Brain endothelial cell expression of SPARCL-1 is specific to chronic multiple sclerosis lesions and is regulated by inflammatory mediators in vitro.

AIMS: Cell matrix modulating protein SPARCL-1 is highly expressed by astrocytes during CNS development and following acute CNS damage. Applying NanoLC-MS/MS to CSF of RRMS and SPMS patients, we identified SPARCL-1 as differentially expressed between these two stages of MS, suggesting a potential as CSF biomarker to differentiate RRMS from SPMS and a role in MS pathogenesis. METHODS: This study examines the potential of SPARCL-1 as CSF biomarker discriminating RRMS from SPMS in three independent cohorts (n = 249), analyses its expression pattern in MS lesions (n = 26), and studies its regulation in cultured human brain microvasculature endothelial cells (BEC) after exposure to MS-relevant inflammatory mediators. RESULTS: SPARCL-1 expression in CSF was significantly higher in SPMS compared to RRMS in a Dutch cohort of 76 patients. This finding was not replicated in 2 additional cohorts of MS patients from Sweden (n = 81) and Switzerland (n = 92). In chronic MS lesions, but not active lesions or NAWM, a vessel expression pattern of SPARCL-1 was observed in addition to the expression by astrocytes. EC were found to express SPARCL-1 in chronic MS lesions, and SPARCL-1 expression was regulated by MS-relevant inflammatory mediators in cultured human BEC. CONCLUSIONS: Conflicting results of SPARCL-1's differential expression in CSF of three independent cohorts of RRMS and SPMS patients precludes its use as biomarker for disease progression. The expression of SPARCL-1 by BEC in chronic MS lesions together with its regulation by inflammatory mediators in vitro suggest a role for SPARCL-1 in MS neuropathology, possibly at the brain vascular level.

Analysis of JC virus DNA in NPSLE patients treated with different immunomodulatory agents.

OBJECTIVE: The objective of this report is to assess the presence and viral load of JC polyomavirus (JCV) DNA in cerebrospinal fluid (CSF) and plasma from neuropsychiatric systemic lupus erythematosus (NPSLE) patients in comparison to controls and to investigate if different types of immunosuppressive treatments were correlated to detection and viral load of JCV DNA in SLE. BACKGROUND: Reactivation of a latent JCV infection with subsequent development of the fatal disease progressive multifocal leukoencephalopathy (PML) has become an increasing problem in patients with autoimmune diseases treated with newer immunosuppressants. Accumulating data point out that SLE patients are at particular risk for PML compared to patients with other rheumatic diseases. METHODS: CSF samples (n = 69) and plasma samples (n = 51) from 71 SLE patients and 58 controls (53 CSF samples and 50 plasma samples) with other non-inflammatory neurological disease (OND) were analyzed for JCV DNA with a quantitative PCR method. RESULTS: All CSF and plasma samples from NPSLE patients and controls were negative for JCV DNA. CONCLUSION: JCV DNA was absent in CSF and plasma in NPSLE patients and controls and consequently we were not able to identify any correlation between the occurrence of JCV DNA and type of immunosuppressive medication.

Combination of CSF N-acetylaspartate and neurofilaments in multiple sclerosis.

OBJECTIVE: Axonal degeneration is the likely cause of disease progression in multiple sclerosis (MS). Our previous results indicated that neuron-specific N-acetylaspartate (NAA) is a candidate CSF biomarker for disease progression in MS. The aim of this study was to explore the potential of NAA as an early biomarker of axonal damage in MS. Next, we wanted to know the additional value of measurement of NAA compared to other candidate markers for axonal damage, such as neurofilament subunits and tau protein. METHODS: Levels of NAA, neurofilament light, neurofilament heavy, and tau were determined in CSF of patients with clinically isolated syndrome (CIS, n = 38), relapsing-remitting MS (RRMS, n = 42), secondary progressive MS (SPMS, n = 28), and primary progressive MS (PPMS, n = 6); patients without neurologic disease (ND, n = 28); noninflammatory neurologic controls (n = 18); and inflammatory neurologic controls (n = 39). RESULTS: CSF NAA levels were decreased in patients with SPMS compared to ND controls, patients with CIS, and patients with RRMS. CSF NAA levels in patients with CIS and RRMS were similar to those in ND subjects. All axonal damage proteins showed specific patterns of changes and relations with disease activity measures. The neurofilament light chain levels were already increased in patients with CIS, especially in patients who converted to MS. The neurofilament heavy chain levels were highest in the patients with SPMS. Tau levels were similar in MS and ND. CONCLUSIONS: CSF N-acetylaspartate (NAA) levels were not different from patients without neurologic disease in early stages of multiple sclerosis, though decreased as the disease progressed. Combining CSF NAA and neurofilament levels yields information on different phases of axonal pathology.

Cerebrospinal fluid anti-myelin antibodies are related to magnetic resonance measures of disease activity in multiple sclerosis.

OBJECTIVE: Recent studies reported contrasting results with respect to the presence of anti-myelin protein antibodies in multiple sclerosis (MS) and their relation with disease activity. This may be due to the heterogeneous specificity of autoantibodies in MS and the inability of most methods to detect pathogenically relevant antibodies. Here, myelin particles were used to detect anti-myelin antibodies in the CSF of MS patients. Subsequently, their relation with MRI parameters was evaluated. METHODS: Anti-myelin IgG antibody reactivity was determined in the CSF of patients with MS (n = 65) and clinically isolated syndrome (CIS, n = 37) using a novel flow cytometry based assay. In addition, the CSF of patients with other neurological diseases (OND, n = 17), inflammatory neurological diseases (IND, n = 33) and controls (n = 22) was tested. RESULTS: Compared with controls, increased anti-myelin IgG antibody reactivity was most frequently found in the CSF of patients with CIS (46%, p = 0.002), relapsing-remitting MS (56%, p<0.001) and secondary progressive MS (55%, p<0.001), together constituting 85% of all positive CSF samples. In contrast, elevated anti-myelin IgG antibody reactivity was present in a minority of IND patients (21%), marginally present in controls (5%) and absent in OND patients (0%). Most strikingly, anti-myelin IgG antibody reactivity was related to the number of T2 lesions (r = 0.31, p = 0.041) and gadolinium enhancing T1 lesions (r = 0.37, p = 0.016) on brain MRI in CIS and relapse onset MS patients. CONCLUSION: CSF anti-myelin IgG antibodies are promising specific biomarkers in CIS and relapse onset MS and correlate with MR measures of disease activity.

Analysis of cerebrospinal fluid and cerebrospinal fluid cells from patients with multiple sclerosis for detection of JC virus DNA.

OBJECTIVE: 1) To determine whether JC virus (JCV) DNA was present in the cerebrospinal fluid (CSF) and blood from patients with multiple sclerosis (MS) in comparison with controls and 2) to find out if our clinical material, based on presence of JCV DNA, included any patient at risk for progressive multifocal leukoencephalopathy (PML). METHODS: The prevalence of JCV DNA was analyzed in CSF and plasma from 217 patients with MS, 86 patients with clinically isolated syndrome (CIS), and 212 patients with other neurological diseases (OND). In addition, we analyzed CSF cells, the first report of JCV DNA in CSF cells in a single sample, and peripheral blood cells in a subgroup of MS (n = 49), CIS (n = 14) and OND (n = 53). RESULTS: A low copy number of JCV DNA was detected in one MS cell free CSF sample and in one MS CSF cell samples. None of these had any signs of PML or developed this disease during follow-up. In addition, two OND plasma samples were JCV DNA positive, whereas all the other samples had no detectable virus. CONCLUSION: A low copy number of JCV DNA may occasionally be observed both in MS and other diseases and may occur as part of the normal biology of JC virus in humans. This study does not support the hypothesis that patients with MS would be at increased risk to develop PML, and consequently screening of CSF as a measurable risk for PML is not useful.

Curative effects of recombinant human Interleukin-6 in DA rats with protracted relapsing experimental allergic encephalomyelitis.

We have studied the effects of treatment with recombinant human (rh)IL-6 on clinical, histological and immunological parameters of protracted relapsing (PR) experimental allergic encephalomyelitis (EAE) in DA rats. rhIL-6 (50 microg/rat subcutaneously/day) was given under three different regimens, as early prophylaxis, from 1 day prior to 14 days after immunization, in late prophylaxis, from day +7 until day 21 post-immunization (p.i.) and therapeutically to rats with clinical signs of EAE from day 14 to day 28 p.i. Although rhIL-6 failed to modulate the course of PR-EAE when administered as the early prophylactic regimen, it exerted clear-cut favourable effects on the course of the disease if was administered either as later prophylactic or as therapeutic treatment. Under these conditions, rhIL-6 accelerated recovery from EAE attacks and reduced/milded subsequent EAE episodes as compared to either PBS- or heat-inactivated rhIL-6-treated control rats. In agreement with this clinical effect, relative to PBS-treated rats, the animals injected with rhIL-6 exhibited lower numbers of MHC class II(+) and CD4(+) cells in their spinal cords. rhIL-6-treatment also profoundly modulated the endogenous cytokine network, the treated rats displaying increased numbers of spleen cells expressing mRNA transcripts of the anti-inflammatory cytokines IL-10 and TGF-beta along with simultaneously reduced numbers of mRNAs for TNF-alpha. In addition, upon ex vivo exposure to either myelin basic protein peptide 63-88 (MBP63-88) or to phytoaemagglutinin A, the numbers of IFN-gamma secreting splenocytes was also significantly reduced (ELISPOT analysis) in rhIL-6-treated rats as compared to PBS-treated controls.