Gamma delta T-cell receptor repertoire in acute multiple sclerosis lesions

The presence of an endogenous murine leukemia virus sequence correlates with the peripheral expansion of gamma delta T cells bearing the BALB invariant delta (BID) T cell receptor delta

gamma delta T cells participate in immune responses during viral, bacterial, and parasitic infections. However, it is not clear whether they recognize antigens produced by pathogens, or are actually reactive to self-ligands generated during the course of infection. In this paper, we report that the presence of the self-ligand that selectively expands a subset of gamma delta T cells correlates with the presence of an endogenous murine leukemia virus (MuLV) in inbred strains of mice. The implications of this observation for gamma delta T cell specificity and function is discussed.

Spinal fluid lymphocytes from a subgroup of multiple sclerosis patients respond to mycobacterial antigens

Immune responses to heat shock or stress proteins are observed in several chronic autoimmune diseases. Such proteins are major antigens of many bacteria, especially mycobacteria. To determine whether immune responses to stress proteins occur in chronic inflammatory diseases of the central nervous system such as multiple sclerosis (MS) we measured proliferative responses of lymphocytes from spinal fluids and bloods of patients with MS and other neurological diseases to a sonicate of M. tuberculosis, an acetone extract of M. tuberculosis, a recombinant 65-kd heat shock protein of M. leprae, and tetanus toxoid as a control recall antigen. Significantly increased spinal fluid lymphocyte responses to mycobacterial sonicate, relative to responses from paired peripheral blood lymphocytes, were present in 14 of 20 specimens from patients with MS (p < 0.025) and 2 of 9 specimens from patients with other neurological diseases. Spinal fluid lymphocytes also responded to tetanus toxoid, but differences between blood and spinal fluid were not statistically significant. Lymphocytes from 1 patient with MS responded only to M. leprae. There were no proliferative responses to the M. tuberculosis acetone extract. When patients with MS were classified according to duration of disease (< 2- or > 2-yr duration) 9 of 10 patients with recent onset had cerebrospinal fluid cells that responded to M. tuberculosis compared with 5 of 10 with longer duration symptoms (p < 0.012). Our data suggest a selective recruitment and/or expansion of mycobacterial reactive cells to the central nervous system of a subpopulation of patients with MS.(ABSTRACT TRUNCATED AT 250 WORDS)

Peripheral selection of V delta 1+ cells with restricted T cell receptor delta gene junctional repertoire in the peripheral blood of healthy donors

To characterize the T cell receptor (TCR) repertoire expressed by the V delta 1+ gamma/delta T cell population, we have studied the V delta 1-J delta 1 junctional sequences from peripheral blood samples of healthy donors. We show that, surprisingly, this repertoire is restricted in most healthy adults, with a donor-specific and relatively stable pattern, whereas this repertoire remains unrestricted in infants, and is similar to that of thymocytes. These data contrast with the general assumption that the junctional repertoire of V delta 1+ gamma/delta T cells is extensive, and strongly suggest that peripheral recruitment of V delta 1+ cells bearing particular TCR occurs in humans during the postnatal stage.

Clonal expansions of activated gamma/delta T cells in recent-onset multiple sclerosis

Multiple sclerosis (MS) is a chronic disease characterized by focal demyelination of the white matter of the brain and spinal cord. Central nervous system damage appears to be mediated by infiltrating T lymphocytes and macrophages, and a central role for autoreactive CD4+ T cells has been proposed. However, the initial immune events that lead to the chronic process of MS remain unidentified. We now present evidence that a subset of T lymphocytes bearing gamma/delta T-cell antigen receptors has been activated in patients with recent-onset disease. Cells recovered from the cerebrospinal fluid of subjects with MS were cultured for short periods of time in medium supplemented with T-cell growth factors. Expansions of V delta 1 and V delta 2 T-cell receptor-bearing lymphocytes were found only in cell populations obtained from subjects with recent-onset disease. Similar populations were not expanded in subjects with chronic MS or other neurological diseases. Junctional region sequencing showed the expanded gamma/delta T cells to be oligoclonal in nature, suggestive of specific stimulation by antigen. These results reveal a fundamental difference in the immunopathogenesis of acute vs. chronic disease and provide additional insight into the autoimmune nature of MS.

Molecular characterization of the V gamma 9 T cell receptor repertoire expressed in patients with rheumatoid arthritis

We have characterized the variable (V)gamma 9 T cell receptor (TcR) repertoire expressed in synovial membrane (SMC) and peripheral blood mononuclear cells (PBMC) of five rheumatoid arthritis (RA) patients. The experimental approach was to sequence the junctional regions of polymerase chain reaction (PCR)-amplified V gamma 9 transcripts; gamma chain sequences were compared with those found in normal PBMC. For normal PBMC, a large proportion of V gamma 9 transcripts used the joining (J)gamma P gene segment whereas a few used J gamma 2. Despite this restriction in J gamma usage, there was extensive junctional region diversity with a unique sequence observed in each transcript examined. In contrast to normal PBMC, J gamma usage of V gamma 9 transcripts in PBMC of two patients was skewed towards J gamma 2. This deviation in J gamma usage was more pronounced in SMC since all patients expressed V gamma 9 transcripts in SMC which predominantly used J gamma 2, as opposed to J gamma P in normal PBMC. Further, approximately 60% of V gamma 9 transcripts in PBMC of each of three patients had identical junctional region sequences, although the specific sequences were unique in each patient. For two of these patients the dominant transcript found in the PBMC was detected in the corresponding SMC at about 10% and 40%, respectively. Overall, our findings indicate that V gamma 9-bearing T cells in RA peripheral blood are largely derived from clonal expansion whereas in the synovium there is expression of a population of these cells that are mainly polyclonal. This may reflect in vivo expansion in response to a V gamma 9/J gamma 2 region-specific antigen. The data presented in this report suggest that V gamma 9+ T cells may play a role in the development of RA.