Detection of the soluble form of the Fas molecule in patients with multiple sclerosis and human T-lymphotropic virus type I-associated myelopathy

A Scoping Review on Body Fluid Biomarkers for Prognosis and Disease Activity in Patients with Multiple Sclerosis

Multiple sclerosis (MS) is a complex demyelinating disease of the central nervous system, presenting with different clinical forms, including clinically isolated syndrome (CIS), which is a first clinical episode suggestive of demyelination. Several molecules have been proposed as prognostic biomarkers in MS. We aimed to perform a scoping review of the potential use of prognostic biomarkers in MS clinical practice. We searched MEDLINE up to 25 November 2021 for review articles assessing body fluid biomarkers for prognostic purposes, including any type of biomarkers, cell types and tissues. Original articles were obtained to confirm and detail the data reported by the review authors. We evaluated the reliability of the biomarkers based on the sample size used by various studies. Fifty-two review articles were included. We identified 110 molecules proposed as prognostic biomarkers. Only six studies had an adequate sample size to explore the risk of conversion from CIS to MS. These confirm the role of oligoclonal bands, immunoglobulin free light chain and chitinase CHI3L1 in CSF and of serum vitamin D in the prediction of conversion from CIS to clinically definite MS. Other prognostic markers are not yet explored in adequately powered samples. Serum and CSF levels of neurofilaments represent a promising biomarker.

Intrinsic and Extrinsic Cell Apoptotic Pathways in Patients with HTLV-1-Associated Myelopathy/Tropical Spastic Paraparesis: A Systematic Review

We aimed to verify the influence of intrinsic and extrinsic cell apoptotic pathways on the inhibition of cellular apoptosis in patients with tropical spastic paralysis/myelopathy related to human T cell lymphotropic virus type 1. The databases accessed were PubMed, Scopus, Science Direct, and Web of Science. Neither the time of publishing nor the language of the articles was limited. The descriptors used for this systematic literature review were: Tropical Paraparesis, Proto-Oncogenic Protein C, Bcl-2, Bcl-X Protein, Bax protein, Fas ligand (FasL) protein, Fas receptor, TNF-related apoptosis-inducing ligand and Fas-associated protein with death domain (FADD)-like apoptosis regulating. The search resulted in 546 articles from which 9 articles were selected for analysis; ranging from serum levels of Bcl-2, Fas and tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) measured by enzyme-linked immunosorbent assay and the levels of cellular expression of Bcl-2 and Bcl-xL the TCD4+ lymphocytes accessed by western blot. Most studies accessed either gene expression or polymorphism of Fas, FasL, and TRAIL in patients with HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP), whereas one study used flow cytometry and fluorescence to determine Fas expression. Increased Bcl-xL expression inhibited T lymphocyte apoptosis, whereas Bcl-2, serum levels, and cellular expression did not influence T lymphocyte apoptosis and serum levels of Fas were significantly higher and associated with markers of leukocyte activation in patients with HAM/TSP. In addition, Fas polymorphism (FAS-670AA) was associated with higher proviral load. There is a need for additional research on this issue since the number of patients was small and the studies presented higher heterogeneity.

Immunovirological markers in HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP)

Human T cell lymphotropic virus 1 (HTLV-1) is a human retrovirus and infects approximately 10–20 million people worldwide. While the majority of infected people are asymptomatic carriers of HTLV-1, only 4% of infected people develop HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). HAM/TSP is a chronic, progressive, neurological disease which usually progresses slowly without remission, and is characterized by perivascular inflammatory infiltrates in chronic inflammatory lesions of the central nervous system (CNS), primarily affecting the spinal cord. A high HTLV-1 proviral load, high levels of antibodies against HTLV-1 antigens, and elevated concentration of proteins are detected in cerebrospinal fluid (CSF) of HAM/TSP patients. These chronically activated immune responses against HTLV-1 and infiltration of inflammatory cells including HTLV-1 infected cells into the CNS contribute to clinical disability and underlie the pathogenesis of HAM/TSP. Since the disease development of HAM/TSP mainly occurs in adults, with a mean age at onset of 40–50 years, it is important for HTLV-1-infected carriers and HAM/TSP patients to be monitored throughout the disease process. Recent advances in technologies and findings provide new insights to virological and immunological aspects in both the CNS as well as in peripheral blood. In this review, we focus on understanding the inflammatory milieu in the CNS and discuss the immunopathogenic process in HTLV-1-associated neurologic diseases.

HTLV-1-infected asymptomatic carriers compared to HAM/TSP patients over-express the apoptosis- and cytotoxicity-related molecules

HTLV-1 infection causes a chronic progressive debilitating neuroinflammatory disease which is called, HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). One of the host defense mechanisms against viral infection is apoptosis which may control HTLV-1 infection. Therefore, we aimed to investigate this process and its interaction with viral factors in HTLV-1-infected asymptomatic carriers (ACs) compared to HAM/TSP patients. Fas, FasL, TRAIL, perforin, granzyme A, granzyme B, and granulysin gene expression and serum levels of Fas, FasL, TRAIL, and granulysin in the peripheral blood of 21 sex- and age-matched healthy controls (HCs), ACs, and HAM/TSP patients were evaluated. Also, the level of granulysin secretion in the cell culture supernatant was measured. Finally, the correlation of the expression of these molecules with HTLV-1 proviral load (PVL), Tax, and HBZ mRNA expression was analyzed. ACs compared to HAM/TSP patients significantly over-expressed the Fas, FasL, TRAIL, perforin, and granzyme B molecules. Fas, FasL, TRAIL, and granulysin serum levels were not different among studied groups; whereas, the secretion of granulysin was significantly decreased in ACs and HAM/TSP patients compared to HCs. Also, HAM/TSP patients expressed higher levels of HTLV-1 PVL, Tax, and HBZ mRNA. In addition, in ACs, inverse correlations between the Fas, FasL, TRAIL, perforin, granzyme B, and granulysin levels with HBZ mRNA expression were seen. ACs compared to HAM/TSP patients over-expressed the apoptosis- and cytotoxicity-related molecules. It could be concluded that successful control of the HTLV-1 infection and suppression of HAM/TSP development stem from the strong apoptosis and cytotoxic activity in the peripheral blood of ACs.

A Fashi Lymphoproliferative Phenotype Reveals Non-Apoptotic Fas Signaling in HTLV-1-Associated Neuroinflammation

Human T-cell lymphotropic virus (HTLV)-1 was the first human retrovirus to be associated to cancer, namely adult T-cell leukemia (ATL), but its pathogenesis remains enigmatic, since only a minority of infected individuals develops either ATL or the neuroinflammatory disorder HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). A functional FAS -670 polymorphism in an interferon (IFN)-regulated STAT1-binding site has been associated to both ATL and HAM/TSP susceptibility. Fas^hi T stem cell memory (Tscm) cells have been identified as the hierarchical apex of ATL, but have not been investigated in HAM/TSP. In addition, both FAS and STAT1 have been identified in an IFN-inducible HAM/TSP gene signature, but its pathobiological significance remains unclear. We comprehensively explored Fas expression (protein/mRNA) and function in lymphocyte activation, apoptosis, proliferation, and transcriptome, in PBMC from a total of 47 HAM/TSP patients, 40 asymptomatic HTLV-1-infected individuals (AC), and 58 HTLV-1 -uninfected healthy controls. Fas surface expression followed a two-step increase from HC to AC and from AC to HAM/TSP. In HAM/TSP, Fas levels correlated positively to lymphocyte activation markers, but negatively to age of onset, linking Fas^hi cells to earlier, more aggressive disease. Surprisingly, increased lymphocyte Fas expression in HAM/TSP was linked to decreased apoptosis and increased lymphoproliferation upon in vitro culture, but not to proviral load. This Fas^hi phenotype is HAM/TSP-specific, since both ex vivo and in vitro Fas expression was increased as compared to multiple sclerosis (MS), another neuroinflammatory disorder. To elucidate the molecular mechanism underlying non-apoptotic Fas signaling in HAM/TSP, we combined transcriptome analysis with functional assays, i.e., blocking vs. triggering Fas receptor in vitro with antagonist and agonist-, anti-Fas mAb, respectively. Treatment with agonist anti-Fas mAb restored apoptosis, indicating biased, but not defective Fas signaling in HAM/TSP. In silico analysis revealed biased Fas signaling toward proliferation and inflammation, driven by RelA/NF-κB. Correlation of Fas transcript levels with proliferation (but not apoptosis) was confirmed in HAM/TSP ex vivo transcriptomes. In conclusion, we demonstrated a two-step increase in Fas expression, revealing a unique Fas^hi lymphocyte phenotype in HAM/TSP, distinguishable from MS. Non-apoptotic Fas signaling might fuel HAM/TSP pathogenesis, through increased lymphoproliferation, inflammation, and early age of onset.

Blood Biomarkers as Outcome Measures in Inflammatory Neurologic Diseases

Multiple sclerosis (MS) is an autoimmune demyelinating disorder of the central nervous system. Only a few biomarkers are available in MS clinical practice, such as cerebrospinal fluid oligoclonal bands and immunoglobulin index, serum anti-aquaporin 4 antibodies, and serum anti-John Cunningham virus antibodies. Thus, there is a significant unmet need for biomarkers to assess prognosis, response to therapy, or potential treatment complications. Here we describe emerging biomarkers that are in development, focusing on those from peripheral blood. There are several limitations in the process of discovery and validation of a good biomarker, such as the pathophysiological complexity of MS and the technical difficulties in globally standardizing methods for sampling, processing, and conserving biological specimens. In spite of these limitations, ongoing international collaborations allow the exploration of many interesting molecules and markers to validate diagnostic, prognostic, and therapeutic-response biomarkers.

Peripheral blood biomarkers in multiple sclerosis

Multiple sclerosis is the most common autoimmune disorder affecting the central nervous system. The heterogeneity of pathophysiological processes in MS contributes to the highly variable course of the disease and unpredictable response to therapies. The major focus of the research on MS is the identification of biomarkers in biological fluids, such as cerebrospinal fluid or blood, to guide patient management reliably. Because of the difficulties in obtaining spinal fluid samples and the necessity for lumbar puncture to make a diagnosis has reduced, the research of blood-based biomarkers may provide increasingly important tools for clinical practice. However, currently there are no clearly established MS blood-based biomarkers. The availability of reliable biomarkers could radically alter the management of MS at critical phases of the disease spectrum, allowing for intervention strategies that may prevent evolution to long-term neurological disability. This article provides an overview of this research field and focuses on recent advances in blood-based biomarker research.

The role of T cell apoptosis in nervous system autoimmunity

Fas is a transmembrane receptor involved in the death program of several cell lines, including T lymphocytes. Deleterious mutations hitting genes involved in the Fas pathway cause the autoimmune lymphoprolipherative syndrome (ALPS). Moreover, defective Fas function is involved in the development of common autoimmune diseases, including autoimmune syndromes hitting the nervous system, such as multiple sclerosis (MS) and chronic inflammatory demyelinating polyneuropathy (CIDP). In this review, we first explore some peculiar aspects of Fas mediated apoptosis in the central versus peripheral nervous system (CNS, PNS); thereafter, we analyze what is currently known on the role of T cell apoptosis in both MS and CIDP, which, in this regard, may be seen as two faces of the same coin. In fact, we show that, in both diseases, defective Fas mediated apoptosis plays a crucial role favoring disease development and its chronic evolution.

Apoptosis-related molecules in blood in multiple sclerosis

A failure in apoptosis of lymphocytes may lead to harmful immunoreactivity in MS. We analyzed apoptosis-related molecules including TRAIL, sFas, sFasL and MIF in the blood of 117 MS patients and controls to answer whether these molecules may be used in the evaluation of disease activity and immunomodulatory effect of IFN-beta. Increased levels of sTRAIL, sFasL and MIF were found in sera of untreated patients with MS relapse indicating their association with MS disease activity. IFN-beta treated patients in remission had increased TRAIL mRNA, sTRAIL, sFaL and MIF that most likely reflect bioactivity of IFN-beta.

CSF levels of soluble HLA-G and Fas molecules are inversely associated to MRI evidence of disease activity in patients with relapsing-remitting multiple sclerosis

Cerebrospinal fluid (CSF) concentrations of soluble human leukocyte antigen class I (HLA-I) (sHLA-I), HLA-G (sHLA-G) and anti-apoptotic Fas (sFas) molecules were measured by enzyme linked immunosorbent assay technique in 65 relapsing-remitting (RR) MS patients classified according to clinical and magnetic resonance imaging (MRI) evidence of disease activity. Sixty-four patients with other inflammatory neurological disorders (OIND) and 64 subjects with noninflammatory neurological disorders (NIND) served as controls. CSF concentrations were higher in RRMS and in OIND than in NIND patients for sHLA-I (P < 0.02), greater in RRMS than in OIND and in NIND for sHLA-G (P < 0.001 and P < 0.01, respectively) and lower in RRMS than in OIND and in NIND for sFas (P < 0.001 and P < 0.02, respectively). An increase in CSF levels was identified in MRI active RRMS for sHLA-I (P < 0.01) and in MRI stable RRMS for sHLA-G (P < 0.01), whereas CSF values of sFas were decreased in RRMS without Gd-enhancing lesions (P < 0.02). In MS patients with no evidence of MRI disease activity, a trend towards an inverse correlation was found between CSF concentrations of sHLA-G and sHLA-I and between CSF levels of sHLA-G and sFas. Our results indicate that enhanced CSF levels of sHLA-I antigens most likely represent an indirect manifestation of intrathecal immune activation taking place in neuroinflammation. Conversely, reciprocal fluctuations in CSF sHLA-G and sFas levels observed when MRI disease activity resolved suggest that sHLA-G could play an immunomodulatory role in MS through Fas/FasL-mediated mechanisms.

Detection of apoptotic cells in cerebrospinal fluid of patients suffering from neurological disease

Apoptotic elimination of pathogenic immune cells is considered one of several regulatory mechanisms in inflammatory diseases. To explore the potential relationship between detection of apoptotic cells in the cerebrospinal fluid (CSF) and different types of neurological diseases, we examined cellular apoptosis at the stage of DNA fragmentation, defined by morphological criteria and a molecular biology technique (in situ tailing). During a first phase, 3446 CSF samples derived from admitted patients suffering of inflammatory (IND) and non-inflammatory neurological diseases (NIND) were analysed in the course of routine clinical diagnostics. First, all specimens were inspected for cells displaying atypical morphology following established morphological criteria of intact lymphocytes or apoptosis. In a second phase, 76 additional CSF samples collected from individuals according to investigated clinical groups were analysed in parallel by means of in situ tailing, which indicates the advanced degree of apoptotic demise through labelling of controlled DNA fragmentation. No apoptotic processes were detected by either analytical method in CSF of clinically distinct diseases, amongst others multiple sclerosis (MS). This indicates that the detection of apoptotic cells in CSF during clinical routine diagnostics does not have sufficient explanatory power for the investigated conditions. Furthermore, based on immunohistochemistry, the proportion of CSF lymphocytes expressing the pro-apoptotic receptor Fas (CD95) tended to be higher in NIND patients compared to patients with other IND and MS, but the difference was not statistically significant. In contrast, expression of the anti-apoptotic protein Bcl-2 did not differ between investigated patient groups.

Level of sFas/APO 1 in serum and cerebrospinal fluid in multiple sclerosis

The aim of the study was to measure sFas/APO 1 serum and cerebrospinal fluid (CSF) levels in patients with relapsing-remitting multiple sclerosis (MS) during relapses, as an index of inhibition of apoptosis of activated lymphocytes in eight patients with clinically definite multiple sclerosis, and 12 healthy controls. The level of serum and CSF sFas/APO 1 was determined by commercially available enzyme-linked immunosorbent assay (ELISA) kits. No significant differences were detected in the sFas/APO 1 serum level between patients and controls, but the levels in CSF was lower in the former. Our results suggest the possibility of Fas mediated apoptosis as a contributing factor in the pathogenesis of multiple sclerosis.

Fas ligand/Fas system in the brain: regulator of immune and apoptotic responses

Apoptosis, also known as programmed cell death, is the major type of cell death involved in normal development, regeneration, proliferation and pathologic degeneration in the central nervous system (CNS). The apoptotic process can be divided further into two pathways depending on the involvement of mitochondria and related biochemical cascades. The internal pathway of apoptosis is initiated by a variety of cytotoxic stimuli and mediated by the release of cytochrome c and subsequent activation of downstream caspases. The external pathway is mainly triggered by ligation of death receptors such as Fas, tumor necrosis factor (TNF)-related apoptosis inducing ligand-R1 (TRAIL-R1), TRAIL-R2 and TNFRp55, and mediated by direct activation of upstream caspases. The Fas-FasL system has been known as a prototypic inducer of extrinsic cell death responsible for cell-mediated cytotoxicity, peripheral immune regulation, immune privilege and "counterattack" of malignant tumor cells against the host immune system. Fas and FasL are expressed in the normal CNS, and expression increases in inflamed and degenerated brains. Like other specialized tissues such as the eye and testis, the Fas-FasL system is thought to be involved in immune suppressed status in the CNS. Expression of Fas and FasL is significantly elevated in a variety of the neurologic disorders, suggesting the possibility that this system may play roles in degenerative and inflammatory responses in the CNS. Therefore, the FasL-Fas system should be considered as a double-edged sword in the CNS: maintaining the immune suppressed status in normal brain and inducing neuronal cell death and inflammation in a variety of neurologic disorders.

HIV-1 and IL-1 beta regulate Fas ligand expression in human astrocytes through the NF-kappa B pathway

Reactive astrogliosis is a prominent pathological feature of HIV-1-associated dementia (HAD). We hypothesized that in HAD, astrocytes activated with proinflammatory stimuli such as IL-1beta express Fas ligand (FasL), a death protein. IL-1beta and HIV-1-activated astrocytes expressed FasL mRNA and protein. Luciferase reporter constructs showed that IL-1beta and HIV-1 upregulated FasL promoter activity (p<0.001). The NF-kappaB pathway was involved as shown by inhibition with SN50 and dominant negative IkappaBalpha mutants. Brain extracts from HAD patients had significantly elevated FasL levels compared to HIV-seropositive (p<0.001) and seronegative individuals (p<0.01). We propose that astrocyte expression of FasL may participate in neuronal injury in HAD.

Cellular FLICE-inhibitory protein: an attractive therapeutic target?

Cellular FLIP (c-FLIP), also known as FLICE-inhibitory protein, has been identified as an inhibitor of apoptosis triggered by engagement of death receptors (DRs) such as Fas or TRAIL (TNF-related apoptosis-inducing ligand). cFLIP is recruited to DR signalling complexes, where it prevents caspase activation. Animal models have indicated that c-FLIP plays an important role in T cell proliferation and heart development. Abnormal c-FLIP expression has been identified in various diseases such as multiple sclerosis (MS), Alzheimer's disease (AD), diabetes mellitus, rheumatoid arthritis (RA) and various cancers. This review focuses on recent insights into c-FLIP dysregulation associated with human diseases and addresses the possibilities of using c-FLIP as a therapeutic target.

Fas expression on T cells and sFas in relapsing-remitting multiple sclerosis

OBJECTIVES

To investigate the proportions of peripheral blood CD4+/Fas+ and CD8+/Fas+ cells and serum sFas levels in relapsing-remitting multiple sclerosis (RRMS) patients with relapses (active RRMS), those without relapses (stable RRMS), and controls over 1 year.

MATERIAL AND METHODS

Sixteen RRMS patients and 10 controls were tested monthly. Cells were analyzed by dual immunofluorescence and the sFas levels by ELISA. There were 14 relapses which occurred 1223 days after the last control visits. The measurements performed at these visits in the active RRMS patients were considered as relapse-related, while the rest were regarded as relapse-unrelated.

RESULTS

In active RRMS patients the median of CD4+ Fas+ to total CD4+ and CD8+ Fas+ to total CD8+ from relapse-related measurements were higher than the median from relapse-unrelated measurements (P=0.003, 0.004, respectively). The median of CD4+ Fas+ to total CD4+ from relapse-unrelated measurements in active RRMS was higher compared with stable RRMS (P = 0.005) and controls (P = 0.004). The sFas level from relapse-unrelated measurements was also higher in active RRMS than in stable RRMS (P = 0.04) and in controls (P = 0.004).

CONCLUSIONS

We suggest that increased expression of Fas antigen on CD4+ subset and increased serum sFas level are valuable markers of clinical activity in MS.

The development of clinical activity in relapsing-remitting MS is associated with a decrease of FasL mRNA and an increase of Fas mRNA in peripheral blood

In this longitudinal study, we examined the expression of Fas, FasL, CCR3, CCR5 and CXCR3 mRNA in peripheral blood mononuclear cells (PBMCs) of secondary progressive (SP) and relapsing-remitting (RR) multiple sclerosis (MS) patients. In RR patients, FasL, CCR3 and CCR5 mRNA levels were increased prior to the exacerbations, but these decreased during clinical activity, while mRNA levels of Fas increased. SP patients have increased the levels of Fas and FasL mRNA; the latter was particularly increased during lesional activity. Our data support the hypothesis that changes in Fas and FasL mRNA related to clinical activity are due to the migration of inflammatory cells to the central nervous system (CNS).

Protein-based therapeutic approaches targeting death receptors

Death receptors (DRs) are a growing family of transmembrane proteins that can detect the presence of specific extracellular death signals and rapidly trigger cellular destruction by apoptosis. Eight human DRs (Fas, TNF-R1, TRAMP, TRAIL-R1, TRAIL-R2, DR-6, EDA-R and NGF-R) have been identified. The best studied to date is Fas (CD95). Expression and signaling by Fas and its ligand (FasL, CD95L) is a tightly regulated process essential for key physiological functions in a variety of organs, including the maintenance of immune homeostasis. Recently, strong evidence has shown that dysregulation of Fas expression and/or signaling contributes to the pathogenesis of tissue destructive diseases such as graft-versus-host disease, toxic epidermal necrolysis, multiple sclerosis and stroke. With these new developments, strategies for modulating the function of Fas signaling have emerged and provided novel protein-based therapeutic possibilities that will be discussed herein. Selective triggering of DR-mediated apoptosis in cancer cells is an emerging approach that is being intensely investigated as a mode of cancer therapy. Local administration of Fas agonists, and more promisingly, systemic use of soluble recombinant forms of TRAIL have shown efficacy in preclinical models of the disease. Developments in this field that may have important clinical implications for the treatment of cancer are reviewed.

The FAS-670 polymorphism influences susceptibility to multiple sclerosis

Several studies have reported a defective Fas function in patients with multiple sclerosis (MS). We were interested whether this could result from a genetically altered Fas regulation. We examined the FAS-670 polymorphism in 382 patients with MS and 206 controls, and found that the carriership of allele FAS-670*G was significantly less frequent in patients than in controls. We found no association between the carriership of FAS-670*G and clinical features. For a subgroup of patients, longitudinal MRI data were available. We observed similar brain and lesion volumes in carriers and noncarriers of FAS-670*G. These data suggest that FAS-670*G decreases the risk of developing MS, but does not affect the course of disease.

Heightened intrathecal release of soluble CD137 in patients with multiple sclerosis

Human CD137 (ILA/4-1BB), a member of the tumour necrosis factor (TNF) receptor family, regulates the activation and proliferation of immune cells, and may induce apoptosis (programmed cell death) of activated lymphocytes. A soluble form of CD137 (sCD137) released by activated lymphocytes may interfere with the activities of the membrane-bound CD137. This study reports the detection of significantly high intrathecal and systemic levels of sCD137 in patients with clinically active multiple sclerosis (MS) when compared with corresponding levels from patients with clinically stable MS or those with inflammatory and non-inflammatory neurological disorders, or from healthy individuals. Intrathecal concentrations of sCD137 in patients with active MS correlate with the intrathecal release of the soluble death receptor protein Fas, but not with the release of interleukin-2, TNF or the synthesis of immunoglobulins G and M. Results presented here suggest that heightened release of sCD137 is a feature of clinically active MS.

Multiple sclerosis: modulation of apoptosis susceptibility by glatiramer acetate

OBJECTIVES

We investigated whether therapy of multiple sclerosis (MS) with glatiramer acetate (GA) involves the modulation of programmed cell death (apoptosis) in disease-relevant T-helper lymphocytes.

MATERIAL AND METHODS

Blood was drawn from 15 relapsing-remitting MS patients both before (baseline) as well as 6, 12, and 18 weeks after GA therapy and from 15 healthy controls. Detection of apoptosis was performed in response to in vitro stimulation with GA, myelin basic protein or medium alone.

RESULTS

T-helper lymphocytes from untreated MS patients displayed an overall increased apoptosis susceptibility in vitro, compared to controls. During subsequent GA therapy, apoptosis vulnerability of these T cells in MS patients significantly declined under the initial baseline before treatment, and was finally equal in treated patients and controls. GA itself had no direct apoptosis-modulatory properties in vitro.

CONCLUSION

Our findings indicate that therapy of multiple sclerosis with glatiramer acetate presumably involves the compensation of altered apoptosis in T-helper lymphocytes.

Upregulation of the inhibitor of apoptosis proteins in activated T lymphocytes from patients with multiple sclerosis

The pathogenesis of multiple sclerosis (MS) may involve failure of programmed cell death (apoptosis) to eliminate potentially pathogenic, autoreactive T lymphocytes. This failure may be caused by multiple abnormalities of the cell death machinery. In this study, we investigated the expression of the inhibitors of apoptosis (IAP) proteins, cellular IAP-1, IAP-2, and X-linked IAP (XIAP), in T lymphocytes from patients with active relapsing-remitting MS and appropriate controls. The expression of IAP proteins was significantly higher in mitogen-stimulated intrathecal and peripheral T lymphocytes from MS patients when compared to corresponding expressions from inflammatory and non-inflammatory neurologic controls, and healthy individuals. IAP proteins were also expressed in resting (unstimulated) T lymphocytes predominantly from MS patients. The heightened expression of IAP proteins in MS patients correlated with T lymphocyte resistance to apoptosis, and was independent of cellular expression of the death receptor protein Fas. In contrast, cellular expression of the anti-apoptosis protein Bcl-2 was relatively similar between MS patients and the control groups. These findings suggest that over-expression of IAP proteins in mitogen-stimulated T lymphocytes is a feature of multiple sclerosis.

Serum and cerebrospinal fluid soluble Fas levels in clinical subgroups of multiple sclerosis

Elevated sFas levels have been described in multiple sclerosis (MS) patients with active disease. The aim of this study was to assess the diagnostic potential of serum and cerebrospinal fluid (CSF) sFas measurements in differentiating clinically defined MS patient subgroups. Levels of sFas and sFas indices were determined in patients with stable relapsing-remitting MS (RRMS), active RRMS, primary progressive MS (PPMS), secondary progressive MS (SPMS) and patients with inflammatory (IND) and noninflammatory neurological diseases (NIND). Serum sFas modulation over 32 weeks IFN-beta1a therapy was also investigated. Serum and CSF sFas levels and sFas indices were elevated in MS compared to NIND and IND patients. Within the MS group, serum and CSF sFas levels were highest in PPMS, with active RRMS patients demonstrating the highest sFas indices. This may reflect an ongoing disease process which is occurring acutely (active disease) or incessantly (progressive disease). IFN-beta1a induced a transient increase in circulating sFas following initiation of therapy. Whilst evidence was provided for variable sFas expression in clinical subgroups of MS, there was insufficient definition between the respective groups to advocate sFas measurements as a diagnostic marker of clinical subgroups of MS.

Heightened expression of survivin in activated T lymphocytes from patients with multiple sclerosis

The perpetuation of the inflammatory process in multiple sclerosis (MS) may arise from the failure to eliminate potentially pathogenic autoreactive lymphocytes by programmed cell death (apoptosis). Such impairment may be caused by multiple abnormalities of apoptosis regulatory proteins. In this study, we investigated the expression of survivin, a recently described cell cycle-regulated antiapoptosis protein, in lymphocytes from patients with active relapsing-remitting MS and appropriate controls. Survivin reactivity was detected in intrathecal lymphocytes from some MS patients, but not in resting peripheral lymphocytes. However, mitogen stimulation of resting lymphocytes induced survivin expression, which was significantly higher in stimulated intrathecal and peripheral T lymphocytes from MS patients when compared to controls. In contrast, cellular expression of the antiapoptosis protein Bcl-2 was relatively similar between MS patients and the control groups. Moreover, heightened survivin expression in MS patients correlated with T lymphocyte resistance to apoptosis, and was independent of cellular expression of the death receptor Fas. These findings suggest that upregulation of the antiapoptotic protein survivin in mitogen-stimulated T lymphocytes is a feature of multiple sclerosis.

Increased cerebrospinal fluid concentrations of soluble Fas (CD95/Apo-1) in hydrocephalus

BACKGROUND AND AIMS

The ventricular enlargement observed in children with chronically raised intracranial pressure (ICP) causes a secondary loss of brain tissue. In animal studies of hydrocephalus, programmed cell death (apoptosis) has been found as a major mechanism of neuronal injury. One of the regulators of the apoptotic cell death programme is the receptor mediated Fas/Fas ligand interaction.

METHODS

The apoptosis regulating cytokines soluble Fas (sFas) and soluble Fas ligand (sFasL) were studied in the cerebrospinal fluid (CSF) of 31 hydrocephalic children undergoing shunt surgery for symptomatic hydrocephalus and 18 controls.

RESULTS

High concentrations of sFas were observed in children with hydrocephalus (median 252 ng/ml); in controls sFas was below the detection limit (0.5 ng/ml). sFasL was undetectable in all but one sample.

CONCLUSION

High concentrations of sFas in the CSF of children with hydrocephalus suggest intrinsic sFas production, potentially antagonising pressure mediated Fas activation.

Overexpression of the apoptosis inhibitor FLIP in T cells correlates with disease activity in multiple sclerosis

The cellular caspase-inhibitory protein FLIP has been recently identified as a potent regulator of T lymphocyte susceptibility to Fas-mediated programmed cell death (apoptosis). Since impairment of apoptosis may be involved in multiple sclerosis (MS), we investigated the dynamics of cellular FLIP in unstimulated and activated T lymphocytes from MS patients, inflammatory and non-inflammatory neurological disorders, and healthy subjects. Cellular expression of the long and short forms of FLIP protein was similar in unstimulated T cells from MS patients and controls, but was significantly higher in activated T cells from patients with clinically active MS. This high FLIP expression in active MS correlated with cellular resistance to Fas-mediated apoptosis. In contrast, cellular expression of the anti-apoptotic protein Bcl-2 did not differ between active and stable disease, and was relatively similar between the MS group and controls. These findings suggest that cellular overexpression of the anti-apoptotic protein FLIP is a feature of clinically active multiple sclerosis.

Impaired Fas-independent apoptosis of T lymphocytes in patients with multiple sclerosis

The homeostasis of the immune system is maintained by apoptotic (programmed cell death) elimination of potentially pathogenic, autoreactive mononuclear cells. There is emerging evidence that apoptosis mediated by the cell death receptor Fas is impaired in activated lymphocytes from patients with multiple sclerosis (MS), but other forms of apoptosis have not yet been fully evaluated. To further explore the dynamics of programmed cell death in MS, spontaneous and induced apoptosis of both peripheral and intrathecal mononuclear cells was investigated in clinically active MS patients and appropriate controls. In the MS group, spontaneous apoptosis of unfractionated mononuclear cells was significantly reduced, and activated intrathecal and peripheral T cells were found to be predominantly resistant to Fas-independent apoptosis. These results indicate that in clinically active MS, the reduced susceptibility of mononuclear cells to apoptosis is partly due to impairment of Fas-independent apoptotic pathways.

Intrathecal administration of neutralizing antibody against Fas ligand suppresses the progression of experimental autoimmune encephalomyelitis

A therapy aimed at blocking the Fas/Fas ligand (FasL) system was investigated using a relapsing form of experimental autoimmune encephalomyelitis (EAE) in mice, an animal model of multiple sclerosis (MS). Intracisternal administration of neutralizing antibody against FasL during the progression phase of EAE significantly reduced the severity of the disease with milder inflammation and myelin breakdown in the central nervous system (CNS). These results raised the possibility that the Fas/FasL system might contribute to tissue destruction in the CNS in the acute phase of EAE and that the intrathecal administration of neutralizing antibody against FasL may be beneficial for suppression of the acute phase of MS.

Increased levels of soluble Fas receptor and Fas ligand in the cerebrospinal fluid of HIV-infected patients

Analyses of serum samples and blood cells have revealed a dysregulation of the Fas/Fas ligand (FasL) system during HIV infection, which may be related to disease progression. As Fas and FasL have been suggested to participate in brain injury in a variety of CNS disorders, the aim of this study was to determine (1) whether soluble Fas and FasL can be detected in cerebrospinal fluid (CSF) samples from HIV-infected patients, (2) whether levels of these molecules are related to disease progression, and (3) whether levels of sFasL are related to other laboratory findings. Soluble Fas was detected in 38 of 56 (68%) and soluble Fas ligand in 17 of 56 (30%) CSF samples from HIV-infected patients. CSF levels of both molecules correlated neither with the CSF-to-serum albumin ratio nor with corresponding serum concentrations. This finding suggests that they are at least in part produced intrathecally. Levels of both CSF sFas and sFasL correlated significantly and inversely with the blood CD4+ cell counts, suggesting that the intrathecal release of both molecules is increased during progression to advanced immunodeficiency.

Partial synergy of bisindolylmaleimide with apoptotic stimulus in antigen-specific T cells--implications for multiple sclerosis

In multiple sclerosis (MS), induction of T cell apoptosis constitutes a promising therapeutic strategy. Recently, bisindolylmaleimide has been shown to be an effective treatment of experimental autoimmune encephalomyelitis, presumably due to enhancement of CD95-mediated T cell apoptosis. Therefore, we studied the effects of bisindolylmaleimide on human (auto)antigen-specific T cells. We observed a synergistic effect of bisindolylmaleimide with apoptotic stimulus assessed via caspase activity and annexin V-binding, but no potentiation of DNA fragmentation or cell death. Thus, bisindolylmaleimide might be useful for modulating T cell apoptosis, yet more potent substances have to be generated re-establishing immunological control over auto-reactive T cells.

Serum levels of soluble Fas in patients with Graves' ophthalmopathy

AIM

To assess levels of soluble Fas (sFas) in the sera of patients with Graves' ophthalmopathy.

METHODS

The subjects in this study were 43 patients with Graves' ophthalmopathy and 11 normal subjects. Serum levels of sFas were determined by sandwich enzyme linked immunosorbent assay. In addition, serum levels of thyroid stimulating antibody (TSAB) were also measured in all the patients.

RESULTS

The mean serum level of sFas was 1.35 (SD 2.03) ng/ml in patients with Graves' ophthalmopathy, and 0.93 (0.32) ng/ml in normal subjects. Serum levels of sFas in the subgroup of 24 patients with diplopia (1.98 (2.56) ng/ml) were significantly higher than those in the subgroup of 19 patients without diplopia (0.56 (0.24) ng/ml) and normal subjects (p <0.001). Serum levels of sFas in the subgroup of 27 patients with extraocular muscle hypertrophy (1.81 (2. 46) ng/ml) were significantly higher than those in the subgroup of 16 patients without extraocular muscle hypertrophy (0.58 (0.26) ng/ml) among the patients with Graves' ophthalmopathy and normal subjects (p <0.001). Serum levels of sFas were not significantly different between the subgroup of 24 patients with proptosis (1.15 (0.98) ng/ml) and the subgroup of 19 patients without proptosis (1. 61 (2.88)). In contrast, the serum levels of TSAB in the subgroup of patients with proptosis (723% (1161%)) were significantly higher than those in the subgroup of patients without proptosis (194% (122%)) (p <0.05).

CONCLUSIONS

Elevated sFas levels were associated with extraocular muscle disorders but not with proptosis. On the other hand, elevated TSAB levels were associated with proptosis but not with extraocular muscle disorders, suggesting different immunological mechanisms for the extraocular muscle disorders and proptosis in Graves' ophthalmopathy. Determination of the serum levels of sFas and TSAB could provide useful markers for evaluation of the immunological processes involved in the development of Graves' ophthalmopathy.

Increased levels of soluble Fas ligand in CSF of rapidly progressive HTLV-1-associated myelopathy/tropical spastic paraparesis patients

The interaction of Fas ligand (FasL) with Fas-bearing cells induces apoptosis and contributes to the negative regulation of peripheral T-cell responses. Membrane-bound FasL is cleaved by a matrix metalloproteinase-like enzyme and converted to a soluble form (sFasL). Recent studies suggest that such sFasL can cause systemic tissue damage. Here we report that serum and CSF levels of soluble FasL (sFasL) are markedly higher in three active phase patients with HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). All of these patients showed higher sFasL levels in CSF than in serum. Although the HTLV-1 proviral load of patients showed no correlation with serum or with CSF sFasL, CSF sFasL levels of 14 HAM/TSP patients correlated with the anti-HTLV-1 antibody titer and neopterin concentration in CSF. These results indicate that sFasL mediated mechanisms may contribute to the inflammatory process and subsequent spinal tissue damage seen in HAM/TSP patients.

Fas (APO-1/CD95) in inflammatory CNS diseases: intrathecal release in bacterial meningitis

Release of Fas (APO-1, CD95), a type L-membrane protein which plays a crucial role in cytokine-mediated apoptosis was investigated in bacterial meningitis, viral meningoencephalitis and multiple sclerosis in vivo. After correction for bloodbrain-CSF-disruption, significantly increased intrathecal release of Fas was demonstrated exclusively in bacterial meningitis arguing for an apoptotic cell death of granulocytes in the subarachnoidal space aimed to self-limit inflammatory host response.

Serum CD95 of relapsing remitting multiple sclerosis patients protects from CD95-mediated apoptosis

Failure of CD95-mediated apoptosis as a potential negative regulatory mechanism of T cell expansion may be involved in T cell-mediated autoimmune diseases such as multiple sclerosis (MS). Recently, soluble CD95 has been shown to be elevated in MS patients with active disease. Here, we report that the sera of MS patients inhibit CD95 ligand-induced apoptosis of susceptible target cells in a concentration-dependent manner and dependent on the amount of serum CD95 levels. Thus, MS sera contain biologically active inhibitors of T cell apoptosis that may allow for prolonged abnormal immune responses.

Fas has a crucial role in the progression of experimental autoimmune encephalomyelitis

To investigate the role of Fas in experimental autoimmune encephalomyelitis (EAE) in mice, we examined the susceptibility of EAE in C57BL/6 (B6).lpr mice lacking Fas. The frequency of myelin oligodendrocyte glycoprotein (MOG)-induced EAE in B6.lpr mice was significantly lower than that in B6 mice (19% vs 94%). However, no significant difference was observed between them in either the lymphocyte proliferation response or antibody reactivity to MOG. In addition, the histological examination and semiquantitative reverse transcriptase polymerase chain reaction analysis revealed that the infiltration of inflammatory cells and the up-regulation of gene expression for inflammatory cytokines occurred in the central nervous system (CNS) of B6.lpr mice immunized with MOG, even if they showed no clinical sign. These results indicate that Fas may contribute to the pathogenesis of EAE and may play a crucial role in the expansion of inflammation and/or myelin destruction in the CNS rather than in the activation of encephalitogenic T cells in the periphery and/or the breakdown of blood brain barrier.

Soluble Fas (Apo-1) levels in cerebrospinal fluid of multiple sclerosis patients

CSF and serum levels of soluble Fas were studied in MS patients, in patients with various neurological diseases and in healthy controls. We did not detect differences in serum sFas levels between MS patients and controls. In CSF, despite sFas levels being similar in all patients studied, a statistically significant correlation between sFas CSF/sFas serum ratio and BBB damage (expressed as albumin CSF/albumin serum ratio) was detected in non-MS neurological disease, but not in MS patients. The normalized ratio (sFas CSF/sFas serum)/(Alb CSF/Alb serum) was significantly increased in MS patients compared to patients with non-inflammatory neurological disease suggesting an intrathecal synthesis of soluble Fas in MS. The percentage of apoptotic mononuclear cells was higher in CSF as compared to peripheral blood; moreover a lower proportion of apoptotic cells was found in CSF of MS patients. The findings lend support to the involvement of sFas in MS pathogenesis and suggest that a lower apoptosis in CSF may be a feature of the disease.

Increased serum levels of soluble CD95 (APO-1/Fas) in relapsing-remitting multiple sclerosis

CD95/CD95 ligand interactions are critically involved in the negative regulation of peripheral T-cell responses. Here, we report that serum levels of soluble CD95 are significantly elevated in patients with relapsing remitting multiple sclerosis. In a transectional study, CD95 levels did not correlate with clinical disability or lesion formation on magnetic resonance imaging. Longitudinally, Expanded Disability Status Scale changes were associated with high CD95 levels. Interferon-beta (IFNbeta) treatment led to an initial increase and subsequent decline of serum CD95 levels. Interestingly, patients generating neutralizing antibodies to the drug had significantly higher baseline CD95 levels before IFNbeta treatment than those without neutralizing antibodies.