Correlation of clinical and immunologic states in multiple sclerosis

Cyclophosphamide was administered to 14 patients with chronic progressive multiple sclerosis on an intermittent escalating dosage schedule adjusted to maintain numbers of peripheral blood B lymphocytes and helper/inducer (CD4) T cells below the fifth percentile of the normal population. Peripheral blood B cells, T cells, suppressor/cytotoxic (CD8) T cells, CD4 cells, and FcR+-bearing cell numbers and percentages were monitored at one-week to two-week intervals. Clinical status was assessed by neurologic examinations at approximately four-week intervals. Regression analysis revealed a statistically significant correlation between changes in immunologic status and changes in clinical state. The immunologic changes preceded the neurologic changes. Increases in percent of CD8 cells and decreases in percent of CD4 cells forecast improved clinical course. These findings, coupled with other studies, strongly suggest a pathogenetic role for helper and suppressor T cells in the production of clinical signs of multiple sclerosis.     

The effect of cyclophosphamide on T lymphocytes and T lymphocyte subsets in patients with chronic progressive multiple sclerosis

ABSTRACT— The lymphocytes in peripheral blood and cerebrospinal fluid of patients with chronic progressive multiple sclerosis (MS) were characterized with monoclonal antibodies to surface antigens of T cells, helper/inducer T cells and suppressor/cytotoxic T cells. The influence of cyclophosphamide treatment on these immune parameters was investigated.
Compared to healthy persons, the mononuclear cell fraction of the peripheral blood of patients with chronic progressive MS consisted of normal %s of T cells and helper/inducer T cells, but decreased %s of suppressor/cytotoxic T lymphocytes. Intensive as well as chronic treatment of MS patients with cyclophosphamide resulted in a decline in the %s of T cells and helper/inducer T cells, whereas the %s of suppressor/cytotoxic T cells returned to normal. In cerebrospinal fluid, cyclophosphamide also induced a relative decrease in the % of helper/inducer T cells and an increase in the % of suppressor/cytotoxic T cells compared to untreated MS patients. Intensive as well as chronic therapy with cyclophosphamide both led to a significant decrease in the absolute number of T cells and T cell subsets in the blood of the patients.     

CD4 and CD8 lymphocyte subsets in cerebrospinal fluid and peripheral blood from patients with multiple sclerosis, meningitis and normal controls

Objectives - To study the distribution of CD4⁺ and CD8⁺ T-cell subsets in cerebrospinal fluid (CSF) and peripheral blood from patients with multiple sclerosis (MS), meningitis, other neurological diseases and healthy controls.
Material and methods - The expression of markers for naive and memory cells (CD45RA⁺ and CD45RO⁺), and helper/inducer cells (CD29⁺) on CD4⁺ cells as well as CD45RO⁺ and killer/effector (S6F1⁺) on CD8⁺ cells was investigated in cerebrospinal fluid (CSF) and peripheral blood from patients with multiple sclerosis (n=28), meningitis (n = 13), other neurological diseases (n = 16), and healthy controls (n = 16) by 2-color flow cytometry.
Results - The majority of T cells in the CSF of the 4 groups exhibited the phenotype of memory cells (CD45RO⁺) on both CD4⁺ and CD8⁺ cells. The proportion of helper/inducer (CD29TD4⁺ in CD4⁺) cells was also larger in the CSF compared to peripheral blood in the 3 patient groups and controls investigated. In contrast, CD8⁺ cells with killer/effector (S6F1+) phenotype were fewer in CSF compared to peripheral blood in all 4 groups. There were no significant differences between patients and controls regarding the distribution of these activation markers in the CSF or peripheral blood.
Conclusion - Our observations support the notion that activated T cells of both CD4⁺ and CD8⁺ phenotype selectively pass the blood-brain barrier under both pathological and normal conditions.     

Loss of functional suppression is linked to decreases in circulating suppressor inducer (CD4+ 2H4+) T cells in multiple sclerosis

A consistent immunological finding in patients with progressive multiple sclerosis is a loss of functional suppression. We have recently found decreases in suppressor inducer T cells in progressive multiple sclerosis as measured by two-color immunofluorescence using differentiation markers CD4 and 2H4. In the present study, we examined the relationship between functional suppression and circulating CD4+ 2H4+ T cells using a two-stage assay. (1) T cells were stimulated for 7 days with irradiated non-T cells (autologous mixed lymphocyte reaction [AMLR]) and harvested. It has previously been shown that suppressor T cells are generated during the course of the AMLR. (2) The AMLR-generated suppressor T cells were then incubated with mononuclear cells plus pokeweed mitogen, and immunoglobulin (Ig) synthesis was measured. There was less AMLR-induced suppression of IgG synthesis in patients with progressive multiple sclerosis as compared with normal subjects and patients with other neurological diseases. More importantly, there were significant correlations between decreases in circulating CD4+ 2H4+ cells and the AMLR (p = 0.009). Thus, the decreases in functional suppression and the decreases in the AMLR in multiple sclerosis appear tightly linked to CD4+ 2H4+ cells, and their measurement provides a means to monitor suppressor function phenotypically. Decreases in suppressor inducer T cells may in part explain immunoregulatory abnormalities observed in multiple sclerosis.     

CD4+ lymphocyte subsets in the cerebrospinal fluid of multiple sclerosis and non-inflammatory neurological diseases

Summary We studied paired cerebrospinal fluid (CSF) and peripheral blood (PB) samples from 18 inactive multiple sclerosis (MS) patients and 10 with non-inflammatory neurological diseases. By means of a dual-colour cytofluorimetric micromethod we were able to count 1500 cells on average in each CSF sample. We found a significant reduction of CD45RA+ and CD4+CD45RA+ cells in the CSF of MS patients. Similarly, CD45RA+ and CD4+CD45RA+ CSF/PB ratios were lower compared with controls. The reduction of suppressor-inducer T-cells did not correlate with CD8+ cell levels in the CSF. The CD4+ subset ratio (CD4+CD45RA–/CD4+CD45RA+) was significantly increased in the CSF of MS patients. Our data suggest that the reduction of CD4+CD45RA+ cells in the PB is not due to a segregation of such cells in the CSF. Conversely, CSF changes reflect changes in the PB similar to these found for other T-cell subsets.     

CD8 high CD11b low T cells (T suppressor-effectors) in multiple sclerosis cerebrospinal fluid are increased during high dose corticosteroid treatment

Using simultaneous dual direct immunofluorescence the effect of high dose intravenous methylprednisolone on the expression of T lymphocyte differentiation antigens in paired cerebrospinal fluid and peripheral blood samples of nine clinically active patients with multiple sclerosis was studied. Corticosteroid treatment was associated with a clinical improvement in eight out of the nine patients. In cerebrospinal fluid of all patients the treatment was associated with a decrease of CD3+, CD4+ and CD8+ T cells, and of intra-central nervous system IgG synthesis. CD8+ high CD11b+ low suppressor-effector T cells behaved differently in the eight patients who improved with treatment, where they significantly increased, and in the patient without clinical response, where they were almost unchanged. Similar phenotypic changes were found in peripheral blood, and all changes returned towards baseline after treatment. The lower sensitivity to corticosteroids of CD8+ high CD11b+ low T cells could change the balance between immunoregulatory T subsets. In this study the increased availability of a subpopulation mainly composed of T cells with a suppressor-effector function was associated with a clinical response to treatment.     

Increases in helper inducer T cells and activated T cells in HTLV-I-associated myelopathy

Using two-color flow cytometric analysis, we studied peripheral blood lymphocyte subsets in 15 patients with human T-cell lymphotropic virus type I-associated myelopathy. The percentage of CD4+ 4B4+ cells (helper inducer T cell) was significantly increased in the patients with the myelopathy, compared with 16 healthy control subjects who were seronegative for human T-cell lymphotropic virus type I. However, there was no difference in the percentage of CD4+ 2H4+ cells (suppressor inducer T cell) between the two groups. The ratio of CD4+ 4B4+ cells to CD4+ cells and CD4+ 4B4+ to CD4+ 2H4+ cells was also elevated in these patients. The percentage of CD4+ DR+ cells and CD8+ DR+ cells, both of which are phenotypically activated T cells, and the ratio of CD4+ DR+ cells to CD4+ cells and of CD8+ DR+ cells to CD8+ cells are also increased in the patients, compared with the control subjects. The percentage of CD4+ 4B4+ cells showed positive correlations with values of spontaneous proliferation of peripheral blood lymphocytes and serum IgG level in patients with the myelopathy.     

Cerebrospinal fluid CD4<Superscript>+</Superscript> T cells from a multiple sclerosis patient cross-recognize Epstein-Barr virus and myelin basic protein

Epstein-Barr virus-specific CD4+ T cells could be involved in the pathogenesis of multiple sclerosis, provided they can gain entry to the intrathecal compartment. The authors have previously demonstrated that cerebrospinal fluid T cells from multiple sclerosis patients recognize autologous Epstein-Barr virus-transformed B cells. They now report that CD4+ T cells specific for the Epstein-Barr virus DNA polymerase peptide EBV 627-641 were present in the cerebrospinal fluid from one of two multiple sclerosis patients, and that a high proportion of these CD4+ T cells cross-recognized an immunodominant myelin basic protein peptide, MBP 85-99. In the observed patient, the proportion of EBV 627-641-specific CD4+ T cells seemed to exceed 1/10,000 in cerebrospinal fluid, compared to approximately 1/100,000 in blood. These findings prove that Epstein-Barr-virus specific CD4+ T cells can gain access to the intrathecal compartment, and suggest that Epstein-Barr virus-specific CD4+ T cells could target myelin basic protein in the central nervous system.     

Immunoregulatory properties of T-cell lines derived from the systemic and intrathecal compartments: a phenotypic and functional study

To determine whether immune regulation can differ within the intrathecal and systemic compartments, we compared phenotypic markers and functional properties of in vitro anti-CD3 monoclonal antibody-stimulated, interleukin 2-expanded lymphoid cell lines simultaneously derived from peripheral blood and cerebrospinal fluid of individual donors (n = 9). We found that the proportions of total CD8+ T cells and of the putative CD8+ suppressor effector subset (CD28-) were lower in the cell lines derived from cerebrospinal fluid compared with cultures derived from peripheral blood (p less than 0.025 and p less than 0.005, respectively; paired t test), whereas the total CD4+ T-cell proportion was higher (p less than 0.025). For a donor subgroup with "normal" peripheral blood cell-mediated activated suppressor function (63 +/- 2%), mean suppressor cell function mediated by unfractionated or CD8(+)-enriched cells derived from cerebrospinal fluid was significantly lower (38 +/- 7%; p less than 0.01, paired t test). For a donor subgroup with "low" peripheral blood cell-mediated suppression (-1 +/- 10%), suppression mediated by cerebrospinal fluid cells was also "low" (9 +/- 12%). Our results support the postulate that the immune response may be differentially regulated between the central nervous system and peripheral blood compartments.     

T cell subsets and disease progression after total lymphoid irradiation in chronic progressive multiple sclerosis.

T lymphocyte subset percentages were determined in 16 total lymphoid irradiation (TLI) treated and 18 sham treated control patients with chronic progressive multiple sclerosis. During the first year after treatment, the ratio of T helper/inducer to T suppressor/cytotoxic cells (Th/Ts ratio) was significantly higher in sham treated multiple sclerosis patients who worsened clinically compared with TLI treated and sham treated multiple sclerosis patients who remained clinically stable. TLI caused a fall in the percentage of T helper cells in treated patients, while the percentage of T suppressor cells remained stable during the first year after treatment. In contrast, the percentage of T suppressor cells fell in sham treated multiple sclerosis patients who worsened clinically.     

Derivation of ganglioside-specific T cell lines of suppressor or helper phenotype from cerebrospinal fluid of multiple sclerosis patients

In order to investigate the specificity of activated T cells in the cerebrospinal fluid (CSF) of patients with multiple sclerosis (MS), we have cultured cells in the presence of mitogen-free IL-2 but without any antigen. Two T cell lines have been derived and showed specific reactivity to certain purified gangliosides (GM1, GD1a, GD1b and GQ1b). However, responses to other brain and viral antigens were not seen, and neither were T cell lines from peripheral blood lymphocytes (PBL) of normal, MS or other neurological disease patients stimulated by these gangliosides. Release of IL-2 could be detected after incubation of these CSF lines with specific gangliosides. One line exhibited predominantly helper/inducer (T4+) phenotype whilst the other was suppressor/cytotoxic (T8+), and further analysis indicated it could be of the suppressor phenotype. These data may have implications for T cell-induced demyelination in MS.     

Parkinson's disease and immunological abnormalities: increase of HLA-DR expression on monocytes in cerebrospinal fluid and of CD45RO+ T cells in peripheral blood

The etiology of Parkinson's disease is mainly unknown. Immune abnormalities have been described, but the cause of such abnormalities has not been resolved. We examined by two-colour flow cytometry HLA-DR antigen expression on monocytes from cerebrospinal fluid (CSF) and blood and, moreover, lymphocyte subpopulations (CD4⁺ CD45RO⁺, CD4⁺ CD45RA⁺, CD8⁺ CD11b^+high) in peripheral blood from patients with Parkinson's disease compared with age-matched patients with other neurological diseases (OND) and tension headache. We found higher HLA-DR expression on CSF monocytes compared with blood monocytes. This difference was restricted to Parkinson's disease patients. T helper cell analysis revealed a decreased percentage of CD45RA⁺"naive" and an increased percentage of CD45RO⁺"memory" T cell subset from CD4⁺ T cells in peripheral blood of patients with Parkinson's disease compared with patients with tension headache. The proportions of CD8⁺ CD11b^+high"suppressor" T cells remained unchanged, among the three patient groups compared. A selective loss of CD4⁺ CD45RA⁺ cells, previously observed in diseases like multiple sclerosis and Down's syndrome as compared with healthy controls suggests a common immunological abnormality in neurological disorders.     

CSF T-cell subsets in multiple sclerosis: Relationship to cerebrospinal fluid myelin basic protein and clinical activity

Summary Cerebrospinal fluid myelin basic protein and cerebrospinal fluid and peripheral blood T-cell subsets have been studied in patients with multiple sclerosis and other inflammatory and non-inflammatory nervous system diseases. These biological parameters have been correlated with clinical disease activity. No changes in peripheral blood T-cell subsets were seen in multiple sclerosis patients. Low cerebrospinal fluid T8+ cells occurred only in multiple sclerosis, while high cerebrospinal fluid T4+ cells were detected both in clinically active multiple sclerosis and in inflammatory nervous system diseases. A close relationship was found between cerebrospinal fluid T4/T8 ratio and myelin basic protein in relapsing multiple sclerosis patients.Presented in part at the International Symposium on Neuroimmunology, 20–21 September 1988, Cagliari, Italy     

T-cell subsets in the cerebrospinal fluid and blood of patients with multiple sclerosis

The absolute numbers and ratios of helper/inducer (T4) and cytotoxic/suppressor (T8) T-cells were determined in cerebrospinal fluid (CSF) and blood of patients with multiple sclerosis (MS) and various other neurologic diseases (OND). In patients with MS, the T4:T8 ratio was higher in both blood and CSF, and the increase was significantly greater in CSF than in blood. These findings were due to an increased proportion of T4-lymphocytes in the CSF and to a decreased proportion of T8-cells in blood. These results indicate the need for additional studies of CSF lymphocytes in patients with MS.     

CD4 T cell activation and disease activity at onset of multiple sclerosis

We studied CD4 T cell activation in patients with clinically isolated syndromes (CIS) suggesting an initial attack of multiple sclerosis. The percentage of blood CD26+ CD4 T cells was increased in these patients, and correlated with magnetic resonance imaging disease activity and clinical disease severity. In contrast, the percentage of CD25+ CD4 T cells in cerebrospinal fluid correlated negatively with the cerebrospinal fluid concentration of myelin basic protein and the presence of IgG oligoclonal bands. These results suggest that distinct systemic and intrathecal T cell activation states correlate with disease activity and risk of subsequently developing MS in CIS patients.     

流式细胞仪检测成年人脑脊液T淋巴细胞亚群百分比参考范围

目的初步建立脑脊液T淋巴细胞亚群正常参考范围。方法使用四色流式细胞仪检测49例无神经系统疾病人群脑脊液和血液的T淋巴细胞亚群(CD3+CD4+、CD3+CD8+、CD3+CD69+)百分比水平。结果 (1)正常脑脊液T淋巴细胞亚群构成以T辅助细胞(CD3+CD4+T细胞)为主。T辅助细胞平均占脑脊液T淋巴细胞总数的68.27%,参考范围为54.77%～81.77%。T抑制细胞(CD3+CD8+T细胞)平均占脑脊液T淋巴细胞总数的31.73%,参考范围为18.23%～45.23%。活化T细胞(CD3+CD69+T细胞)平均占脑脊液T淋巴细胞总数的2.76%,参考范围为0.29%～26.29%。脑脊液CD4/CD8比值平均为2.21,参考范围为1.16～4.21。脑脊液的T辅助细胞百分比、活化T细胞百分比和CD4/CD8比值高于血液,T抑制细胞百分比低于血液(P<0.05)。(2)脑脊液与血液各T淋巴细胞亚群在各年龄组间无统计学差异。(3)脑脊液和血液各T淋巴细胞亚群在男女之间亦无统计学差异。结论本文初步建立了脑脊液T淋巴细胞亚群百分比的参考范围;正常脑脊液T淋巴细胞中以T辅助细胞为主,且其亚群分布特点与血液T淋巴细胞亚群不同。     

Decrease of CD4+ CD45+ T-cells in chronic-progressive multiple sclerosis

Summary Circulating lymphocyte subpopulations defined by anti-CD45 and other more common T-cell-specific monoclonal antibodies were analysed in 77 patients with multiple sclerosis and 38 healthy controls. A selective decrease of CD4+ CD45+ cell percentages and absolute numbers in chronic-progressive patients was found; in 13 out of 26 patients this subpopulation was less than 11% CD4+ CD45+ cells. Similarly, the whole CD45+ cell subset, as well as CD45+ cells expressed as percentages of CD4+ cells, were significantly reduced in chronic-progressive multiple sclerosis. CD4+ CD45+ cells, commonly termed inducer of suppression T-lymphocytes, did not correlate with percentages or numbers of CD8+ cells. It is concluded that suppressor inducer T-cells act on the CD8+ subset function rather than reducing CD8+ cell numbers. Since CD4+ CD45+ cells represent an early stage of lymphocyte maturation (naive T-cells), an under-representation of this subpopulation in active multiple sclerosis might reflect an increased conversion of naive cells into memory cells. This concept may be relevant for a better understanding of the disease pathogenesis.     

Increase of CD4+TNF{alpha}+IL-2-T cells in cerebrospinal fluid of multiple sclerosis patients

Intracellular production of TNFalpha and IL-2 after stimulation with phorbol myristate/ionomycin was flowcytometrically measured in CD4(+) T cells from peripheral blood (PB) and cerebrospinal fluid (CSF) of 29 patients with multiple sclerosis (MS), and 16 with other inflammatory and 41 with other non-inflammatory neurological diseases. In CSF, the percentages of CD4(+)TNFalpha(+)IL-2(-)T cells were significantly higher in patients with MS than either of the controls, whereas no difference was found in CD4(+)TNFalpha(+)IL-2(+)T or CD4(+)TNFalpha(-)IL-2(+)T cells. The increase was more pronounced at relapse than in remission. No significant change was detected in PB. These findings suggested that CD4(+)TNFalpha(+)IL-2(-)T cells are intrathecally upregulated in MS.     

T-lymphocyte subsets defined by double immunofluorescence in multiple sclerosis

T-lymphocyte subpopulations were studied in the blood of 25 multiple sclerosis patients and 25 healthy age and sex-matched controls. Monoclonal antibodies labelled with different fluorochromes were used to define the percentages of CD4 (helper/inducer) and CD8 (suppressor/cytotoxic) positive cells and to dissect them into phenotypic subgroups. The results confirm the decrease in CD8 positive cells in the blood associated with multiple sclerosis. The subset showing the most marked decrease was the CD11 marker negative population, which has been reported to be associated with cytotoxicity rather than suppression. There was no significant decrease in the percentage of cells positive for both CD4 and CD45R markers reported to contain suppressor-inducer or naive T-helper cells in the MS patients. The results suggest that further dissection of T-cell subpopulations may clarify our understanding of this disease process.     

Evidence for a missed signal to the CD8+ cells in CSF of Multiple Sclerosis patients

Peripheral blood (PB) and cerebrospinal fluid (CSF) lymphocyte subpopulations, defined by various T-cell specific monoclonal antibodies and flow cytometry, were analysed in 44 relapsing remitting multiple sclerosis (RRMS) patients (including 21 subjects in the acute phase and 23 in the stable phase), 40 chronic-progressive multiple sclerosis (CPMS) patients, and 24 patients with other neurological diseases (OND), in order to verify the presence of any abnormality in the lymphocyte subset pattern. A significant increase in the total number of T-lymphocytes and the CD4+ subpopulation was found in the PB of the MS patients in comparison with the OND group. Moreover, a not statistically significant increase in CD4⁺ cells was observed in the CSF of MS patients. A statistically significant increase was also found in the CD4⁺ Leu 8⁺ (suppressor inducer) cells in the CSF of all of the MS groups. Finally, the CD8⁺ (suppressor/cytotoxic) cell levels, were significantly lower in the CSF of CPMS and stable RMS patients than in the CSF of the OND patients. As a whole, our data suggest that the immunosuppressive deficit that seems to be a constant finding in MS is not due to a decrease in suppressor inducer cell levels, as previously suggested, but may be caused by a missed or altered signal from the suppressor inducer to CD8⁺ suppressor cells.