Arthritis and carditis were mildly improved upon adoptive transfer of
T cell enriched lymphocyte populations from Borrelia burgdorferi-infec
ted (B. burgdorferi) (immune) compared with naive immunocompetent mice
into B. burgdorferi-infected, severe combined immunodeficient (SCID)
mice. Despite the relative purity of T cells in the transferred cells,
recipient mice seroconverted to B. burgdorferi. Thus, the effect coul
d not be attributed to T cells alone. Passive transfer of serum from a
ctively infected immunocompetent mice (immune serum) to SCID mice at t
he time of or before B. burgdorferi inoculation, or on Days 4, 8, and
12 after inoculation prevented or cured (respectively) infection and d
isease when examined at 15 days. Transfer of immune serum on Days 12,
16, 20, 24, and 28 did not clear infection at Day 30 but resulted in r
esolution of arthritis, indicating that immune serum can cause resolut
ion of joint disease. Immune serum treatment could maintain arthritis
resolution for up to 60 days. Immune serum from mice infected for 90 d
ays or 15 months both had strong protective, post-infection, and arthr
itis-modulating activity, whereas hyperimmune serum to heat-killed B.
burgdorferi or recombinant outer surface protein (Osp) A protected mic
e against infection when given on Day 0-but not at later intervals-and
did not modulate disease. Immune serum from 90-day infected mice labe
led spirochetes in joint tissues of SCID mice by immunohistochemistry,
but hyperimmune serum to heat-killed B. burgdorferi or OspA did not.
These studies suggest that the biologically active properties of immun
e serum may be directed toward yet to be defined, in vivo-expressed an
tigens of B. burgdorferi.