UNIPROT:Q06643 - FACTA Search

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Query: UNIPROT:Q06643 (non-Hodgkin's lymphoma)
11,307 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Targeted inactivation of genes in the tumor necrosis factor (TNF)/lymphotoxin (LT) ligand and receptor system has recently revealed essential roles forthese molecules in lymphoid tissue development and organization. Lymphotoxin-alpha beta (LT alpha beta)/lymphotoxin-beta receptor (LT beta-R) signaling is critical for the organogenesis of lymph nodes and Peyer's patches and for the structural compartmentalization of the splenic white pulp into distinct B and T cell areas and marginal zones. Moreover, an essential role has been demonstrated for TNF/p55 tumor necrosis factor receptor (p55TNF-R) signaling in the formation of splenic B lymphocyte follicles, follicular dendritic cell networks, and germinal centers. In contrast to a previously described essential role for the p55TNF-R in Peyer's patch organogenesis, we show in this report that Peyer's patches are present in both TNF and p55TNF-R knockout mice, demonstrating that these molecules are not essential for the organogenesis of this lymphoid organ. Furthermore, we show that in the absence of TNF/p55TNF-R signaling, lymphocytes segregate normally into T and B cell areas and a normal content and localization of dendritic cells is observed in both lymph nodes and Peyer's patches. However, although B cells are found to home normally within Peyer's patches and in the outer cortex area of lymph nodes, organized follicular structures and follicular dendritic cell networks fail to form. These results show that in contrast to LT alpha beta signaling, TNF signaling through the p55TNF-R is not essential for lymphoid organogenesis but rather for interactions that determine the cellular and structural organization of B cell follicles in all secondary lymphoid tissues.
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PMID:Peyer's patch organogenesis--cytokines rule, OK? 941 84

The transfer of lymphocytes into severe combined immunodeficiency (SCID) mice induces a series of histological changes in the spleen, including the appearance of mature follicular dendritic cells (FDCs). Studies were undertaken to clarify the role of lymphotoxin (LT) in this process. The results show that SCID mice have a small and partially differentiated white pulp containing marginal zone and interdigitating dendritic cells, but lacking FDCs. Transferred spleen cells can segregate into T and B cell areas shortly after their injection to SCID mice. This ability is dependent on signaling through LT-beta receptor (LT-betaR), since blocking ligand-receptor interaction in recipient SCID mice ablates the capacity of the transferred cells to segregate. A week after lymphocyte transfer, host-derived FDCs appeared in the reconstituted SCID mice. This induction of FDCs is dependent on LT-betaR signaling by B cells since LT-alpha-/- B cells are incapable of inducing development of FDCs in SCID mice, even after cotransfer of LT-alpha+/+ T cells. Therefore, LT plays at least two discrete roles in splenic organization. First, it appears that LT induces the differentiation of the white pulp to create sites for lymphocyte segregation. Second, LT expression by B cells drives the maturation of FDCs and the organization of B cell follicles.
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PMID:The sequential role of lymphotoxin and B cells in the development of splenic follicles. 952 16

Lymphotoxin (LT, LT alpha, TNF beta) is a member of the immediate TNF family that also includes TNF-alpha and lymphotoxin-beta (LT beta). LT is produced by activated lymphocytes and functions as either a secreted homotrimer or a membrane-associated heterotrimer that includes the transmembrane protein LT beta. Secreted LT alpha3 can bind to two cell surface receptors, TNFR1 and TNFR2, while the membrane-bound heterotrimer LT alpha1beta2 has been shown to interact with a distinct receptor, LT betaR. LT alpha induces inflammation at the sites of expression of a rat insulin promoter-driven lymphotoxin (RIPLT) transgene in the pancreas and kidney. To determine the role of the various ligands and their receptors in LT-induced inflammation, mice deficient in either TNFR1, TNFR2, or LT beta were crossed to RIPLT-transgenic mice. Our results indicate that LT alpha-induced inflammation is dependent on the interaction of LT alpha3 with TNFR1, and there is no obvious role for TNFR2, since in its absence, LT alpha-induced inflammation is quantitatively and qualitatively similar to that seen in the wild type. However, the absence of LT beta results in accentuated infiltration of the kidney with an increase in the proportion of memory cells in the infiltrate. These data show a crucial role for the secreted LT alpha3 signaling via TNFR1 in LT alpha-induced inflammation, and a separate and distinct role for the membrane LT alpha1beta2 form in this inflammatory process.
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PMID:Differential activities of secreted lymphotoxin-alpha3 and membrane lymphotoxin-alpha1beta2 in lymphotoxin-induced inflammation: critical role of TNF receptor 1 signaling. 955 7

Systemic release of tumor necrosis factor (TNF) and lymphotoxin-alpha (LTalpha) has been found to contribute to the severity of non-Hodgkin's lymphoma (NHL). We investigated whether genetic polymorphisms in the TNF locus, previously shown to influence TNF and LTalpha genes expression, might contribute to these cytokines production and to the clinical course of NHL. Genomic DNA from 273 lymphoma patients was typed for TNF (-308) polymorphism using an allele-specific polymerase chain reaction (PCR) and for LTalpha (+252) polymorphism with a PCR-based restriction fragment length polymorphism. The presence of the TNF allele involved in increased TNF gene transcription was associated with higher plasma levels of this cytokine at the time of lymphoma diagnosis (chi2 test, P = .013). An extended haplotype analysis showed that the presence of at least two TNF or LTalpha high-producer alleles constituted a risk factor for first-line treatment failure (chi2 test, P = .021), shorter progression-free survival (log-rank test, P = .0007), and overall survival (log-rank test, P = .012). In the subgroup of 126 patients with diffuse large-cell lymphoma, the presence of two or more TNF/LTalpha high producing alleles contributed significantly to a higher rate of relapse and progression (log-rank test, P = .045 and P = .027). In multivariate Cox regression models including the variables of the International Prognostic Index, the TNF/LTalpha haplotype status was found to be an independent risk factor for progression-free survival (relative risk 2.33, 95% confidence interval [1.17 to 4.64], P = . 0053) and overall survival (relative risk 1.92, 95% confidence interval [0.63 to 5.80], P = .081) of large-cell lymphoma patients. These results indicate that genetic polymorphism leading to increased TNF production influences the outcome of NHL and suggest a pathophysiological role for the genetic control of the immune response in lymphoid malignancies.
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PMID:Genetic polymorphisms in the tumor necrosis factor locus influence non-Hodgkin's lymphoma outcome. 957 91

Previously, we have reported that neutralization of surface lymphotoxin (LT-alphabeta) in mice which expressed an LT-beta receptor-Fc fusion protein, driven by the cytomegalovirus promoter, resulted in an array of anatomic abnormalities. We now report that mice which express a tumor necrosis factor (TNF) receptor p60-Fc fusion protein (which neutralizes TNF and soluble LT-alpha3 activity) develop unique lymphoid abnormalities. Our data demonstrate that some aspects of peripheral lymphoid organ development require both surface LT-alphabeta and TNF interacting with their specific receptors. However, these related cytokines are also capable of signaling distinct developmental events. Splenic MAdCAM-1 expression, follicular dendritic cell localization and normal Peyer's patch development all require both surface LT-alphabeta and TNF activity. Marginal zone formation and splenic B cell localization primarily require surface LT-alphabeta-LT-beta receptor interactions. Primary follicle formation was dependent upon TNF receptor(s) engagement. Interestingly spleen, lymph nodes and Peyer's patches from TNF receptor p60-Fc-expressing mice all develop different abnormalities, suggesting distinct pathways of development in these lymphoid organs. Thymus development appears to be independent of these signaling pathways. These results demonstrate that TNF and LT are crucial for normal peripheral, but not central lymphoid organ development.
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PMID:Effects of tumor necrosis factor and lymphotoxin on peripheral lymphoid tissue development. 967 53

During fetal lymph node organogenesis in mice, lymph node postcapillary high endothelial venules briefly express the Peyer's patch addressin MAdCAM-1. This allows initial seeding by two unusual lymphocyte populations selectively expressing the Peyer's patch homing receptor integrin alpha4beta 7: CD4+CD3- oligolineage progenitors and TCR gammadelta+ T cells. It was found that the CD4+CD3- cells are lineage-restricted progenitors that express surface lymphotoxin-beta (LTbeta) and the chemokine receptor BLR1. They can differentiate into natural killer cells, dendritic antigen-presenting cells, and follicular cells of unknown outcome, but these cells do not become T or B lymphocytes. In addition to LN, CD4+CD3- cells can also be found in fetal spleen starting at 13.5 dpc, while absent from fetal liver. In view of the necessity of lymphotoxin in lymphoid organ development, it is thought that the novel subset of CD4+CD3- LTbeta+ fetal cells is instrumental in the development of lymphoid tissue architecture.
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PMID:MAdCAM-1 dependent colonization of developing lymph nodes involves a unique subset of CD4+CD3- hematolymphoid cells. 982 59

Activation of lymphotoxin-beta receptor (LT-betaR) by conjugation with heterotrimeric lymphotoxin, LT-alpha1/beta2, or by cross-linking with anti-LT-betaR antibodies can trigger apoptosis. We have observed that overexpression of either LT-betaR or the cytoplasmic domain of LT-betaR (LT-betaR(CD)) also induces apoptosis, which may be attributed to the tendency of LT-betaR(CD) to self-associate. The self-association domain of LT-betaR(CD) was mapped to amino acids 324-377, a region of the protein that is also essential for LT-betaR-induced apoptosis. Furthermore, we have shown that LT-betaR(CD)-induced apoptosis could be inhibited by a TRAF3 dominant negative mutant and by the caspase inhibitors Z-VAD-FMK, DEVD-FMK, and CrmA. The ligand-independent apoptosis induced by LT-betaR(CD) will help us to further dissect LT-betaR signaling pathway.
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PMID:The cytoplasmic domain of the lymphotoxin-beta receptor mediates cell death in HeLa cells. 1020 6

Four members of the tumor necrosis factor (TNF) ligand family, TNF-alpha, LT-alpha, LT-beta, and LIGHT, interact with four receptors of the TNF/nerve growth factor family, the p55 TNF receptor (CD120a), the p75 TNF receptor (CD120b), the lymphotoxin beta receptor (LT beta R), and herpes virus entry mediator (HVEM) to control a wide range of innate and adaptive immune response functions. Of these, the most thoroughly studied are cell death induction and regulation of the inflammatory process. Fas/Apo1 (CD95), a receptor of the TNF receptor family activated by a distinct ligand, induces death in cells through mechanisms shared with CD120a. The last four years have seen a proliferation in knowledge of the proteins participating in the signaling by the TNF system and CD95. The downstream signaling molecules identified so far--caspases, phospholipases, the three known mitogen activated protein (MAP) kinase pathways, and the NF-kappa B activation cascade--mediate the effects of other inducers as well. However, the molecules that initiate these signaling events, including the death domain- and TNF receptor associated factor (TRAF) domain-containing adapter proteins and the signaling enzymes associated with them, are largely unique to the TNF/nerve growth factor receptor family.
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PMID:Tumor necrosis factor receptor and Fas signaling mechanisms. 1035 62

Genes encoding fragments of polypeptide chains of murine lymphotoxins (LT), namely, LT-alpha truncated from the N-terminus and the LT-beta extracellular domain, containing N-terminal hepta- and hexahistidine epitopes, respectively, were expressed in E. coli cells. The recombinant proteins purified by metallochelate chromatography were used to obtain polyclonal antibodies that specifically recognize murine LT.
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PMID:[Heterologous expression of murine lymphotoxins in Escherichia coli and preparation of antibodies]. 1042 93

Lymphoid organ development and inflammation have previously been considered as distinct mechanistically and functionally. In recent years, it has been realized that these phenomena have much in common. This insight has been gained from the recognition that cytokines of the lymphotoxin (LT)/tumor necrosis factor (TNF) family are involved in both processes. The members of the family, LT-alpha, LT-beta, and TNF-alpha, and their multiple receptors participate combinatorially in lymphoid organ development and chronic inflammation. When inflammation that arises in microbial infection or autoimmune disease becomes chronic, it can take on the appearance of organized lymphoid tissue and has been called a tertiary lymphoid organ. Data with transgenic and knockout mice suggest that the process is cytokine-mediated and could be called "lymphoid neo-organogenesis." LT as LT-alpha3 and LT-alpha1beta2 plays a key role in these processes. Data obtained in vitro in an endothelial cell line and in vivo in transgenic and knockout mice indicate that LT influences these events through induction of adhesion molecules such as E-selectin adhesion molecule (ELAM), vascular cell adhesion molecule (VCAM), intercellular adhesion molecule (ICAM), mucosal addressin cellular adhesion molecule (MAdCAM), and peripheral node addressin (PNAd), and chemokines.
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PMID:Lymphoid neo-organogenesis: lymphotoxin's role in inflammation and development. 1049 67

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