response. Triptolide, an active component purified from the medicinal plant Tripterygium Wilfordii Hook F., is a potent immunosuppressive drug capable of prolonging allograft survival in organ transplantation by inhibiting T cell activation and proliferation. Considering the essential role in T cell tolerance of DC migration to secondary lymphoid organs, here we demonstrate that triptolide can significantly inhibit LPS-triggered upregulation of CCR7 expression and PGE(2) production by inhibiting cyclooxygenase-2 (COX-2) expression in DC, thus impairing DC migration towards CCR7 ligand CCL19/MIP-3betain vitro. Moreover, triptolide-treated DC display impaired migration into secondary lymphoid organs and in vivo administration of triptolide also inhibits DC migration. Further studies show that the triptolide-mediated inhibitory effects of LPS-induced activation of phosphatidylinositol-3 kinase (PI3-K)/Akt and nuclear NF-kappaB activation are involved in down-regulation of COX-2 and CCR7 expression resulting in impaired migration to secondary lymphoid organs of DC. Therefore, inhibition of DC migration through decreasing COX-2 and CCR7 expression via PI3-K/Akt and NF-kappaB signal pathways provides additional mechanistic explanation for triptolide's immunosuppressive effect.
Molecular Immunology 05/2007; 44(10):2686-96. · 2.90 Impact Factor
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ABSTRACT: Triptolide, an active component purified from the medicinal plant Tripterygium wilfordii Hook F., is potent in anti-inflammation and immunosuppression. Dendritic cells (DC), one of important targets of immunosuppressants, play crucial roles in linking the innate immunity and adaptive immunity. However, the effects of triptolide on DC have not been fully elucidated. Chemoattraction of neutrophils and T cells by DC may favor their interactions and initiation of immune response. Here we demonstrate that triptolide significantly impairs DC-mediated chemoattraction of neutrophils and T cells both in vitro and in vivo by suppressing DC production of CC and CXC chemokines including MIP-1alpha, MIP-1beta, MCP-1, RANTES, TARC, and IP-10 in response to LPS. Furthermore, triptolide-mediated inhibition of NF-kappaB activation, Stat3 phosphorylation and increase of SOCS1 expression in DC may be involved in the inhibitory effect of triptolide. Our study provides a novel mechanistic explanation for the anti-inflammatory and immunosuppressive activities of triptolide.
Biochemical and Biophysical Research Communications 08/2006; 345(3):1122-30. · 2.48 Impact Factor
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ABSTRACT: Sinomenine (SN), an immunnosuppressive compound derived from the Chinese medicinal plant Sinomenium acutum, has been used to treat autoimmune diseases effectively. Previous studies show SN can inhibit lymphocytes proliferation and macrophage production of pro-inflammatory factors. However, little is known about the mechanisms by which SN inhibits macrophage functions. In this study, we demonstrated that SN could inhibit the proliferation of murine macrophages RAW264.7 by inducing apoptosis in a dose- and time-dependent manner. We found activation of extracellular signal-regulated protein kinase (ERK) in SN-treated macrophages, and requirement for ERK activation in SN-induced apoptosis of macrophages. Contemporarily, the expression of p27/KIP1, proapoptotic factor Bax increased, and expression of Bcl-2 decreased, which might cooperate to induce apoptosis. Inhibiting ERK activation reduced the increased expression of p27 and Bax, but had no effect on the decreased expression of Bcl-2, suggesting the involvement of ERK activation in the SN-induced increased expression of p27 and Bax. These results demonstrated that SN could induce apoptosis of macrophages through activation of ERK, and ERK activation might partially involve in the increased expression of p27 and Bax in apoptotic macrophages. Therefore, induction of macrophage apoptosis through ERK activation may be one of mechanisms by which SN exhibits its immunosuppressive function.
Immunology Letters 05/2005; 98(1):91-6. · 2.53 Impact Factor
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ABSTRACT: A novel inhibitory receptor of immunoglobin superfamily (IgSF), IgSF member 13 (IgSF13), has been identified from human dendritic cells (DC). IgSF13 is a type I transmembrane protein containing an N-terminal signal peptide, a extracellular region with a single Ig V-like domain, a transmembrane region, and a cytoplasmic tail with two classical immunoreceptor tyrosine-based inhibitory motifs (ITIM), suggesting its inhibitory function. IgSF13 shows significant homology to human CMRF35 and pIgR. IgSF13 gene is mapped to chromosome 17q25.2, very close to that of CMRF35. IgSF13 is preferentially expressed in myelo-monocytic cells, including monocytes, monocyte-derived DC, and monocyte-related cell lines. Upon pervanadate treatment, IgSF13 was hyper-phosphorylated and associated with Src homology-2 domain-containing phosphatases SHP-1 and SHIP, but not SHP-2. The identification of IgSF13 as a novel ITIM-bearing receptor selectively expressed by DC and monocytes suggests that it may be potentially involved in the negative regulation of specific leukocyte population.
Biochemical and Biophysical Research Communications 08/2004; 319(3):920-8. · 2.48 Impact Factor
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ABSTRACT: Dendritic cells (DCs) are the most potent antigen-presenting cells that play crucial roles in the regulation of immune response. Triptolide, an active component purified from the medicinal plant Tripterygium wilfordii Hook F., has been demonstrated to act as a potent immunosuppressive drug capable of inhibiting T cell activation and proliferation. However, little is known about the effects of triptolide on DCs. The present study shows that triptolide does not affect phenotypic differentiation and LPS-induced maturation of murine DCs. But triptolide can dramatically reduce cell recovery by inducing apoptosis of DCs at concentration as low as 10ng/ml, as demonstrated by phosphatidylserine exposure, mitochondria potential decrease, and nuclear DNA condensation. Triptolide induces activation of p38 in DCs, which precedes the activation of caspase 3. SB203580, a specific kinase inhibitor for p38, can block the activation of caspase 3 and inhibit the resultant apoptosis of DCs. Our results suggest that the anti-inflammatory and immunosuppressive activities of triptolide may be due, in part, to its apoptosis-inducing effects on DCs.
Biochemical and Biophysical Research Communications 08/2004; 319(3):980-6. · 2.48 Impact Factor
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ABSTRACT: Migration of dendritic cells (DCs) into tissues and secondary lymphoid organs plays a crucial role in the initiation of innate and adaptive immunity. In this article, we show that cyclosporin A (CsA) impairs the migration of DCs both in vitro and in vivo. Exposure of DCs to clinical concentrations of CsA neither induces apoptosis nor alters development but does impair cytokine secretion, chemokine receptor expression, and migration. In vitro, CsA impairs the migration of mouse bone marrow-derived DCs toward macrophage inflammatory protein-3beta (MIP-3beta) and induces them to retain responsiveness to MIP-1alpha after lipopolysaccharide (LPS)-stimulated DC maturation, while in vivo administration of CsA inhibits the migration of DCs out of skin and into the secondary lymphoid organs. CsA impairs chemokine receptor and cyclooxygenase-2 (COX-2) expression normally triggered in LPS-stimulated DCs; administration of exogenous prostaglandin E2 (PGE2) reverses the effects of CsA on chemokine receptor expression and DC migration. Inhibition of nuclear factor-kappaB (NF-kappaB) and mitogen-activated protein kinase (MAPK) pathway signaling by CsA may be responsible for the CsA-mediated effects on the regulation of chemokine receptor and cyclooxygenase-2 (COX-2) expression. Impairment of DC migration due to inhibition of PGE2 production and regulation of chemokine receptor expression may contribute, in part, to CsA-mediated immunosuppression.
Blood 02/2004; 103(2):413-21. · 9.90 Impact Factor
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ABSTRACT: Septins are a family of cytoskeletal proteins with GTPase activity involved in various cellular biological processes. Here, we describe the identification of septin 10, a novel septin family member from human dendritic cells. The 3018-bp full-length cDNA potentially encodes a 517-residue peptide, sharing closest homology to human septin 8 and septin 6. With a conserved GTP-binding motif at its N-terminus, septin 10 protein can bind to GTP and exert GTPase activity. Human septin 10 gene is electronically mapped to 8q11.2-12. It is ubiquitously expressed in normal tissues, with the abundant expression in heart and kidney, placenta, skeletal muscles, liver and lung, as well as various tumor cell lines. Interestingly, dendritic cells express upregulated septin 10 upon LPS-induced maturation. Based on its GFP-fusion protein, septin 10 is found to localize in cytoplasm and nucleus, with a subcellular pattern independent of the filamentous state of actin.
Biochemical and Biophysical Research Communications 06/2003; 304(2):393-8. · 2.48 Impact Factor
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ABSTRACT: To examine the expression difference of mRNA of L1210 cell strains and its cloned cells and discuss the methods for quality control of cell strains.
We used SDS-PAGE to observe the difference of protein and performed in situ hybridization to examine the expression of mRNA with the use of 6 cDNA probes that were marked by biotin.
The number of protein bands of L1210 from Beijing Cancer Institute was 32. The number of protein bands of the two cloned cells L3E11 and L3F9 was 31. The 6 cDNA probes (p16, c-fos, c-jun, c-myc, p21, and p53 mRNA) were found to be existing in Beijing Cancer Institute L1210 and two different cloned cell strains. Expression of c-myc, c-fos, p53 mRNA could distinguish L3E11 and L3F9 cloned cells.
Sichuan da xue xue bao. Yi xue ban = Journal of Sichuan University. Medical science edition 05/2003; 34(2):207-9.
