Definition of microsatellite size variants for Tnfa and Hsp70 in autoimmune and nonautoimmune mouse strains

Tumour necrosis factor alpha in systemic lupus erythematosus and anti-DNA autoantibody production

Tumour necrosis factor (TNFalpha) is a cytokine with a wide range of diverse and at times paradoxical effects. These include immunoregulatory, lymphoid organogenesis and pro-inflammatory effects. In recent years, TNFalpha has become a focus of interest more for its inflammatory effects in a number of chronic autoimmune diseases. This interest culminated in the successful treatment of patients with rheumatoid arthritis, Crohn's diseases and ankylosing spondylitis with blocking antibodies or soluble TNFalpha receptors. Paradoxically, however, TNFalpha also has immunomodulatory effects in some autoimmune conditions such as lupus in some mouse models of the disease and in diabetes in the none-obese diabetic mouse. The role TNFalpha plays in human systemic lupus erythematosus is, however, controversial. In this article we review some of the studies carried out to elucidate the effects of TNFalpha in lupus disease and likely mechanisms of action. Further, we discuss recent data on the likely effects of blocking TNFalpha on anti-DNA autoantibody production.

Delayed lupus onset in (NZB x NZW)F1 mice expressing a human C-reactive protein transgene

OBJECTIVE

Human C-reactive protein (CRP) binds apoptotic cells and alters blood clearance of injected chromatin in mice. To test whether CRP participates in the pathogenesis of systemic lupus erythematosus (SLE), we examined disease development in lupus-prone (NZB x NZW)F(1) (NZB/NZW) mice expressing a human CRP transgene (hCRPtg/BW).

METHODS

Mortality was monitored, proteinuria was determined by dipstick, and serum levels of human CRP and anti-double-stranded DNA (anti-dsDNA) were determined by enzyme-linked immunosorbent assay in NZB/NZW and hCRPtg/BW mice. Thin sections of kidneys were analyzed by immunofluorescence microscopy to compare deposition of IgG, IgM, C3, and human CRP, and electron microscopy was used to reveal differences in ultrastructure. In situ hybridization was performed to detect human CRP messenger RNA expression.

RESULTS

The hCRPtg/BW mice had less proteinuria and longer survival than NZB/NZW mice. They also had lower IgM and higher IgG anti-dsDNA titers than NZB/NZW mice, although the differences were transient and small. In hCRPtg/BW mice, accumulation of IgM and IgG in the renal glomeruli was delayed, reduced, and more mesangial than in NZB/NZW mice, while end-stage accumulation of IgG, IgM, and C3 in the renal cortex was prevented. There was less glomerular podocyte fusion, basement membrane thickening, mesangial cell proliferation, and occlusion of capillary lumens in hCRPtg/BW mice, but dense deposits in the mesangium were increased. With disease progression in hCRPtg/BW mice, there was little rise in the plasma CRP level, but CRP in the kidneys became increasingly apparent due to local, disease-independent, age-related expression of the transgene.

CONCLUSION

In hCRPtg/BW mice, CRP protects against SLE by increasing blood and mesangial clearance of immune complexes and by preventing their accumulation in the renal cortex.

Host immune responses in the course of bovine leukemia virus infection

Bovine leukemia virus (BLV) is a type C retrovirus infecting bovine B cells and causing enzootic bovine leukosis. Since it takes long periods to develop the disease, it is believed that BLV and host immune responses are closely related. In this review, the accumulated data showing close relationship between BLV and host immune responses are summarized in 4 sections. First, we discuss the role of cell-mediated immunity in protecting hosts from BLV infection. Second, several reports showing the relationship between the disease progression and the change of cytokine profiles are summarized. In the third section, we have focused on tumor necrosis factor alpha (TNFalpha) and its two types of receptors, and the possible involvement of TNFalpha in the BLV-induced leukemogenesis is discussed. The expression of TNFalpha has been shown to be regulated by major histocompatibility complex (MHC) haplotype. The resistance to BLV infection is supposed to be established by some innate factors, which are closely related to MHC haplotype. Finally, we propose that a breeding strategy based on the MHC haplotype could be a good approach to control BLV infection. This review includes some recent data from us and other groups.

Selective co-evolution of the D6STNFa microsatellite region with HLA class I and II loci

We analyzed the HLA-A, -B, -DR and -DQ phenotypes and 12 microsatellite locus genotypes within and close to the major histocompatibility complex in a panel of 98 randomly selected, healthy, unrelated Dutch Caucasoid individuals. Allele frequencies and Hardy-Weinberg equilibrium (HWE) were calculated. Also, the linkage disequilibrium patterns between HLA and microsatellite loci were studied. The HLA-A, -B, -DR, -DQ and six microsatellite loci centromeric of the HLA-A showed HWE. In contrast, all microsatellites telomeric of the HLA-A showed deviation from HWE due to excess of homozygosity. Linkage disequilibrium analyses provided strong evidence that among the tested microsatellite loci only the alleles of the D6STNFa locus are in linkage disequilibrium with both HLA-B and -DR. Our results suggest that selection acting on the HLA genes includes the D6STNFa locus and linked genes.

Association between polymorphisms in the TNF region and systemic lupus erythematosus in the Italian population

The purpose of this work was to the hypothesis that MHC encoded susceptibility factors for SLE lie in the TNF region. An association study was performed by analyzing 123 northern Italian SLE patients and 199 matched controls for three TNF markers: two polymorphisms in the TNFA promoter and the TNFa microsatellite. Haplotypic combinations of TNF markers were also compared in patients and controls. No significant association was observed considering either the whole SLE panel or SLE clinical and immunological subtypes. Three TNF-238/A homozygous patients were detected, while no homozygote was present in controls. The clinical and immunological phenotype of the three -238/A homozygotes suggests that the -238/AA genotype is a marker of a particular clinical subtype.

Avridine-induced arthritis in rats; a T cell-dependent chronic disease influenced both by MHC genes and by non-MHC genes

Avridine is a potent synthetic adjuvant that can induce arthritis is most rat strains. The clinical appearance and histopathology of avridine-induced arthritis show great similarity to other arthritis models such as collagen-induced arthritis. In LEW and DA rats the avridine-induced arthritis is severe and long lasting. To investigate a possible genetic influence on the disease we compared LEW, DA and E3 rats, which are of different genetic origins, for their ability to develop arthritis after injection of a low dose of avridine (1.5 mg/rat). The E3 rat was shown to be resistant, whereas all of the DA rats developed arthritis. Recombinant inbred strains derived from DA and E3 parentals varied in susceptibility to avridine. Only strains sharing RT1av1 with DA developed arthritis, indicating a role for the MHC genes. The MHC association was further analysed in a series of Lewis congenic strains using the 1.5 mg avridine dose. All strains developed arthritis. LEW.1C and LEW.1W developed only acute arthritis, whereas LEW.1A, LEW, LEW.1D, LEW.1N and LEW.1F developed chronic arthritis. In particular, the LEW.1F rats developed a chronic severe arthritis of high incidence. The chronic arthritis showed an active, erosive joint inflammation several months after induction. Nude rats are resistant to avridine-induced arthritis, indicating a T cell dependence of the disease which supports the importance of MHC. However, non-MHC genes are also crucial to arthritis development. Recombinants between DA and E3, sharing RT1av1 with DA, showed either a lower incidence or a lower severity of disease than the DA rats. The E3 rat and the recombinants with RT1u were completely resistant, whereas LEW.1W, also RT1u, were highly susceptible.

Genetic aspects of the hsp70 multigene family in vertebrates

The family of genes encoding heat shock proteins of about 70 kDa (hsp70) in vertebrates is reviewed under genetic aspects. After a detailed description of the various hsp70 genes more general characteristics of the organization and evolution of the multigene family are discussed.

The role of genetic factors in multiple sclerosis susceptibility

There has been increasing evidence that genetic factors have a role in determining susceptibility to MS. Re-examination of results from prevalence and migration surveys reveals that there remains considerable ambiguity in interpretation. Some patterns previously thought to decisively support environmental determination may still be explained, at least in part, on a genetic basis. It seems inescapable that MS is probably due to an interaction of genetic and environmental factors. It remains undetermined whether or not genes exist which are truly necessary for the development of the disease. Existing data are consistent with the notion that the study of MS susceptibility will parallel the findings in experimental models of spontaneous autoimmunity and that at very least, two genes and almost certainly several genes will be found to influence susceptibility and interact in as yet unknown ways. One of these loci appears to be the Class II MHC, although its role may be minor at the germ line level. Roles for the T-cell receptor alpha and beta loci appear to be minor and may even be non-existent in contributing to heritable susceptibility. We predict that additional loci will be identified which influence both susceptibility and outcome and will be more important. Furthermore, it is clear that the understanding of the contribution of individual susceptibility loci will continue to be difficult because of the constraints of human pedigree data. It is likely that further resolution of the questions posed above related to genetic susceptibility in MS will require multicenter collaboration.

Comparative analysis of the three major histocompatibility complex-linked heat shock protein 70 (Hsp70) genes of the rat

The organization of the three major histocompatibility complex (Mhc)-linked heat shock protein 70 (Hsp70) genes Hsp70-1, Hsp70-2, and Hsp70-3, and the nucleotide sequences of these genes, are presented for the rat. Hsp70-1 and Hsp70-2 gene products are identical at the amino acid level. From the pattern of sequence similarity of the orthologous Mhc-linked Hsp70 genes of rat, human, and mouse, it is concluded that the gene duplications leading to the three-gene cluster occurred before the separation of the primate and rodent lines and that the Hsp70-1 and Hsp70-2 genes of rat and human might have undergone homogenization of their sequences.

Expression of a transgenic class II Ab gene confers susceptibility to collagen-induced arthritis

The major histocompatibility complex (MHC) class II region is assumed to influence autoimmune diseases such as rheumatoid arthritis. In the mouse, the H-2q haplotype is associated with susceptibility to collagen-induced arthritis, while the H-2p haplotype is not. The class II A molecules of these haplotypes differ by only four amino acids in the first domain of the beta chain. To test if this difference accounts for the MHC influence on susceptibility to collagen-induced arthritis, H-2p mice were made transgenic with an Abp gene altered to resemble the Abq gene. The transgenic A beta chain hybridized with the A alpha p chain and was shown to be physiologically expressed by testing antigen-presentation capacity to Aq-restricted T cell hybridomas and with FACS analyses. These transgenic mice developed an autoimmune response to type II collagen and also collagen-induced arthritis. The data unequivocally suggest the Ab gene as a major genetic susceptibility locus for autoimmune collagen-induced arthritis.

Studies on the role of tumor necrosis factor in murine and human autoimmunity

We have analyzed the roles of tumor necrosis factor alpha (TNF-alpha) in human systemic lupus erythematosus (SLE) and murine models of lupus as well as in type 1 diabetes in NOD mice. These studies suggest an important role for TNF-alpha in the pathogenesis of autoimmune disease. Rather than being involved mainly in the effector arm of the inflammatory process of autoimmune organ destruction, our data suggest a primary involvement in some of the basic mechanisms of the autoimmune process. Evidence has been presented that emphasizes the possibility of the involvement of this cytokine in the genetic predisposition to SLE. The data may imply that the effect of TNF on the immune system may be more relevant to the pathogenesis of the autoimmune disease than direct local effects at some target organs. Based on the data presented, one should be cautious in extrapolating the effects of this cytokine in various in vitro systems to the in vivo situation.