IRF4-Dependent and IRF4-Independent Pathways Contribute to DC Dysfunction in Lupus

Interferon Regulatory Factors (IRFs) play fundamental roles in dendritic cell (DC) differentiation and function. In particular, IRFs are critical transducers of TLR signaling and dysregulation in this family of factors is associated with the development of autoimmune disorders such as Systemic Lupus Erythematosus (SLE). While several IRFs are expressed in DCs their relative contribution to the aberrant phenotypic and functional characteristics that DCs acquire in autoimmune disease has not been fully delineated. Mice deficient in both DEF6 and SWAP-70 (= Double-knock-out or DKO mice), two members of a unique family of molecules that restrain IRF4 function, spontaneously develop a lupus-like disease. Although autoimmunity in DKO mice is accompanied by dysregulated IRF4 activity in both T and B cells, SWAP-70 is also known to regulate multiple aspects of DC biology leading us to directly evaluate DC development and function in these mice. By monitoring Blimp1 expression and IL-10 competency in DKO mice we demonstrate that DCs in these mice exhibit dysregulated IL-10 production, which is accompanied by aberrant Blimp1 expression in the spleen but not in the peripheral lymph nodes. We furthermore show that DCs from these mice are hyper-responsive to multiple TLR ligands and that IRF4 plays a differential role in in these responses by being required for the TLR4-mediated but not the TLR9-mediated upregulation of IL-10 expression. Thus, DC dysfunction in lupus-prone mice relies on both IRF4-dependent and IRF4-independent pathways.     

Vaccinia virus protein C6 is a virulence factor that binds TBK-1 adaptor proteins and inhibits activation of IRF3 and IRF7

Recognition of viruses by pattern recognition receptors (PRRs) causes interferon-β (IFN-β) induction, a key event in the anti-viral innate immune response, and also a target of viral immune evasion. Here the vaccinia virus (VACV) protein C6 is identified as an inhibitor of PRR-induced IFN-β expression by a functional screen of select VACV open reading frames expressed individually in mammalian cells. C6 is a member of a family of Bcl-2-like poxvirus proteins, many of which have been shown to inhibit innate immune signalling pathways. PRRs activate both NF-κB and IFN regulatory factors (IRFs) to activate the IFN-β promoter induction. Data presented here show that C6 inhibits IRF3 activation and translocation into the nucleus, but does not inhibit NF-κB activation. C6 inhibits IRF3 and IRF7 activation downstream of the kinases TANK binding kinase 1 (TBK1) and IκB kinase-ε (IKKε), which phosphorylate and activate these IRFs. However, C6 does not inhibit TBK1- and IKKε-independent IRF7 activation or the induction of promoters by constitutively active forms of IRF3 or IRF7, indicating that C6 acts at the level of the TBK1/IKKε complex. Consistent with this notion, C6 immunoprecipitated with the TBK1 complex scaffold proteins TANK, SINTBAD and NAP1. C6 is expressed early during infection and is present in both nucleus and cytoplasm. Mutant viruses in which the C6L gene is deleted, or mutated so that the C6 protein is not expressed, replicated normally in cell culture but were attenuated in two in vivo models of infection compared to wild type and revertant controls. Thus C6 contributes to VACV virulence and might do so via the inhibition of PRR-induced activation of IRF3 and IRF7.     

Proinflammatory chemokine gene expression influences survival of patients with non-Hodgkin's lymphoma

The migration, survival and proliferation of cells is the basis for all physiologic and pathologic processes in the human body. All these reactions are regulated by a complex chemokine network that guides lymphocytes homing, chemotaxis, adhesion and interplay between immunologic system response cells. Chemokines are also responsible for metastatic dissemination of cancers, including Hodgkin's and non-Hodgkin's lymphomas. The purpose of this study was to determine chemokine gene expression (CXCL8, CXCL10, CCL2, CCL3, CCL4 and CCL5) in lymphoma lymph nodes compared to their expression in reactive lymph nodes. We also analyzed the influence of chemokine gene expression on the survival of lymphoma patients. Chemokine gene expression was evaluated in 37 lymphoma lymph nodes and in 25 samples of reactive lymph nodes. Gene expression of chemokines CXCL8, CXCL10, CCL2, CCL3, CCL4 and CCL5 was measured using the PCR method. Statistical analysis was performed using CSS Statistica for Windows (version 7.0) software. Probability values 〈 〈 0.05 were considered statistically significant and those between 0.05 and 0.1 as indicative of a trend. We found lower CXCL8 and CXCL10 gene expression in lymphoma lymph nodes compared to reactive lymph nodes. In the cases of CCL2 and CCL3, expression in lymphomas was higher than in reactive lymph nodes. Patients with high expression of CCL2 and CXCL10 had shorter survival.     

Density of intranodal lymphatics and VEGF-C expression in B-cell lymphoma and reactive lymph nodes

Lymphatic vasculature in solid tumors may serve as the pathway for metastatic spread of the cancer to the regional lymph nodes and to distant organs. Controversy still exists whether tumors metastasize through existing lymphatics or through newly formed vessels (lymphangiogenesis). The role of lymphangiogenesis in lymphoma spread and proliferation is not clearly established. VEGF-C is the most potent inducer of lymphangiogenesis. LYVE-1 was shown to be a specific marker for lymphatic vessels in normal and tumor tissue. The aim of the present study was the evaluation of lymph node LYVE-1-positive lymphatic sinus density (LSD) and VEGF-C expression in patients with non-Hodgkin's lymphoma (nHL) and in reactive lymph nodes. Sixty paraffin-embedded lymph nodes from newly diagnosed patients with B-cell nHL were evaluated. Twelve lymph node biopsy specimens from adult patients with reactive lymphonodulitis were used as controls. Sections of lymph nodes were stained immunohistochemically for LYVE-1 and VEGF-C. VEGF-C expression in lymph nodes of nHL patients was low and not significantly different from that in the control (p = 0.6). Moreover, VEGF-C expression did not differ significantly between aggressive and indolent lymphomas (p = 0.53). Similarly we did not find differences in LSD in aggressive nHL and in indolent nHL (p=0.49). The mean LSD in reactive lymph nodes was higher than in nHL (p = 0.03). Only in 2 out of 12 reactive lymph nodes LYVE-1-positive vessels were absent. In all groups we demonstrated a strong positive correlation between VEGF-C and LYVE-1-expression (p = 0.0001). Higher LSD in reactive lymph nodes as compared to those of nHL patients suggests that lymphoma proliferation leads to the destruction of the existing lymphatics rather than to lymphangiogenesis within lymph nodes. NHL are not associated with increased expression of VEGF-C nor increased LYVE-1-positive lymphatic sinuses density within lymph nodes.     

Inhibition of interferon regulatory factor 7 (IRF7)-mediated interferon signal transduction by the Kaposi's sarcoma-associated herpesvirus viral IRF homolog vIRF3

Upon viral infection, the major defense mounted by the host immune system is activation of the interferon (IFN)-mediated antiviral pathway that is mediated by IFN regulatory factors (IRFs). In order to complete their life cycle, viruses must modulate the host IFN-mediated immune response. Kaposi's sarcoma-associated herpesvirus (KSHV), a human tumor-inducing herpesvirus, has developed a unique mechanism for antagonizing cellular IFN-mediated antiviral activity by incorporating viral homologs of the cellular IRFs, called vIRFs. Here, we report a novel immune evasion mechanism of KSHV vIRF3 to block cellular IRF7-mediated innate immunity in response to viral infection. KSHV vIRF3 specifically interacts with either the DNA binding domain or the central IRF association domain of IRF7, and this interaction leads to the inhibition of IRF7 DNA binding activity and, therefore, suppression of alpha interferon (IFN-alpha) production and IFN-mediated immunity. Remarkably, the central 40 amino acids of vIRF3, containing the double alpha helix motifs, are sufficient not only for binding to IRF7, but also for inhibiting IRF7 DNA binding activity. Consequently, the expression of the double alpha helix motif-containing peptide effectively suppresses IRF7-mediated IFN-alpha production. This demonstrates a remarkably efficient means of viral avoidance of host antiviral activity.     

Immunohistochemical detection of oncoprotein 18 (Op18) in malignant lymphomas

Summary Expression of oncoprotein 18 (Op18), an intracellular phosphoprotein up-regulated in many malignant cell types, was evaluated in a series of normal lymphoid tissue and malignant lymphomas. In normal tonsils and reactive lymph nodes, the majority of Op18-positive cells were present in the germinal centres, whereas cells in the mantle zone were essentially negative and the interfollicular areas showed occasional positive cells. Double staining for PCNA and Op18 revealed that Op18 expression only to some extent was correlated with cell proliferation, as determined by PCNA expression.Non-Hodgkin's lymphomas exhibited a variable Op18 expression, and in Hodgkin's disease, Reed-Sternberg and Hodgkin cells frequently expressed Op18 with a strong staining intensity. Using Op18-PCNA double staining in malignant lymphomas, Op18 expression could also be partially dissociated from cell proliferation. By using confocal microscopy, the intracellular localization of Op18 was studied, demonstrating diffuse reactivity in the cytoplasm in interphase cells and during mitosis, whereas nuclei and condensed chromosomes were negative. In conclusion, Op18 was expressed at variable levels in most, perhaps all, proliferating lymphocytes in benign lymphoid tissue as well as in malignant lymphomas. However, the Op18 protein was also detected in a significant fraction of apparently non-cycling normal and neoplastic lymphocytes.     

DNA measurements in thin sections of lymphomas

The DNA content of the nuclei of lymphomas and a reactive lymph node was studied by light absorption measurements in Feulgen-stained thin (2 microns) sections of lymph node biopsies, using the TAS image analysis system. For each nucleus, the integrated light absorbance at 548 nm wavelength was multiplied by the square root of the nuclear area to obtain a parameter for DNA independent from the nuclear size. In a hyperplastic reactive lymph node with follicular hyperplasia, the distribution of DNA X square root area was different in centrocytes and centroblasts, being compatible with a diploid centrocyte fraction and a mainly tetraploid centroblast fraction, in which hypertetraploid (octoploid?) nuclei were present. Similar measurements in three follicular centroblastic-centrocytic lymphomas gave similar results, with the centroblasts mainly tetraploid. The DNA distribution was studied in sections of lymphomas of high and low grades of malignancy, classified visually on the number of mitoses seen per field. The distribution width, from the smoothed histogram as the DNA X square root area values beyond the maximum peak frequency, appeared to be larger in the high-grade malignant lymphomas, in accordance with their higher number of mitoses.     

Rotavirus NSP1 inhibits expression of type I interferon by antagonizing the function of interferon regulatory factors IRF3, IRF5, and IRF7

Secretion of interferon (IFN) by virus-infected cells is essential for activating autocrine and paracrine pathways that promote cellular transition to an antiviral state. In most mammalian cells, IFN production is initiated by the activation of constitutively expressed IFN regulatory factor 3, IRF3, which in turn leads to the induction of IRF7, the "master regulator" of IFN type I synthesis (alpha/beta IFN). Previous studies established that rotavirus NSP1 antagonizes IFN signaling by inducing IRF3 degradation. In the present study, we have determined that, in comparison to wild-type rotaviruses, rotaviruses encoding defective NSP1 grow to lower titers in some cell lines and that this poor growth phenotype is due to their failure to suppress IFN expression. Furthermore, we provide evidence that rotaviruses encoding wild-type NSP1 subvert IFN signaling by inducing the degradation of not only IRF3, but also IRF7, with both events occurring through proteasome-dependent processes that proceed with similar efficiencies. The capacity of NSP1 to induce IRF7 degradation may allow rotavirus to move across the gut barrier by enabling the virus to replicate in specialized trafficking cells (dendritic cells and macrophages) that constitutively express IRF7. Along with IRF3 and IRF7, NSP1 was found to induce the degradation of IRF5, a factor that upregulates IFN expression and that is involved in triggering apoptosis during viral infection. Our analysis suggests that NSP1 mediates the degradation of IRF3, IRF5, and IRF7 by recognizing a common element of IRF proteins, thereby allowing NSP1 to act as a broad-spectrum antagonist of IRF function.     

Application of mid-infrared microscopic imaging for the diagnosis and classification of human lymphomas

Mid-infrared (MIR) microscopic imaging of indolent and aggressive lymphomas was performed including formalin-fixed and paraffin-embedded samples of six follicular lymphomas and 12 diffuse large B-cell-lymphomas as well as reactive lymph nodes to investigate benefits and challenges for lymphoma diagnosis. MIR images were compared to defined pathological characteristics such as indolent versus aggressive versus reactive, germinal centre versus activated cell-of-origin (COO) subtypes, or a low versus a high proliferative index and level of PD-L1 expression. We demonstrated that MIR microscopic imaging can differentiate between reactive lymph nodes, indolent and aggressive lymphoma samples. Also, it has potential to be used in the subtyping of lymphomas, as shown with the differentiation between COO subtypes, the level of proliferation and PD-L1 expression. MIR microscopic imaging is a promising tool for diagnosis and subtyping of lymphoma and further evaluation is needed to fully explore the advantages and disadvantages of this method for pathological diagnosis.     

The interferon regulatory factor, IRF5, is a central mediator of toll-like receptor 7 signaling

Interferon regulatory factors (IRFs) are critical components of virus-induced immune activation and type I interferon regulation. IRF3 and IRF7 are activated in response to a variety of viruses or after engagement of Toll-like receptor (TLR) 3 and TLR4 by double-stranded RNA and lipopolysaccharide, respectively. The activation of IRF5, is much more restricted. Here we show that in contrast to IRF3 and IRF7, IRF5 is not a target of the TLR3 signaling pathway but is activated by TLR7 or TLR8 signaling. We also demonstrate that MyD88, interleukin 1 receptor-associated kinase 1, and tumor necrosis factor receptor-associated factor 6 are required for the activation of IRF5 and IRF7 in the TLR7 signaling pathway. Moreover, ectopic expression of IRF5 enabled type I interferon production in response to TLR7 signaling, whereas knockdown of IRF5 by small interfering RNA reduced type I interferon induction in response to the TLR7 ligand, R-848. IRF5 and IRF7, therefore, emerge from these studies as critical mediators of TLR7 signaling.     

IRF2 enhances RANKL-induced osteoclast differentiation via regulating NF-κB/NFATc1 signaling

Interferon regulatory factors (IRFs) play roles in various biological processes including cytokine signaling, cell growth regulation and hematopoietic development. Although it has been reported that several IRFs are involved in bone metabolism, the role of IRF2 in bone cells has not been elucidated. Here, we investigated the involvement of IRF2 in RANKL-induced osteoclast differentiation. IRF2 overexpression in osteoclast pre-cursor cells enhanced osteoclast differentiation by regulating the expression of NFATc1, a master regulator of osteoclasto-genesis. Conversely, IRF2 knockdown inhibited osteoclast differentiation and decreased the NFATc1 expression. Moreover, IRF2 increased the translocation of NF-κB subunit p65 to the nucleus in response to RANKL and subsequently induced the expression of NFATc1. IRF2 plays an important role in RANKL-induced osteoclast differentiation by regulating NF-κB/NFATc1 signaling pathway. Taken together, we demonstrated the molecular mechanism of IRF2 in osteoclast differentiation, and provide a molecular basis for potential therapeutic targets for the treatment of bone diseases characterized by excessive bone resorption.     

Distribution of dendritic reticulum cells in follicular lymphoma and reactive hyperplasia. Light microscopic identification and general morphology

Reactive and neoplastic follicles in lymph nodes showing changes of (1) follicular hyperplasia and (2) follicular lymphoma were examined for the presence of dendritic reticulum cells (DRC). These cells could be identified under the light microscope after comparing electron microscopical sections with subsequent 1 micro sections of reactive germinal centres. Quantitative light microscopical evaluation showed that DRC, both mononuclear and binuclear forms, were less numerous in neoplastic follicular structures than in reactive follicles. Before determining the frequency of binucleated DRC in follicular tissue their morphology was studied first in cell suspensions. DRC isolated by enzymatic treatment of tonsils and reactive lymph nodes were morphologically identical and contained one, or at most two, nuclei arranged in a typical doublet formation. Stereological calculations - made on three dimensional models of nuclear complexes prepared from serial tissue sections - indicated that 51 to 68% of DRC in reactive germinal centres were binucleated, whereas in neoplastic follicles this figure is 18 to 23%. The multinucleated giant cell forms of DRC described by others result from complex formation with other DRC or lymphoid cells. The smaller number of DRC and the lower frequency of binucleated DRC in follicular lymphomas suggest that differentiation of DRC from stromal cells is less complete in these neoplasms. The ability to identify DRC reliably by light microscopy offers a new means to define the difference in frequency of DRC. This may be of practical value in distinguishing reactive germinal centres from neoplastic follicles.     

黄鳝IRF-4和IRF-10的表达研究

目的:干扰素调节因子是一类能够调控干扰素及其相关免疫基因表达的转录因子,研究黄鳝干扰素调节因子的结构及表达有助于阐明黄鳝抗病毒的机理。方法:利用PCR扩增技术获得了黄鳝干扰素调节因子10(IRF-10)和IRF-4的部分cDNA序列,再利用半定量PCR技术检测了黄鳝不同发育阶段、不同组织IRF-10和IRF-4的表达。结果:IRF-10和IRF-4在黄鳝三个不同的发育阶段表达量基本一致,但两者在黄鳝不同组织表达呈现明显的差异,IRF-10组成型表达于黄鳝各个组织中,而IRF-4仅在肠、中肾和脑中呈现很高的表达,其他组织表达很弱。结论:IRF-10组成型地表达于黄鳝各个组织,且表达量很高;而IRF-4中仅在主要免疫器官表达,且表达量较弱。