Protective and detrimental immunity: lessons from stiff person syndrome and multiple sclerosis.

BACKGROUND: The immune system may attack the brain and cause inflammatory disorders like multiple sclerosis (MS). On the other hand, the immune system may protect and support neurons. METHODS: There are two obstacles to study this paradox in humans. First, the target antigens in many human central nervous system (CNS) disorders are unknown. Second, it is often difficult to separate pathogenic from protective events, as well as primary from secondary phenomena. Idiopathic stiff person syndrome (SPS) circumvents the first obstacle, because most patients secrete antibodies against glutamic acid decarboxylase (GAD) 65. The immune response against glatiramer acetate (GA) may circumvent the second obstacle. Migration of activated T helper cells to the intrathecal compartment could be a common denominator in GA treatment and SPS. RESULTS: We here discuss recent results on T cells in MS and SPS, showing that GAD65-specific and GA-reactive lymphocytes in the cerebrospinal fluid are not a simple reflection of those in blood. CONCLUSION: The rules and mechanisms governing T cell selection and maintenance in the CNS may provide a key to the understanding of protective and detrimental aspects of CNS immunity.

MS and clinically isolated syndromes: shared specificity but diverging clonal patterns of virus-specific IgG antibodies produced in vivo and by CSF B cells in vitro.

BACKGROUND: Intrathecal synthesis of oligoclonal IgG antibodies against measles virus (MeV), varicella zoster virus (VZV) and herpes simplex virus type-1 (HSV-1) is a characteristic feature multiple sclerosis (MS). METHODS: We have used isoelectric focusing-immunoblot to define the clonal patterns of IgG and of IgG antibodies to MeV, VZV and HSV-1 in supernatants of in vitro cultures of peripheral blood lymphocytes (PBL) and cerebrospinal fluid (CSF) cells and in sera and CSF from three patients with MS and three patients with clinically isolated syndromes (CIS) suspective of demyelinating disease. RESULTS: In vitro synthesis of IgG by PBL was not detected in any patient. In contrast, in vitro synthesis by CSF cells of oligoclonal IgG and oligoclonal IgG antibodies to one or two of the three viruses tested was observed in all six patients. The clonal patterns of the in vitro synthesized IgG and virus specific IgG differed to varying extent from those synthesized intrathecally in vivo. However, in each patient, the in vitro and in vivo intrathecally produced antibodies displayed specificity for the same viruses. The addition of B cell activating factor (BAFF) had no effect on the amounts or clonal patterns of either total IgG or virus-specific IgG produced by CSF cells in vitro. CONCLUSION: Virus specific B cells capable of spontaneous IgG synthesis are clonally expanded in the CSF of patients with MS. The B-cell repertoire in CSF samples is only partially representative of the intrathecal B-cell repertoire.

Multiple sclerosis: glatiramer acetate induces anti-inflammatory T cells in the cerebrospinal fluid.

Glatiramer acetate (GA) is believed to induce GA-reactive T cells that secrete anti-inflammatory cytokines at the site of inflammation in multiple sclerosis (MS). However, GA-reactive T cells have not been established from the intrathecal compartment of MS patients, and intrathecal T cells may differ from T cells in blood. Here, we compared the phenotype of GA-reactive T cells from the cerebrospinal fluid (CSF) and blood of five MS patients treated with GA for 3-36 months, and in three of these patients also before treatment. From the CSF of these patients, all 22 T cell lines generated before and all 38 T cell lines generated during treatment were GA-reactive. GA treatment induced a more pronounced anti-inflammatory profile of GA-reactive T cell lines from CSF than from blood. While GA-reactive T cell clones from CSF were restricted by either human leukocyte antigen (HLA) -DR or HLA-DP, only HLA-DR restricted GA-reactive T cell clones were detected in blood. No cross reactivity with myelin proteins was detected in GA-reactive T cell lines or clones from CSF. These results suggest that a selected subset of GA-reactive T cells are present in the intrathecal compartment, and support an anti-inflammatory mechanism of action for GA.

GAD65 IgG autoantibodies in stiff person syndrome: clonality, avidity and persistence.

BACKGROUND AND PURPOSE: Persistent intrathecal production of IgG autoantibodies against glutamic acid decarboxylase 65 (GAD65 IgG) and oligoclonal IgG of undetermined specificity has been reported in stiff person syndrome (SPS). METHODS: To chart the avidity and clonal patterns of GAD65 IgG, we performed scatchard plot of binding characteristics and isoelectric focusing-immunoblot of cerebrospinal fluid (CSF) and serum from five SPS patients. RESULTS: Oligoclonal GAD65 IgG bands, predominantly restricted to the IgG1 subclass, were detected in CSF and serum in all patients. The distribution of GAD65-specific IgG bands in serum and CSF revealed intrathecal synthesis of oligoclonal GAD65 IgG in all five patients, whilst radioimmunoassay demonstrated intrathecal synthesis of GAD65 IgG in four. The binding avidity of GAD65 IgG from CSF was more than 10 times higher than in serum in two of the patients but did not differ substantially in the remaining three. These differences were not related to symptom severity. The pattern of oligoclonal GAD65 IgG bands in CSF and serum in three patients examined remained unchanged for up to 7 years after symptom debut. CONCLUSION: This study confirms the persistent systemic and intrathecal production of GAD65-specific IgG in SPS, and further shows that this immune response is oligoclonal and mediated by a stable population of affinity maturated B cell clones.

The immunological basis for treatment of multiple sclerosis.

During the last few years, the concept of multiple sclerosis (MS) as a pure inflammatory disease mediated by myelin reactive T cells has been challenged. Neither the specificity nor the mechanisms triggering or perpetuating the immune response are understood. Genetic studies have so far not identified therapeutic targets outside the HLA complex, but epidemiological and immunological studies have suggested putative pathogenetic factors which may be important in therapy or prevention, including the Epstein-Barr virus and vitamin D. Advances in the treatment of MS have been reached by manipulating the immune response where the pathogenesis of MS intersects experimental autoimmune encephalomyelitis, most recently by blocking T-cell migration through the blood-brain barrier. Antigen-specific approaches are effective in experimental models driven by a focused immune response against defined autoantigens, but MS may not fit into this concept. Novel candidate autoantigens which are not constitutively expressed in the brain, such as protein alpha-B crystallin or IgG V-region idiotopes, as well as evidence of pathogenetic heterogeneity and complexity, suggest that treating MS by tolerizing the immune system against an universal MS antigen may be a fata morgana. Further characterization of MS subtypes may lead to individualized treatment. However, shared immunological features, such as intrathecal production of oligoclonal IgG, suggest that potential therapeutic targets may be shared by most MS patients.

T cells from multiple sclerosis patients recognize multiple epitopes on Self-IgG.

The highly diversified variable regions of immunoglobulin (Ig) molecules contain immunogenic determinants denoted idiotopes. We have previously reported that T cells from multiple sclerosis (MS) patients recognize IgG from autologous cerebrospinal fluid (CSF), and mapped a T-cell epitope to an IgG idiotope. To test the ability of CSF IgG molecules to elicit a broad polyclonal T-cell response in MS, we have analysed T-cell responses in the blood and CSF against idiotope peptides spanning complementarity determining region (CDR) 3 and somatic mutations within the variable regions of monoclonal CSF IgG. Consistent with a diversified idiotope-specific T-cell repertoire, CD4(+) T cells from both patients recognized several idiotope peptides presented by HLA-DR molecules. Mutations were critical for T-cell recognition, as T cells specific for a mutated CDR1 peptide did not recognize corresponding germline-encoded peptides. One T-cell clone recognized both an idiotope peptide and the B-cell clone expressing this idiotope, compatible with endogenous processing and presentation of this idiotope by B cells. These results suggest that mutated CSF IgG from MS patients carry several T-cell epitopes, which could mediate intrathecal IgG production and inflammation in MS through idiotope-driven T-B-cell collaboration.

Genes in the HLA class I region may contribute to the HLA class II-associated genetic susceptibility to multiple sclerosis.

In order to analyze whether loci in the human leukocyte antigen (HLA) class I region may contribute to the HLA class II-associated genetic susceptibility to multiple sclerosis (MS), we examined selected microsatellite markers in 177 Nordic sib-pair families, 222 British sib-pair families, 323 sporadic Norwegian MS patients and 386 Norwegian controls. All samples were, in addition, genotyped for the HLA-DR DQ haplotype, and the Norwegian case-control samples were also typed for HLA-A and -B loci. In the Norwegian sporadic MS patients association was seen with HLA-A, HLA-B, and with the D6S265 marker, located 100 kb centromeric to HLA-A. Associations with HLA-A and D6S265 loci were also suggested when restricting the analysis to HLA-DR15 haplotypes. In the sib-pair data a similar trend was seen with marker D6S265. Higher genotypic relative risk (GRR) was found for individuals who carry both HLA-DR15 and -A3 (GRR = 15), compared to those who carry only HLA-DR15 (GRR = 7), only HLA-A3 (GRR = 3) or none of these alleles (GRR = 1). The highest risk was conferred by a combination of HLA-DR15 and -A3 (odds ratio (OR) = 5.2). These results suggest that HLA-A or a gene in linkage disequilibrium with it may contribute to the HLA class II-associated genetic susceptibility to MS.

Physical separation of HLA-A alleles by denaturing high-performance liquid chromatography.

Genomic typing of polymorphic loci may be hampered by ambiguous typing results. Moreover, robust methods for simultaneous sequencing of two alleles present in a given sample may be difficult to establish. We used denaturing high-performance liquid chromatography (DHPLC) for physical separation of HLA-A alleles before sequence-based genomic typing (SBT). Physical separation was achieved by resolution of heteroduplexes between the sample alleles and a modified reference probe by DHPLC followed by selective reamplification of the sample alleles present in heteroduplexes. Complementary strands of the reference probe and sample alleles for heteroduplex induction were obtained by lambda-exonuclease digestion. HLA-A genotyping of 101 individuals using DHPLC-SBT yielded better typing resolution compared with serological typing and genotyping by the sequence-specific primer-polymerase chain reaction (SSP-PCR) method. Physical separation of alleles using a modified reference probe allows for development of fully automated methods for genomic typing of highly polymorphic loci such as HLA.

T cells from multiple sclerosis patients recognize immunoglobulin G from cerebrospinal fluid.

Idiotopic sequences are created after V, D and J recombinations and by somatic mutations during affinity maturation of immunoglobulin (Ig) molecules, and may therefore be potential immunogenic epitopes. Idiotope-specific T cells are able to activate and sustain the B cells producing such idiotopes. It is therefore possible that idiotope-specific intrathecal T cells could help maintain the persisting intrathecal synthesis of oligoclonal IgG observed in patients with multiple sclerosis (MS). This study was undertaken to examine T-cell responses to cerebrospinal fluid (CSF) IgG. Peripheral blood mononuclear cells (PBMC) from 14 of 21 MS patients and four of 17 control patients with other neurological diseases proliferated upon stimulation with autologous CSF IgG, while five and three, respectively, responded to serum IgG. By comparison, responses to myelin basic protein were recorded in only four MS and three control patients. Data from a limited number of patients indicate that the CSF IgG responsive cells were CD4+ and human leucocyte antigen DR restricted, that PBMC also respond to CSF IgG from other MS patients and that the CSF may contain T cells responding to autologous CSF IgG. This suggests that CSF IgG, or substances bound to this IgG, may represent T-cell immunogens, which could contribute to the intrathecal immune response in MS.

Genetic background for immune-mediated diseases.

Gene variants (alleles) involved in the immune response are most likely selected during evolution. The allelic polymorphisms that may be advantageous in fighting harmful agents may be susceptibility genes in immune-mediated diseases. Identification of susceptibility genes is important because these genes encode proteins, which are most probably involved in the disease process. Hence, the identification of susceptibility genes may lead to an improved understanding of the pathogenesis and may therefore help the development of preventive and therapeutic measures. Susceptibility genes may be identified by analyzing genes known to be involved in immune responses (candidate gene search) or by analyzing gene markers evenly distributed over the genome (genome-wide scan). However, since several genes jointly contribute to disease susceptibility, the frequencies of single susceptibility genes may be quite high in the normal population. Moreover, different set of genes may predispose to the same clinical disease. It may therefore be very difficult to identify susceptibility genes, apart from the major histocompatibility complex (MHC) genes, which have now been shown to predispose to several immune-mediated diseases.

The T cell regulator gene SH2D2A contributes to the genetic susceptibility of multiple sclerosis.

The T cell specific adapter protein (TSAd) encoded by the SH2D2A gene is involved in the control of T cell activation. The gene is located in the 1q21 region, which has been implicated in susceptibility to experimental allergic encephalomyelitis in the mouse. We therefore evaluated whether a polymorphic GA repeat (GA(13)-GA(33)) within the promoter region of the SH2D2A gene shows association to multiple sclerosis (MS). The frequency of the short alleles GA(13-16) was increased among 313 Norwegian MS patients compared to 277 healthy controls (0.332 vs 0.249, OR 1.5, Pc = 0.03). Transmission disequilibrium analysis in 146 Scandinavian families with at least two affected sibs showed increased transmission of GA(16) to MS patients. No linkage or association of MS to four genetic markers flanking the SH2D2A gene was observed. After activation of naive CD4(+) T cells, T cells homozygous for MS associated short alleles displayed lower level of TSAd ex vivo than T cells carrying at least one long allele, which were not associated to MS. Since the SH2D2A protein modulates T cell activation, this may be a mechanism for how short SH2D2A alleles confer susceptibility to develop MS.

No linkage or association of the nitric oxide synthase genes to multiple sclerosis.

Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system (CNS) of unknown etiology. Nitric oxide (NO) is a free radical that participates in a variety of biological processes. It is an important mediator in the immune response. Several studies indicate involvement of NO in the pathogenesis of MS. We studied five markers within the three NO synthase genes with regards to susceptibility and disease course in 156 affected sib-pairs and in 96 "benign" and 96 "severe" definite MS patients and 148 controls. We found no significant association or evidence for linkage in our data sets.

Sex and age at diagnosis are correlated with the HLA-DR2, DQ6 haplotype in multiple sclerosis.

The HLA-DR2, DQ6 (i.e., HLA-DRB1*1501, DQA1*0102, DQB1*0602) haplotype contributes to the risk of developing multiple sclerosis (MS) in Caucasoids of Northern European heritage. A correlation between the clinical expression of MS and the presence of HLA-DR2, DQ6 has, however, not convincingly been shown. In this study conventional bivariate analysis and logistic regression analysis were used to study the relationship between HLA-DR2, DQ6 and four disease variables in a cohort of 286 Norwegian MS patients from the Oslo area. Logistic regression analysis showed that HLA-DR2, DQ6 was significantly more frequent among female than male patients (P=0. 0251), and was negatively correlated with age at diagnosis regardless of sex (P=0.0254). No significant correlation was observed between HLA-DR2, DQ6 and type of disease (relapsing-remitting versus primary chronic progressive MS) or presence/absence of oligoclonal bands in the cerebrospinal fluid.

[Immunologic reactions in transplantation]. / Immunologiske reaksjoner ved transplantasjoner.

Transplantation is the therapy of choice for an increasing number of patients. Organ transplantation is used to treat irreversible kidney, heart, lung and liver failure. Stem cell transplantation (previously called bone marrow transplantation) is used to treat leukaemia, bone marrow failure, severe combined immunodeficiencies and various congenital metabolic disorders. After organ transplantation, the recipient's immune system will recognise and reject the transplanted organ. T-lymphocytes transferred along with the stem cells in stem cell transplantation will attack the recipient. This paper describes how immunocompetent cells (T- and B-lymphocytes) recognise and destroy foreign cells. Strategies for the induction of specific immunologic tolerance are briefly explained.

CTLA4 promoter and exon 1 dimorphisms in multiple sclerosis.

The human cytotoxic T-lymphocyte-associated protein 4 (CTLA4) gene may be a candidate susceptibility gene in multiple sclerosis (MS). In this study the distribution of the dimorphisms of exon 1 (+49 A/G) and promoter (-318 C/T) regions of the CTLA4 gene was analysed in 296 unrelated Norwegian MS patients and 271 matched controls by polymerase chain reaction and restriction fragment length polymorphism. The frequency of the exon 1 (+49) A-G genotype was increased in patients (57%) compared with controls (44%) (Pcorrected=0.01), and even more increased in patients with relapsing remitting MS (59%) (Pcorrected=0.006). No other significant differences were found between clinical subgroups of patients or between HLA-DRB1*1501, DQB1*0602-positive and negative patients and controls.

The role of HLA matching in renal transplantation: experience from one center.

The influence of serology-based HLA matching on the risk of acute rejection episodes and of graft loss was analyzed in a material of 678 living donor (LD) and 997 cadaveric donor (CD) renal transplantations performed in our center in the period 1989-97. In LD transplantation, recipients of HLA-identical sibling grafts had the lowest rejection risk and the best graft survival, with a half-life estimate of 30 years. One-HLA-haplotype mismatched grafts did better than two-haplotype mismatched related or unrelated donor grafts. Matching for HLA-DR significantly reduced the rejection risk of one-haplotype mismatched grafts. In CD first transplants, HLA-DR matched grafts had a lower incidence of rejection and better survival than HLA-DR mismatched grafts. Expected half-life for HLA-DR matched grafts was 12 years compared to less than 7 years for HLA-DR mismatched grafts. The effects of matching for HLA-A and -B did not reach statistical significance. In CD regrafts, a two-antigen mismatch for HLA-A or -DR led to a significantly poorer graft survival, but the panel-reactive antibody (PRA) status of the recipient was the most influential factor. In CD renal transplantation, we conclude that organ allocation based on matching for HLA-DR 1-14 is effective and not too difficult to obtain even in centers with a short patient waiting list.

A strong impact of matching for a limited number of HLA-DR antigens on graft survival and rejection episodes: a single-center study of first cadaveric kidneys to nonsensitized recipients.

BACKGROUND: A single-center study of 655 nonsensitized recipients of primary cadaveric kidney grafts is presented. RESULTS: Graft survival in serologically HLA-DR 1-10 antigen-matched grafts to nonsensitized recipients at 1 year was 90%, compared with 82% (P=0.004) and 73% (P=0.001) in one and two DR antigen-mismatched grafts. The corresponding figures at 5 years were 76%, 62%, and 56%, respectively. Matching for the DR antigens 11-14, or for some DR alleles only detectable by genomic typing, further improved graft survival, but the differences did not reach statistical significance. Matching also for the serologically defined HLA-A and -B antigens did not significantly further improve overall graft survival, but some effects for grafts surviving at least 1 year were observed. Among recipients of grafts mismatched for zero, one, or two HLA-DR antigens, acute rejection episodes were experienced in 48%, 64% (P<0.001), and 82% (P<0.001), respectively, within the first 3 months. HLA-A and -B mismatches showed no significant correlation to acute rejection episodes. CONCLUSION: Matching for the DR antigens 1-10 significantly secures and prolongs the survival of first cadaveric renal grafts. Our results also show that DR 1-10 antigen-matched combinations can often be obtained even in rather small recipient pools, when actively sought for.