The fetal lamb in utero is able to form large amounts of specific antibody in response to antigenic stimulus as early as the 66th to 70th day of the 150 day gestation period. Among the several antigens employed, the fetal lamb responded earliest, and with the highest titers, to bacteriophage φX. Slightly less effective as an antigen was horse ferritin, while ovalbumin proved to be a weak antigen, especially in younger fetuses. Ineffective in stimulating an antibody response at any time during fetal or early neonatal life were diphtheria toxoid, Salmonella typhosa, and BCG. Thus, it may not be feasible to fix precisely the time of onset of immunologic responsiveness in a species, inasmuch as it appears to differ so greatly from one antigen to another.
The quantity of antibody found 10 days after φX immunization was not significantly different in fetuses injected at 60 to 120 days of gestation. The earliest anti-phage antibody produced by the lamb fetus is a macroglobulin sensitive to the action of 2-mercaptoethanol. Only in older fetuses with longer lasting stimuli were appreciable amounts of 7S γ-globulin antibodies formed.
The conformity of these observations to theories on the ontogenesis of the immune response is discussed.
The influence of the age and immune status of the host on the slow replication and persistence of visna virus in sheep was studied. Twenty-five randomly bred fetal American lambs were inoculated intracerebrally with visna virus. Eight of these fetuses were immunosuppressed by thymectomy and antiserum to lymphocytes before inoculation. Fetuses were sacrificed sequentially, and tissues were processed for viral quantitation. No exponential increase of virus occurred in either the normal or immunosuppressed fetuses, and virus was recovered mainly by explanation of tissues. This finding indicated that the viral genome was present in tissue cells but that the extent of replication in the early phase of infection was restricted by factors unassociated with maturation or immune status of the host. In addition, virus isolated from the peripheral blood leukocytes of a sheep one year after inoculation was antigenically distinct from the plaque-purified virus used for inoculation. This distinction suggested that a major antigenic shift of the agent had occurred and provided another mechanism for the maintenance of the persistent infection.
How do we account for the immune system's ability to produce antibodies in response to new antigens? It has been 50 years since F. Macfarlane Burnet published his answer to this question: the clonal-selection theory of antibody diversity. The idea that specificity for diverse antigens exists before these antigens are encountered was a radical notion at the time, but one that became widely accepted. In this article, Nature Reviews Immunology asks six key scientists for their thoughts and opinions on the clonal-selection theory, from its first proposal to their views of it today.
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