THE T-CELL RESPONSE TO MYELIN BASIC-PROTEIN IN FAMILIAL MULTIPLE-SCLEROSIS - DIVERSITY OF FINE SPECIFICITY, RESTRICTING ELEMENTS, AND T-CELL RECEPTOR USAGE
N. Joshi et al., THE T-CELL RESPONSE TO MYELIN BASIC-PROTEIN IN FAMILIAL MULTIPLE-SCLEROSIS - DIVERSITY OF FINE SPECIFICITY, RESTRICTING ELEMENTS, AND T-CELL RECEPTOR USAGE, Annals of neurology, 34(3), 1993, pp. 385-393
Indirect evidence suggests that an autoimmune response to myelin basic
protein (MBP) may be involved in the pathogenesis of multiple scleros
is (MS). In MS, several reports have suggested that restricted T-cell
populations respond to MBP, as in inbred rodents with the MS disease m
odel experimental allergic encephalomyelitis. In experimental allergic
encephalomyelitis, the T-cell repertoire to MBP varies between strain
s, and in MS it is likely that the response to MBP is also best define
d under conditions where genetic differences between subjects are cont
rolled. In this report, the fine specificity of the T-cell response to
MBP was assessed in three families, each with multiple individuals af
fected with MS. We found that (1) comparable frequencies of MBP-reacti
ve T-cell lines were obtained from peripheral blood of MS patients and
their healthy siblings. Human leukocyte antigen (HLA) identical sibli
ng pairs discordant for MS had similar frequencies of MBP-reactive T-c
ell lines. (2) A broad spectrum of MBP epitopes was recognized by T-ce
ll lines from all individuals studied. Within a family, the fine speci
ficity of MBP recognition showed little or no overlap between individu
als, even between HLA identical siblings. (3) Recognition of MBP epito
pes occurred in the context of different HLA class II alleles. At leas
t four DR alleles each served as restricting elements for recognition
of P82-101 or the carboxy terminal region of MBP, two regions thought
to be important in the human T-cell response to the molecule. No relat
ionship between the use of a particular DR allele and a response to a
particular region of MBP could be established. (4) Apparently random e
xpression of different T-cell receptor Vbeta gene families by MBP-reac
tive T-cell lines was present, with little overlap by different lines
reponding to the same region of MBP, or between different individuals
belonging to the same family. These results demonstrate that the frequ
ency and fine specificity of T-cell responses to MBP in peripheral blo
od is independent of the MS phenotype.