VAV1 regulates experimental autoimmune arthritis and is associated with anti-CCP negative rheumatoid arthritis.

Rheumatoid arthritis (RA) patients can be stratified into two subgroups defined by the presence or absence of antibodies against citrullinated circular peptides (anti-CCP) with most of the genetic association found in anti-CCP positive RA. Here we addressed the role of VAV1, previously associated to multiple sclerosis (MS), in the pathogenesis of RA in experimental models and in a genetic association study. Experimental arthritis triggered by pristane or collagen type II was induced in DA rats and in the DA.BN-R25 congenic line that carries a polymorphism in Vav1. Difference in arthritis severity was observed only after immunization with pristane. In a case-control study, 34 SNPs from VAV1 locus were analyzed by Immunochip genotyping in 11475 RA patients (7573 anti-CCP positive and 3902 negative) and 15,870 controls in six cohorts of European Caucasians. A combination of the previous MS-associated haplotype and two additional SNPs was associated with anti-CCP negative RA (alleles G-G-A-A of rs682626-rs2546133-rs2617822-rs12979659, OR=1.13, P=1.27 × 10-5). The same markers also contributed to activity of RA at baseline with the strongest association in the anti-CCP negative group for the rs682626-rs12979659 G-A haplotype (ß=-0.283, P=0.0048). Our study suggests a role for VAV1 and T-cell signaling in the pathology of anti-CCP-negative RA.

Genetic control of HgCl2-induced IgE and autoimmunity by a 117-kb interval on rat chromosome 9 through CD4 CD45RChigh T cells.

Gold or mercury salts trigger a dramatic IgE response and a CD4 T-cell-dependent nephropathy in Brown-Norway (BN), but not in Lewis (LEW) rats. We previously identified the 1.1-Mb Iresp3 (immunoglobin response QTL3) locus on chromosome 9 that controls these gold salt-triggered immune disorders. In the present work, we investigated the genetic control of HgCl(2)-induced immunological disorders and assessed the relative contribution of the CD45RC(high) and CD45RC(low) CD4 T-cell subpopulations in this control. By using interval-specific congenic lines, we narrowed down Iresp3 locus to 117-kb and showed that BN rats congenic for the LEW 117-kb were protected from HgCl(2)-triggered IgE response and nephropathy. This 117-kb interval also controls CD45RC expression by CD4 T cells and the ability of CD45RC(high) CD4 T cells to trigger the autoimmune disorders resulting from HgCl(2) administration. This 117-kb region contains four genes, including Vav1, a strong candidate gene according to its cellular function and exclusive expression in hematopoietic cells. Thus, this study highlights the role of the CD45RC(high) CD4 T-cell subpopulation in the opposite susceptibility of BN and LEW rats to HgCl(2)-triggered immune disorders and identifies a 117-kb interval on chromosome 9 that has a key role in their functions.

Induction of autoimmunity through bystander effects. Lessons from immunological disorders induced by heavy metals.

Autoreactive T cells exist in healthy individuals and represent a potential reservoir of pathogenic effectors which, when stimulated by microbial adjuvants, could trigger an autoimmune disease. Experimental studies have indicated that xenobiotics, well defined from a chemical point of view, could promote the differentiation of autoreactive T cells towards a pathogenic pathway. It is therefore theoretically possible that compounds present in vaccines such as thiomersal or aluminium hydroxyde can trigger autoimmune reactions through bystander effects. Mercury and gold in rodents can induce immunological disorders with autoimmune reactions. In vitro, both activate signal transduction pathways that result in the expression of cytokines, particularly of IL-4 and IFNgamma. In a suitable microenvironment heavy metals could therefore favour the activation of autoreactive T cells. In that respect, genetic background is of major importance. Genome-wide searches in the rat have shown that overlapping chromosomal regions control the immunological disorders induced by gold salt treatment, the development of experimental autoimmune encephalomyelitis and the CD45RC(high)/CD45RC(low)CD4(+)T cells balance. The identification and functional characterization of genes controlling these phenotypes may shed light on key regulatory mechanisms of immune responses. This should help to improve efficacy and safety of vaccines.

The balance between CD45RChigh and CD45RClow CD4 T cells in rats is intrinsic to bone marrow-derived cells and is genetically controlled.

The level of CD45RC expression differentiates rat CD4 T cells in two subpopulations, CD45RC(high) and CD45RC(low), that have different cytokine profiles and functions. Interestingly, Lewis (LEW) and Brown Norway (BN) rats, two strains that differ in their ability to mount type 1 and type 2 immune responses and in their susceptibility to autoimmune diseases, exhibit distinct CD45RC(high)/CD45RC(low) CD4 T cell ratios. The CD45RC(high) subpopulation predominates in LEW rats, and the CD45RC(low) subpopulation in BN rats. In this study, we found that the antiinflammatory cytokines, IL-4, IL-10, and IL-13, are exclusively produced by the CD45RC(low) CD4 T cells. Using bone marrow chimeras, we showed that the difference in the CD45RC(high)/CD45RC(low) CD4 T cell ratio between naive LEW and BN rats is intrinsic to hemopoietic cells. Furthermore, a genome-wide search for loci controlling the balance between T cell subpopulations was conducted in a (LEW x BN) F(2) intercross. Genome scanning identified one quantitative trait locus on chromosome 9 (approximately 17 centiMorgan (cM); log of the odds ratio (LOD) score 3.9). In addition, two regions on chromosomes 10 (approximately 28 cM; LOD score 3.1) and 20 (approximately 40 cM; LOD ratio score 3) that contain, respectively, a cytokine gene cluster and the MHC region were suggestive for linkage. Interestingly, overlapping regions on these chromosomes have been implicated in the susceptibility to various immune-mediated disorders. The identification and functional characterization of genes in these regions controlling the CD45RC(high)/CD45RC(low) Th cell subpopulations may shed light on key regulatory mechanisms of pathogenic immune responses.

Cellular and genetic factors involved in the difference between Brown Norway and Lewis rats to develop respectively type-2 and type-1 immune-mediated diseases.

The understanding of the mechanisms of immune tolerance and the unravelling of the pathophysiology of autoimmune diseases rely on animal models. In this respect, BN and LEW rats represent models of choice to study immune-mediated diseases from the cellular and genetic points of view. Indeed, BN and LEW rats are extremes with respect to their polarisation of the immune response as well as their susceptibility to autoimmune diseases. LEW rats are susceptible to Th1-mediated autoimmune diseases while BN rats are highly susceptible to Th2-mediated autoimmune disease. Comparison of the T cell compartment between LEW and BN rats revealed several important differences. 1) A MHC-dependent quantitative difference that is due to a defect in the CD8 T cell compartment in BN rats. 2) A qualitative MHC-independent difference that is related to a high frequency of CD45RClow CD4 and CD8 T cell subsets, producing IL-4, IL-13, IL-10 and TGF-beta in BN rats as compared to LEW rats. 3) Interestingly, the genetic studies showed that susceptibility to Th1-mediated experimental autoimmune encephalomyelitis, and to Th2-mediated disorders triggered by gold salts as well as the difference in the CD4SRChigh/CD45RClow ratio between LEW and BN rats are genetically determined by regions on chromosomes 9, 10 and 20.

Anti-SSA/Ro52 autoantibodies blocking the cardiac 5-HT4 serotoninergic receptor could explain neonatal lupus congenital heart block.

The 52-kDa SSA/Ro (Ro52) ribonucleoprotein is an antigenic target strongly associated with the autoimmune response in mothers whose children develop neonatal lupus and congenital heart block. When sera from patients with systemic lupus erythematosus were used as autoimmune controls in an enzyme immunoassay to screen for antibodies against the human serotoninergic 5-HT4-receptor, a high correlation was found between the presence of anti-Ro52 protein antibodies in such sera and antibodies reacting with a synthetic peptide, corresponding to the second extracellular loop of the human 5-HT4 receptor (amino acid residues 165-185). Homology scanning between the 5-HT4 peptide and the sequence of the Ro52 protein indicated two potential common epitopes located between residues 365 and 396 of the Ro52 protein. Cross-reactivity was found between the peptide derived from the 5-HT4 receptor, and a peptide corresponding to residues 365-382 of the Ro52 protein. Autoantibodies, affinity-purified on the 5-HT4 receptor peptide, specifically recognized both the Ro52 protein and the 5-HT4 receptor protein in immunoblots. The affinity-purified antibodies antagonized the serotonin-induced L-type Ca channel activation on human atrial cells. This effect could explain the electrophysiological abnormalities in neonatal lupus.

Rat chromosome 9 bears a major susceptibility locus for IgE response.

Injection of Brown Norway (BN) rats with gold salts provides a model to analyze the genetic control of the IgE response. A cohort of F2 progeny of susceptible BN and resistant LEW strains has been studied to carry out a genome-wide search for loci controlling the IgE response. Genome scanning identified two previously described loci, Atps1 and Atps2, and a new locus, Atps3. Atps1 linked to the MHC and Atps2 linked to the cytokine gene cluster that included the IL-4 region have been previously associated with serum IgE concentrations and with other Th2-dependent immune manifestations triggered by gold salts. The new interval, Atps3, identified on chromosome 9 (Lod score = 16), appears to play a major role in the control of the IgE response since it accounts for 31% of the genetic variance. Moreover, Atps3 is linked to anti-laminin antibody response and to glomerular immunoglobulin deposits. The identification and functional characterization of genes involved in these regions, particularly in Atps3, may shed light on the pathogenesis of atopic diseases in man.

Antigen specificity of anti-nuclear antibodies complexed to nucleosomes determines glomerular basement membrane binding in vivo.

Monoclonal anti-nuclear antibodies which are complexed to nucleosomes are able to bind to the glomerular basement membrane (GBM) in vivo, whereas purified antibodies do not bind. The positively charged histone moieties in the nucleosome are-responsible for the binding to anionic determinants in the GBM. We tested the hypothesis that the specificity of the autoantibodies complexed to the nucleosome influences the glomerular binding of the antibody-nucleosome complex. We induced the formation of these immune complexes in vivo, by intraperitoneal inoculation of hybridomas producing monoclonal anti-nuclear antibodies (four anti-histone, three anti-double stranded (ds)DNA and three anti-nucleosome antibodies) into nude BALB/c mice. In ascites and plasma from the mice inoculated with these hybridomas, nucleosome/autoantibody complexes were detected in comparable amounts. Immunofluorescence of kidney sections revealed that about 60% of the mice inoculated with anti-nucleosome or anti-dsDNA hybridomas had immunoglobulin deposits in the GBM, whereas only 15% of the mice with anti-histone hybridomas showed these deposits (p < or = 0.04). In the Matrigel-ELISA (used as a GBM surrogate) ascites from anti-nucleosome or anti-DNA hybridomas displayed significantly higher titers (p < or = 0.002) than ascites from anti-histone hybridomas. In conclusion, nucleosome/immunoglobulin complexes comprising anti-nucleosome or anti-dsDNA auto-antibodies do bind more frequently to the GBM in vivo than nucleosome/immunoglobulin complexes containing anti-histone antibodies. It therefore appears that the specificity of the antibody bound to the nucleosome is a critical determinant for the nephritogenic potential of the nucleosome-autoantibody complex.

Nucleosome-dependent escape of tumor cells from natural-killer-mediated lysis: nucleosomes are taken up by target cells and act at a postconjugation level.

Our previous data suggested that chromatin fragments released from dead cells into the extracellular medium could be involved in the impairment of natural-killer (NK)-mediated cytotoxicity reported in cancer patients. In the present study, an inhibition of the NK-mediated lysis was obtained in vitro by nucleosome addition to different tumor target cells, independently of their sensitivity to NK-mediated lysis. We observed a rapid endocytosis and degradation of nucleosomes by K562 tumor target cells and (although to a much lesser extent) a binding to a subpopulation of lymphocytes. Nucleosomes impaired neither the conjugation step nor the expression of adhesion molecules at the effector (CD11a, CD18, CD2) or target (CD54, CD58) cell surface. On the contrary, flow-cytometry analysis of the conjugation suggested that nucleosomes might stabilize the conjugates. Investigations of the killing process showed that nucleosomes decreased the NK cytotoxic potential without modifying Ca2+-dependent lethal-hit-delivery kinetics. The cytotoxic potential was not restored by increasing the available magnesium and calcium concentrations in the extracellular medium. Taken together, the results suggest that the inhibition of NK-mediated lysis by nucleosomes may result from alterations of the NK mechanism at the postconjugation level and after lethal-hit delivery. Hence, the inhibition could involve a delay in the recycling of effector cells, or a resistance of tumor target cells to NK cells.

Detection of nucleosome-IgG immune complexes in ascites from mice transplanted with anti-DNA antibody-secreting hybridomas and in plasma from MRL-lpr/lpr mice.

Autoantibodies directed against chromatin components characterize lupus diseases. Immune complexes made of these autoantibodies bound to nucleosomes released from dead cells could play some pathogenic role. The aims of this study were to investigate if nucleosome-IgG complexes could contaminate IgG anti-DNA MoAb preparations, and if such complexes circulate in lupus diseases. A new method was set up using preformed nucleosome-IgG complexes. Complexes were adsorbed onto microplate through Fc binding and nucleosomal DNA was detected by internal incorporation of labelled nucleotide. Using this method, high amounts of complexes were found in ascites from mice transplanted with anti-DNA antibody-secreting hybridomas. In some ascites, nucleosome was found to be strongly associated with the MoAb, confirming that nucleosome-IgG complexes could contaminate monoclonal autoantibody preparations. In MRL-lpr/lpr mice, nucleosome-IgG complexes were detected at 16-24 weeks of age at a time when kidney lesions are rapidly worsening, raising the question of their pathogenic significance.

A chemiluminescent microplate assay to detect DNA damage induced by genotoxic treatments.

A damaged DNA detection assay (3D assay) using plasmid DNA adsorbed on sensitized microplates as the substrate for an in vitro repair reaction is presented. DNA lesions are repaired by the excision repair pathway which implies an incision-excision reaction followed by DNA repair synthesis. In the 3D assay, we took advantage of (i) plasmid DNA adsorption on polylysine-coated microplates that allowed various DNA-damaging treatments; (ii) a protein extract that reproduced the repair reaction in vitro; (iii) incorporation of digoxigenylated deoxynucleotide monophosphate during the DNA polymerization step which was quantified by a chemiluminescent reaction. Under experimental conditions for quantitative DNA adsorption, a dose-response relationship between the extent of DNA modification and the repair synthesis activity was found. Optimization of the biochemical parameters with UVC light-induced DNA lesions allowed the detection of about one photoproduct per plasmid circle. This new assay that permits a quick and easy assessment of DNA damage is applicable to the screening of genotoxic compounds and to the testing of DNA-damaging treatments.

Evidence for a dual effect of acebutolol, a beta blocker, on the mouse humoral immune response.

Acebutolol induces transient polyclonal B cell activation in C57B1/6 mice but down-modulates the spontaneous polyclonal activation of NZBxNZW lupus mice. The immunomodulatory effects of this beta-blocker were studied in C57l/6 mice injected with LPS or immunized with sheep red blood cells. The effect of acebutolol on the polyclonal activation of lymphocytes induced by LPS was also investigated in heterozygous and nu/nu C57BL/6 mice. Finally, the direct effect of acebutolol on spleen cells was studied in vitro. Acebutolol treatment for 15 days (50mg/kg/day) inhibited the polyclonal activation of lymphocytes induced by LPS in C57BL/6 and in C57BI/6 nu/nu mice, but increased the humoral response to sheep red blood cells in C57Bl/6 mice. Moreover, spleen cells from C57Bl/6 mice treated for 15 days with acebutolol showed an increased number of CD5+ and CD4+ lymphocytes, as well as an increased reactivity to concanavalin A but not to LPS. In vitro, acebutolol at 10(-5)-10(-7) M induced an increased reactivity of spleen cells from naive mice to concanavalin A, whereas it did not affect the B cell responsiveness to LPS. These results indicate that acebutolol modulates both T-cells and non T-cells in the immune system.

Study of LDL and acetylated LDL endocytosis by mononuclear cells in HIV infection.

Activated lymphocytes have a high level of low density lipoprotein (LDL) uptake as compared to resting lymphocytes, whereas scavenger receptors for acetylated LDL (Ac-LDL) are expressed on limited number of immune cells, i.e., monocytes/macrophages. The endocytosis of LDL and Ac-LDL by mononuclear cells was studied during in vitro and in vivo HIV infection, in order to use LDL and Ac-LDL as carriers of antiviral and/or immunomodulatory drugs towards lymphocytes and monocytes. The uptake of LDL and Ac-LDL was analyzed by cytofluorimetry. LDL endocytosis in PHA/IL2-activated lymphocytes was higher than in resting lymphocytes. In vitro HIV infection of PHA/IL2-activated lymphocytes did not alter the high LDL endocytosis in lymphocytes. CD4+ and CD8+ cells. In a group of 12 symptomatic patients there was no alteration of LDL endocytosis in lymphocytes, CD4 and CD8 lymphocytes. In another group of 23 individuals, the Ac-LDL endocytosis mediated by CD14+ monocytes was unaltered in asymptomatic patients (n = 6) and in some symptomatic patients (n = 6, CD14+ cells > 100/mm3). On the contrary, in other symptomatic patients (n = 11, CD14+ cells < 100/mm3), the number of Ac-LDL+ CD14+ cells decreased, whereas their efficiency of Ac-LDL endocytosis increased as compared to those of other HIV+ patients. In conclusion, the use of lipoproteins as carriers to increase the drug delivery to CD4+ lymphocytes and to CD14+ monocytes can be envisaged, since: (i) the LDL endocytosis was not impaired in CD4 lymphocytes of HIV+ patients, and (ii) the Ac-LDL uptake by monocytes was altered only in some patients of stage IV.

Plasma DNA as a marker of cancerous cell death. Investigations in patients suffering from lung cancer and in nude mice bearing human tumours.

Plasma DNA that circulates mainly as mononucleosomes is a cell death marker. Its significance and prognostic value in cancer as compared to other tumour markers was investigated in 68 patients hospitalised for lung cancers. Prognostic values of the various studied parameters were evaluated using the Cox's model. The cellular origin of plasma DNA was further investigated in nude mice transplanted with human lung adenocarcinoma. Plasma DNA concentrations were increased in cancer patients as compared to normal subjects (P < 0.01). They were higher in patients with extended (Stage 4) disease than in patients with limited stage disease (P < 0.05). Plasma DNA concentrations, serum lactate dehydrogenase activities and neuron-specific enolase concentrations were correlated all together in small cell lung carcinoma (SCLC) and in non-SCLC. Similar relationships were found between survival and each of these three cell death/tumour markers (P < 0.02-0.005). Plasma DNA from mice bearing human tumour hybridised with both mouse and human plasma DNA, while plasma DNA from endotoxin-injected mice hybridised only with mouse plasma DNA. In conclusion, in patients suffering from lung cancer, plasma DNA as well as LDH and NSE represent cell death markers that are correlated with survival. At a time when apoptosis pathways appear to be potential targets for cancer therapy, plasma DNA is a cell death/tumour marker that should be taken into account in studying the cancerous process in human diseases.

LDL and acetyl-LDL inhibit the NK activity and are taken up by CD56+ lymphocytes.

The effect of LDL and modified LDL (acetyl-LDL) was studied on human natural killer cell-mediated cytotoxicity against K562 cells. Incubation for 24 h of peripheral blood lymphocytes (PBL) with a high concentration (200 micrograms/ml) of LDL decreased the NK activity in some donors. After acetylation of the LDL protein (apoB), the modified-LDL systematically inhibited the NK function of PBL in a time- and dose-dependent manner. Inhibition mediated by acetyl-LDL (AcLDL) was significantly greater than that of LDL, indicating that the apoB modification can mediate the inhibition of the NK function. AcLDL also inhibited the NK activity of peripheral blood mononuclear cells, suggesting that, under our experimental conditions, monocytes are not efficient enough to protect NK cells against the adverse effects of modified-LDL. With a cytofluorimetric analysis, the internalization of acetyl-LDL by PBL was demonstrated and was only 3-4 times lower than LDL internalization in lymphocytes. It appeared to be time, temperature and dose dependent, saturable and different from the internalization mediated by the known scavenger receptors. Finally, CD14- CD3+ lymphocytes and CD14- CD56+ lymphocytes were able to internalize AcLDL in the same way. Our results suggest that in some in vivo circumstances, when the LDL concentration and/or the modified-LDL/LDL ratio increase in tissues, lipoproteins are internalized by NK cells and also can induce adverse effects on the NK function.

Urinary DNA as an indicator of nephrotoxicity caused by endotoxin and gentamicin in mice.

Extracellular DNA is a non-specific marker of cell death. Urinary DNA, as an indicator of nephrotoxicity, was investigated in endotoxin/gentamicin-injected mice. In mice injected both with endotoxin (15 mg/kg) and gentamicin (80 mg/kg), urinary DNA concentration was markedly increased for several days; in contrast, there was at most a slight and transient excretion of DNA in mice receiving gentamicin or endotoxin alone. Plasma DNA concentrations increased for 24-48 h in endotoxin-injected mice, then decreased rapidly. Mice injected with gentamicin and endotoxin showed widespread and severe kidney lesions with tubular cell necrosis and intraluminal casts while mice receiving gentamicin or endotoxin alone showed at most few and mild lesions. In mice receiving lower doses of endotoxin (5-10 mg/kg) and 80 mg/kg gentamicin, urinary DNA peaked at 72-96 h, at a time when plasma DNA had returned to normal concentrations. Maximal urinary DNA concentrations depended upon endotoxin dose. In conclusion, urinary DNA is a marker of definite cell death occurring in the urinary tract and could represent a new indicator of nephrotoxicity in clinical and experimental situations.

In vitro inhibition of natural-killer-mediated lysis by chromatin fragments.

A qualitative impairment of natural killer (NK) function and the presence of circulating DNA have been independently reported in clinical situations such as cancer and lupus. The existence of receptors for chromatin fragments at the leukocyte membrane raised the question of the relation between the presence of chromatin fragments in the extracellular medium and the impairment of NK function. The present study shows that plasmas from patients with metastatic cancer and with pathological DNA concentrations inhibited significantly the NK activity of normal lymphocytes as compared to cancer plasmas with DNA concentrations in the normal range. In vitro, it was demonstrated that chromatin fragments inhibited the NK-mediated cytotoxicity in a dose-dependent manner. Inhibitory concentrations of nucleosomes (2.5-10 micrograms/ml) were lower than those of DNA and histones alone (100 micrograms/ml). Inhibitory effects of nucleosomes, DNA and histones differed also according to the effector population used: nucleosomes were effective whatever the CD56+ cell enrichment of the effector population, while DNA inhibition needed T cells, and histone inhibition probably resulted from a subtoxic effect, prevented by the presence of adherent cells. Finally we found that nucleosomes could inhibit the NK function only when they were present in the extracellular medium. Taken together, these data suggest that the persistence of nucleosomal DNA at sites of cell death or in the blood might be responsible, at least partly, for the NK activity impairment observed in pathological circumstances characterized by a high rate of cell death phenomena such as cancer.

Autoimmunity to histones, ubiquitin, and ubiquitinated histone H2A in NZB x NZW and MRL-lpr/lpr mice. Anti-histone antibodies are concentrated in glomerular eluates of lupus mice.

In lupus diseases products of chromatin catabolism released from dead cells might be involved in the induction of autoantibody and in the development of glomerulonephritis. While the pathogenic role of anti-DNA antibodies is recognized, the role of antibodies directed against structural proteins of chromatin is still questioned. IgG antibodies to histones, ubiquitin, and ubiquitinated histone H2A (UH2A) have been investigated both in plasma and in glomerular eluates of NZB x NZW and MRL-lpr/lpr mice. In NZB x NZW mice, anti-ubiquitin and anti-UH2A antibodies were detected at 8 weeks of age, simultaneously with anti-double-stranded DNA antibodies, whereas anti-histone antibodies appeared later. In MRL-lpr/lpr mice, anti-DNA antibodies were detected at 4 weeks, whereas anti-histone, anti-ubiquitin, and anti-UH2A antibodies were not detected at that age but appeared in plasma rapidly thereafter. In both strains, increased anti-histone activity was found in IgG eluted from glomeruli. These results support the suggestion that anti-histone antibodies are likely to play a pathogenic role in lupus nephritis. They also indicate that, like human lupus, murine lupus is characterized by the production of anti-ubiquitin and anti-UH2A antibodies.