Elevated Synovial Fluid Concentration of Monocyte Chemoattractant Protein-1 and Interleukin-8 in Dogs with Osteoarthritis of the Stifle.

Chemokines such as monocyte chemoattractant protein-1 (MCP-1) and interleukin-8 (IL-8) have been shown to cause monocyte and natural killer cell chemotaxis and polymorphonuclear cell chemotaxis, respectively. Additionally, MCP-1 signalling has been implicated in modulating pain. Elevated synovial fluid concentrations of MCP-1 and IL-8 have been demonstrated in humans with osteoarthritis, but currently there are no studies evaluating synovial MCP-1 or IL-8 concentrations in dogs. Additionally, there are no canine studies evaluating the correlation between these chemokines and caregiver perceived pain and mobility, as measured by the clinical metrology instrument, Liverpool Osteoarthritis in Dogs. This study documented elevated synovial fluid concentrations of IL-8 and MCP-1 in the stifle of dogs with secondary osteoarthritis compared with normal stifles. However, this study found no correlation between MCP-1 or IL-8 and Liverpool Osteoarthritis in Dogs or radiographic severity of osteoarthritis.

A long-lived IL-2 mutein that selectively activates and expands regulatory T cells as a therapy for autoimmune disease.

Susceptibility to multiple autoimmune diseases is associated with common gene polymorphisms influencing IL-2 signaling and Treg function, making Treg-specific expansion by IL-2 a compelling therapeutic approach to treatment. As an in vivo IL-2 half-life enhancer we used a non-targeted, effector-function-silent human IgG1 as a fusion protein. An IL-2 mutein (N88D) with reduced binding to the intermediate affinity IL-2Rßγ receptor was engineered with a stoichiometry of two IL-2N88D molecules per IgG, i.e. IgG-(IL-2N88D)2. The reduced affinity of IgG-(IL-2N88D)2 for the IL-2Rßγ receptor resulted in a Treg-selective molecule in human whole blood pSTAT5 assays. Treatment of cynomolgus monkeys with single low doses of IgG-(IL-2N88D)2 induced sustained preferential activation of Tregs accompanied by a corresponding 10-14-fold increase in CD4+ and CD8+ CD25+FOXP3+ Tregs; conditions that had no effect on CD4+ or CD8+ memory effector T cells. The expanded cynomolgus Tregs had demethylated FOXP3 and CTLA4 epigenetic signatures characteristic of functionally suppressive cells. Humanized mice had similar selective in vivo responses; IgG-(IL-2N88D)2 increased Tregs while wild-type IgG-IL-2 increased NK cells in addition to Tregs. The expanded human Tregs had demethylated FOXP3 and CTLA4 signatures and were immunosuppressive. These results describe a next-generation immunotherapy using a long-lived and Treg-selective IL-2 that activates and expands functional Tregsin vivo. Patients should benefit from restored immune homeostasis in a personalized fashion to the extent that their autoimmune disease condition dictates opening up the possibility for remissions and cures.

High salivary soluble L-selectin and interleukin-7 levels in Asian Indian patients with primary Sjögren's syndrome.

In present study, we aimed to study salivary soluble L-selectin (sL-selectin), interleukin-7(IjL-7), and lymphotoxin-α levels in primary Sjögren's syndrome (pSS) and their clinical as well as serological correlations. pSS patients fulfilling either the American European Consensus Group (AECG) and/or the American college of Rheumatology (ACR) criteria were recruited. Age- and sex-matched hospital staff were recruited as healthy controls. Unstimulated saliva was collected by the spitting method; sL-selectin, IL-7, and lymphotoxin-α were measured in the saliva using commercial ELISA kits. Forty-three patients with pSS and 31 healthy controls were included in the study. Increased levels of sL-selectin and IL-7 were found in the saliva of patients as compared to controls. Lymphotoxin-α was undetectable in the saliva of pSS patients and controls. Salivary sL-selectin positively correlated with rheumatoid factor (r = 0.47; p < 0.003). No other variable including ESSDAI was significantly associated with salivary sL-selectin and IL-7 levels. Indian patients with primary Sjögren's syndrome have higher salivary sL-selectin and IL-7 levels than healthy controls.

Nucleotide polymorphisms in the bovine lymphotoxin A gene and their distribution among Bos indicus zebu cattle breeds.

The present study was undertaken to characterize the genetic variation present in lymphoxin A gene (LTA gene) encoding for the lymphotoxin A protein also known as tumor necrosis factor beta, a cytokine produced by lymphocytes, known to be cytotoxic for a wide range of tumor cells both in vitro and in vivo, and, which is essential for normal immunological development; in 40 animals of 5 diverse Bos indicus Indian zebu cattle breeds. These breeds survive under the harsh and tough tropical climatic conditions of various parts of the Indian subcontinent. The LTA gene in the present study was observed to contain 33 SNPs and 3 small insertion/deletion polymorphisms. Four SNPs occurred in the coding regions of the gene viz. g.1327A>G and g.1400C>T in exon 2 and g.1840C>T and g.1942C>T in exon 3, of which the SNP g.1327A>G in exon 2 resulted in a non-synonymous amino acid change G38D. This amino acid change was however predicted not be affecting the protein function in any manner. The gene contained putative transcription factor binding sites for the c-Re1 and for Pax-4 transcription factors. A putative promoter region was also predicted on the reverse DNA strand from position 894 to 644. Several repeat elements and microsatellite repeats were detected to be occurring across the 3.2kb LTA gene sequence. The study showed the occurrence of 40 genotypes and 48 most probable haplotypes. The genotypes at the observed SNP positions in the LTA gene were in near Hardy-Weinberg equilibrium. A negative Tajima's D value that was not significant statistically at P>0.10 indicated that the neutral mutation hypothesis could not be excluded. The genetic variations observed in the LTA gene in the present study have not been reported earlier and these could possibly be used as molecular markers for further studies involving association of the gene variability with disease resistance/tolerance traits.

Molecular dissection of the interactions of an antitumor interleukin-2-derived mutein on a phage display-based platform.

A mutein with stronger antitumor activity and lower toxicity than wild-type human interleukin-2 (IL-2) has been recently described. The rationale behind its design was to reinforce the immunostimulatory potential through the introduction of four mutations that would selectively disrupt the interaction with the IL-2 receptor alpha chain (thought to be critical for both IL-2-driven expansion of T regulatory cells and IL-2-mediated toxic effects). Despite the successful results of the mutein in several tumor models, characterization of its interactions was still to be performed. The current work, based on phage display of IL-2-derived variants, showed the individual contribution of each mutation to the impairment of alpha chain binding. A more sensitive assay, based on the ability of phage-displayed IL-2 variants to induce proliferation of the IL-2-dependent CTLL-2 cell line, revealed differences between the mutated variants. The results validated the mutein design, highlighting the importance of the combined effects of the four mutations. The developed phage display-based platform is robust and sensitive, allows a fast comparative evaluation of multiple variants, and could be broadly used to engineer IL-2 and related cytokines, accelerating the development of cytokine-derived therapeutics.

Lymphotoxin α induces apoptosis, necroptosis and inflammatory signals with the same potency as tumour necrosis factor.

Both of the TNF superfamily ligands, TNF and LTα, can bind and signal through TNFR1 and TNFR2, yet mice mutant for each have different phenotypes. Part of this difference is because LTα but not TNF can activate Herpes Virus Entry Mediator and also heterotrimerise with LTß to activate LTßR, which is consistent with the similar phenotypes of the LTα and LTßR deficient mice. However, it has also been reported that the LTα3 homotrimer signals differently than TNF through TNFR1, and has unique roles in initiation and exacerbation of some inflammatory diseases. Our modeling of the TNF/TNFR1 interface compared to the LTα3/TNFR1 structure revealed some differences that could affect signalling by the two ligands. To determine whether there were any functional differences in the ability of TNF and LTα3 to induce TNFR1-dependent apoptosis or necroptosis, and if there were different requirements for cIAPs and Sharpin to transmit the TNFR1 signal, we compared the ability of cells to respond to TNF and LTα3. Contrary to our hypothesis, we were unable to discover differences in signalling by TNFR1 in response to TNF and LTα3. Our results imply that the reasons for the conservation of LTα are most likely due either to differential regulation, the ability to signal through Herpes Virus Entry Mediator or the ability of LTα to form heterotrimers with LTß.

Mutants of lymphotoxin-α with augmented cytotoxic activity via TNFR1 for use in cancer therapy.

The cytokine lymphotoxin-α (LTα) is a promising candidate for use in cancer therapy. However, the instability of LTαin vivo and the insufficient levels of tumor necrosis factor receptor 1 (TNFR1)-mediated bioactivity of LTα limit its therapeutic potential. Here, we created LTα mutants with increased TNFR1-mediated bioactivity by using a phage display technique. We constructed a phage library displaying lysine-deficient structural variants of LTα with randomized amino acid residues. After affinity panning, we screened three clones of lysine-deficient LTα mutant, and identified a LTα mutant with TNFR1-mediated bioactivity that was 32 times that of the wild-type LTα (wtLTα). When compared with wtLTα, the selected clone showed augmented affinity to TNFR1 due to slow dissociation rather than rapid association. In contrast, the mutant showed only 4 times the TNFR2-mediated activity of wtLTα. In addition, the LTα mutant strongly and rapidly activated caspases that induce TNFR1-mediated cell death, whereas the mutant and wtLTα activated nuclear factor-kappa B to a similar extent. Our data suggest that the kinetics of LTα binding to TNFR1 play an important role in signal transduction patterns, and a TNFR1-selective LTα mutant with augmented bioactivity would be a superior candidate for cancer therapy.

The methionine-aromatic motif plays a unique role in stabilizing protein structure.

Of the 20 amino acids, the precise function of methionine (Met) remains among the least well understood. To establish a determining characteristic of methionine that fundamentally differentiates it from purely hydrophobic residues, we have used in vitro cellular experiments, molecular simulations, quantum calculations, and a bioinformatics screen of the Protein Data Bank. We show that approximately one-third of all known protein structures contain an energetically stabilizing Met-aromatic motif and, remarkably, that greater than 10,000 structures contain this motif more than 10 times. Critically, we show that as compared with a purely hydrophobic interaction, the Met-aromatic motif yields an additional stabilization of 1-1.5 kcal/mol. To highlight its importance and to dissect the energetic underpinnings of this motif, we have studied two clinically relevant TNF ligand-receptor complexes, namely TRAIL-DR5 and LTα-TNFR1. In both cases, we show that the motif is necessary for high affinity ligand binding as well as function. Additionally, we highlight previously overlooked instances of the motif in several disease-related Met mutations. Our results strongly suggest that the Met-aromatic motif should be exploited in the rational design of therapeutics targeting a range of proteins.

Are different stoichiometries feasible for complexes between lymphotoxin-alpha and tumor necrosis factor receptor 1?

BACKGROUND: Tumor necrosis factors, TNF and lymphotoxin-α (LT), are cytokines that bind to two receptors, TNFR1 and TNFR2 (TNF-receptor 1 and 2) to trigger their signaling cascades. The exact mechanism of ligand-induced receptor activation is still unclear. It is generally assumed that three receptors bind to the homotrimeric ligand to trigger a signaling event. Recent evidence, though, has raised doubts if the ligand:receptor stoichiometry should indeed be 3:3 for ligand-induced cellular response. We used molecular dynamics simulations, elastic network models, as well as MM/PBSA to analyze this question. RESULTS: Applying MM/PBSA methodology to different stoichiometric complexes of human LT-(TNFR1)n=1,2,3 the free energy of binding in these complexes has been estimated by single-trajectory and separate-trajectory methods. Simulation studies rationalized the favorable binding energy in the LT-(TNFR1)1 complex, as evaluated from single-trajectory analysis to be an outcome of the interaction of cysteine-rich domain 4 (CRD4) and the ligand. Elastic network models (ENMs) help to associate the difference in the global fluctuation of the receptors in these complexes. Functionally relevant transformation associated with these complexes reveal the difference in the dynamics of the receptor when free and in complex with LT. CONCLUSIONS: MM/PBSA predicts complexes with a ligand-receptor molar ratio of 3:1 and 3:2 to be energetically favorable. The high affinity associated with LT-(TNFR1)1 is due to the interaction between the CRD4 domain with LT. The global dynamics ascertained from ENMs have highlighted the differential dynamics of the receptor in different states.

Biology and signal transduction pathways of the Lymphotoxin-αß/LTßR system.

This review focuses on the biological functions and signalling pathways activated by Lymphotoxin α (LTα)/Lymphotoxin ß (LTß) and their receptor LTßR. Genetic mouse models shed light on crucial roles for LT/LTßR to build and to maintain the architecture of lymphoid organs and to ensure an adapted immune response against invading pathogens. However, chronic inflammation, autoimmunity, cell death or cancer development are disorders that occur when the LT/LTßR system is twisted. Biological inhibitors, such as antagonist antibodies or decoy receptors, have been developed and used in clinical trials for diseases associated to the LT/LTßR system. Recent progress in the understanding of cellular trafficking and NF-κB signalling pathways downstream of LTα/LTß may bring new opportunities to develop therapeutics that target the pathological functions of these cytokines.

Microfluidic electrochemical sensor array for characterizing protein interactions with various functionalized surfaces.

We present a unique microfluidic platform to allow for quick and sensitive probing of protein adsorption to various functionalized surfaces. The ability to tailor a sensor surface for a specific analyte is crucial for the successful application of portable gas and fluid sensors and is of great interest to the drug screening community. However, choosing the correct surface chemistry to successfully passivate against nonspecific binding typically requires repeated trial and error experiments. The presented device incorporates an array of integrated electrochemical sensors for fast, sensitive, label-free detection of these binding interactions. The layout of the electrodes allows for loading various surface chemistries in one direction while sensing their interactions with particular compounds in another without any cross-contamination. Impedance data is collected for three commonly used passivation compounds (mercaptohexanol, polyethylene glycol, and bovine serum albumin) and demonstrates their interaction with three commonly studied proteins in genetic and cancer research (cAMP receptor protein, tumor necrosis factor α, and tumor necrosis factor ß). The ability to quickly characterize various surface interactions provides knowledge for selecting optimal functionalization for any biosensor.

Creation of lysine-deficient mutant lymphotoxin-alpha with receptor selectivity by using a phage display system.

The cytokine lymphotoxin-alpha (LT alpha) activates various biological functions through its three receptor subtypes, tumor necrosis factor receptor 1 (TNFR1), TNFR2 and herpes virus entry mediator (HVEM), but the relative contribution of each receptor to each function is unclear. Therefore it is important to create mutant LT alpha with receptor selectivity for optimized cancer therapy and the analysis of receptor function. Here, we attempted to create a lysine-deficient mutant LT alpha with TNFR1-selective bioactivity using a phage display technique. We obtained the TNFR1-selective mutant LT alpha R1selLT, which contained the mutations K19N, K28Q, K39S, K84Q, K89V, and K119H. Compared with wild-type LT alpha (wtLT alpha), R1selLT showed several-fold higher bioactivity via TNFR1 but 40-fold lower bioactivity via TNFR2. Kinetic association-dissociation parameters of R1selLT with TNFR2 were higher than those of wtLT alpha, whereas these parameters of R1selLT with TNFR1 were lower than those of wtLT alpha, suggesting that destabilization of the R1selLT-TNFR2 complex causes the decreased bioactivity of R1selLT on TNFR2. We also showed that the K84Q mutation contributed to the enhanced activity via TNFR1, and K39S lowered activity via TNFR2. R1selLT likely will be useful in cancer therapy and in analysis of the LT alpha structure-function relationship.

Genomic organization and phylogenetic utility of deer mouse (Peromyscus maniculatus) lymphotoxin-alpha and lymphotoxin-beta.

BACKGROUND: Deer mice (Peromyscus maniculatus) are among the most common mammals in North America and are important reservoirs of several human pathogens, including Sin Nombre hantavirus (SNV). SNV can establish a life-long apathogenic infection in deer mice, which can shed virus in excrement for transmission to humans. Patients that die from hantavirus cardiopulmonary syndrome (HCPS) have been found to express several proinflammatory cytokines, including lymphotoxin (LT), in the lungs. It is thought that these cytokines contribute to the pathogenesis of HCPS. LT is not expressed by virus-specific CD4+ T cells from infected deer mice, suggesting a limited role for this pathway in reservoir responses to hantaviruses. RESULTS: We have cloned the genes encoding deer mouse LTalpha and LTbeta and have found them to be highly similar to orthologous rodent sequences but with some differences in promoters elements. The phylogenetic analyses performed on the LTalpha, LTbeta, and combined data sets yielded a strongly-supported sister-group relationship between the two murines (the house mouse and the rat). The deer mouse, a sigmodontine, appeared as the sister group to the murine clade in all of the analyses. High bootstrap values characterized the grouping of murids. CONCLUSION: No conspicuous differences compared to other species are present in the predicted amino acid sequences of LTalpha or LTbeta; however, some promoter differences were noted in LTbeta. Although more extensive taxonomic sampling is required to confirm the results of our analyses, the preliminary findings indicate that both genes (analyzed both separately and in combination) hold potential for resolving relationships among rodents and other mammals at the subfamily level.

Tumour necrosis factor and its receptor: a basic structural analysis of two counterparts.

Inflammation of vessels is partially caused by tumour necrosis factor (TNF). Although the pharmacological understanding of the main inflammatory protein data is well characterised, basic structural information is rare. For this reason, we developed a method for the representation and analysis of the macromolecular interface between TNF and its receptor, enabling a better understanding of their interaction. In this paper we use structural information on the TNF-receptor complex in the protein (PDB) database as input to calculate an interface contact matrix, based on the distance between individual residues of each counterpart. The two-dimensional matrix is a plot of pairwise interactions between adjacent residues of the two chains in the protein complex. The residue names within each chain are plotted on the respective axis and an entry is made wherever two residues come into close contact. The matrix elements are annotated with physicochemical properties. The interface contact matrix is linked to a 3D visualisation of the macromolecular structure in such a way that mouse clicking on the appropriate part of the interface contact matrix highlights the corresponding residues in the 3D structure. Additionally the residues in the matrix are used to define the molecular surface at the interface. The interface contact matrix enables an overview representation of the residue distribution at the macromolecular interface and an evaluation of interfacial 'hot spots'. The selection of the residues in the interface contact matrix and the highlighting in the 3D structure allow an easy retrieval of the desired information out of the wealth of structural information. The representation with molecular surfaces shows complementary shapes. Many forms of treatment have been developed to reduce excessive TNF activity and their success is based on knowledge of the active sites of TNF. Our macromolecular interface analysis system will help us to define better receptor and acceptor molecules for the neutralisation and excretion of TNF.

Contribution of TNF-alpha to Obesity-Associated Insulin Resistance

Entre las complicaciones asociadas a la Obesidad, tiene una especial relevanciael desarrollo de resistencia a la insulina, siendo el primer eslabón de unaamplia patología conocida como diabetes tipo 2. La Obesidad se considera comoun estado crónico de inflamación de baja intensidad, como indican los nivelescirculantes elevados de moléculas proinflamatorias. Se ha propuesto al TNF-alfacomo el nexo de unión entre adiposidad y desarrollo de resistencia a insulina yaque la mayoría de los pacientes con diabetes tipo 2 son obesos y tienen aumentadala expresión de TNF-alfa en sus adipocitos, y los animales obesos deleccionados parala función del TNF-alfa o su receptor no desarrollan resistencia a insulina. Las citocinasproinflamatorias producidas por los adipocitos y/o macrófagos activan quinasasde estrés, proinflamatorias y factores de transcripción que actúan sobre lostejidos periféricos (entre ellos el músculo, así como el propio tejido adiposo) produciendoresistencia a la acción de la insulina, que es un defecto en la señalizacióna varios niveles. En concreto, el TNF-alfa activa la quinasa p38MAPK que fosforilaen residuos de serina a los IRSs, bloqueando su fosforilación en tirosina en respuestaa la insulina, tanto en adipocitos marrones como en miocitos. Muy recientementehemos observado que la fosfatasa PTP1B también está implicada en laresistencia a insulina por TNF-alfa en ambos modelos. En la Clínica se está utilizandoactualmente el tratamiento con tiazolidindionas en pacientes con diabetes tipo2. Otros agonistas de receptores nucleares empiezan a aparecer en la bibliografíacomo potenciales sensibilizadores a acción de la insulina, entre ellos el LXR, quepuede antagonizar la señalización proinflamatoria tanto en los propios adipocitoscomo en el músculo

Insulin resistance is an important contributor to the pathogenesis of type 2diabetes, and obesity is a risk factor for its development, due in part to the factthat adipose tissue secretes proteins called adipokines, that may influence insulinsensitivity. Among these molecules, TNF-alpha has been proposed as a link betweenobesity and insulin resistance because TNF-alpha is overexpressed in adipose tissuesof obese animals and humans, and obese mice lacking either TNF-alpha or its receptorshow protection for developing insulin resistance. The direct exposure to TNF-alphainduced a state of insulin resistance on glucose uptake in myocytes and brownadipocytes, due to the activation of pro-inflammatory pathways that impair insulin-signaling at the level of the IRS proteins. In this regard the residue Ser307 inIRS-1 has been identified as a site for TNF-alpha-inhibitory effects in myotubes, with p38MAPK and IKK being involved in the phosphorylation of this residue. Conversely,serine phosphorylation of IRS-2 mediated by TNF-alpha activation of MAPKs wasthe mechanism found in brown adipocytes. The phosphatase PTP1B acts as aphysiological negative regulator of insulin signaling by dephosphorylating the phosphotyrosineresidues of the insulin receptor and IRS-1, and PTP1B expression isincreased in muscle and white adipose tissue of obese and diabetic humans androdents. Moreover, up-regulation of PTP1B expression was recently found in cellstreated with TNF-alpha. Accordingly, myocytes and primary brown adipocytes deficienton PTP1B are protected against insulin resistance by this cytokine. Furthermore,down-regulation of PTP1B activity is also possible by the use of pharmacologicalagonists of nuclear receptors that restore insulin sensitivity in the presenceof TNF-alpha. In conclusion, the lack of PTP1B in muscle and brown adipocytesincreases insulin sensitivity and glucose uptake and could confer protection againstinsulin resistance induced by adipokines

Stoichiometry of LTbetaR binding to LIGHT.

LTbetaR is a member of the TNF receptor family of proteins. It binds to two different cell surface ligands, LIGHT, a homotypic trimer, and LTalpha1beta2, a heterotypic trimer. We have measured the affinities of the dimeric IgG fusion protein, LTbetaRIgG, and monomeric LTbetaR protein binding to both LIGHT and LTalpha1beta2 using surface plasmon resonance and found values of <0.1 and 38 nM for LIGHT and <0.1 and 48 nM for LTalpha1beta2, respectively. We also determined the stoichiometries of binding for both forms of the receptor LTbetaRIgG and LTbetaR binding to LIGHT. The data obtained from several biophysical methods are consistent with receptor polypeptide to trimeric ligand ratios of 2:1. The determined masses of the complexes using SEC-LS corresponded to a single LTbetaRIgG bound to a LIGHT trimer, or two LTbetaR bound per LIGHT. Sedimentation velocity of varied ratios of LTbetaR to a fixed concentration of LIGHT were analyzed by SEDANAL and were successfully fit with a model with two tight binding sites on LIGHT and one poor affinity site. Isothermal calorimetric titration of LIGHT with either LTbetaR or LTbetaRIgG also demonstrated stoichiometries of 1:2 and 1:1, respectively. The binding of LTbetaR to LIGHT was endothermic and, hence, entropy-driven. TNFR p55 (extracellular domain) complexed with the trimeric ligand, TNFbeta, exhibits a 3:1 receptor/ligand stoichiometry. This complex has been used as the prototypical model setting the receptor-ligand complexation paradigm for the entire TNF family. The LTbetaR/LIGHT binding stoichiometry of 2:1 demonstrated here does not fit the paradigm. This has numerous implications for cell biology including signaling requiring only dimerization of LTbetaR rather than trimerization as expected from the structural paradigm.

Identification and expression analysis of lymphotoxin-beta like homologues in rainbow trout Oncorhynchus mykiss.

A lymphotoxin-beta (LT-beta) gene has been cloned and sequenced in rainbow trout and provides the first conclusive evidence for the existence of LT-beta in teleost. Two isoforms of LT-beta were isolated. LT-beta1 cDNA was composed of 952 bp (with a 139 bp 5'-UTR and a 201 bp 3'-UTR) and LT-beta2 cDNA was 836 bp (with a 237 bp 5'-UTR and a 197 bp 3'-UTR) both of which translated into a protein of 203 amino acid residues. Both isoforms contained a predicted transmembrane domain of 21 amino acid residues (Leu11-Val31) and the TNF family signature (Val104-Phe120). Homology and phylogenetic analysis of trout LT-beta's with other known TNF family member showed good similarity to TNF-N (teleost) and other LT-beta (mammals and frog). LT-beta1 and TNF-alpha (1 and 2) genes were highly expressed in unstimulated trout head kidney, spleen, gill and intestine, whereas LT-beta2 was weakly expressed only in the gill. The expression of LT-beta1 and -beta2 genes was not found in macrophage (RTS-11) and fibroblast (RTG-2) like cell lines, although the TNF-alpha2 gene was expressed in both cell lines with the TNF-alpha1 gene only expressed in RTS-11 cells. In head kidney cells, expression of LT-beta1 and TNF-alpha (1, 2) genes was increased by stimulation with PHA or LPS. The discovery of trout LT-beta will allow a more complete analysis of fish inflammatory responses.

Transforming activity of the lymphotoxin-beta receptor revealed by expression screening.

Pancreatic ductal carcinoma (PDC) remains one of the most intractable human malignancies. To obtain insight into the molecular pathogenesis of PDC, we constructed a retroviral cDNA expression library with total RNA isolated from the PDC cell line MiaPaCa-2. Screening of this library with the use of a focus formation assay with NIH 3T3 mouse fibroblasts resulted in the identification of 13 independent genes with transforming activity. One of the cDNAs thus identified encodes an NH(2)-terminally truncated form of the lymphotoxin-beta receptor (LTBR). The transforming activity of this short-type LTBR in 3T3 cells was confirmed by both an in vitro assay of cell growth in soft agar and an in vivo assay of tumorigenicity in nude mice. The full-length (wild-type) LTBR protein was also found to manifest similar transforming activity. These observations suggest that LTBR, which belongs to the tumor necrosis factor receptor superfamily of proteins, may contribute to human carcinogenesis.

Tumor necrosis factors.

Since the discovery of tumor necrosis factor (TNF) and lymphotoxin, many structurally related factors have been elucidated in mammals that are grouped together in the TNF Ligand Superfamily. These factors have profound pleiotropic roles involving inflammation, apoptosis, cell proliferation and stimulation of the immune system. TNF has only been isolated from mammals and fish. While two TNFs (alpha and beta) are present in mammals, it appears that only one form of TNF is found in fish that is more similar in structure and genomic organization to mammalian TNFalpha. TNF transcripts are expressed in both mammals and fish with similar kinetics, and the involvement of NF-kappaB in TNF expression in fish suggests that transcriptional regulation may be similar within vertebrates. Mammalian TNFalpha stimulates macrophage activity in fish and birds, and in both groups of vertebrates, macrophage-derived supernatants have been shown to contain TNF-like activities, suggesting the presence of bioactive native TNFalpha.