H-2 restriction of cell-mediated immunity to an intracellular bacterium: effector T cells are specific for Listeria antigen in association with H-21 region-coded self-markers.Zinkernagel, R M; Althage, A; Adler, B; Blanden, R V; Davidson, W F; Kees, U; Dunlop, M B; Shreffler, D C
doi: 10.1084/jem.145.5.1353pmid: 67177
The protective activity of anti-Listeria-immune T cells assayed in an adoptive transfer system in H-2 restricted. As shown in the present studies, the demonstration of the restriction is directly dependent on the dose and the relative protective activity of spleen cells. In addition, some H-2-unrestricted protection is conferred predominantly by other than immunoglobulin-negative spleen cells. Thus, the activity of Listeria-immune T cells appears to be 'absolutely' restricted and is in this respect comparable to in vivo T-cell-mediated anti-viral protection. The predominant genetic region of H-2 coding for the structures which are mainly involved in this restriction in T-cell immunity to this prototype intracellular bacterium is the I region. The specificity of Listeria-immune T cells is determined by the H-2 haplotype of the donor. Thus, F1 hybrids seem to possess at least two separable sets of T cells, each specific for one parental haplotype. As is true in the virus model, the results cannot distinguish between an altered-self or a dual recognition model of T-cell recognition to explain H-2 restriction. They are, however, compatible with the idea and I-coded cell surface structures may serve as receptors for cell-specific differentiation signals, which trigger direct or lymphokin-mediated activation of macrophages to manifest increased bactericidal capacity. The interesting parallels in self-marker recognition of T cells in the virus and intracellular bacterium systems, respectively, appear to be reasonably explained by the different types of signals transmitted by T cells to various target cells via the distinctly different self-markers employed (i.e., K or D vs I).
Association and dissociation of aggregated IgG from rat peritoneal macrophages.Knutson, D W; Kijlstra, A; Van Es, L A
doi: 10.1084/jem.145.5.1368pmid: 859000
Stable aggregated IgG (A-IgG) of various sizes, having high biological activity, were incubated at 4 degree C with adhering peritoneal macrophages from normal rats and the kinetics of A-IgG binding to the cell surface were studied. Equilibrium constants were high (2.8-11.7 X 10(8) M-1) and varied as a function of aggregate size. The maximum number of A-IgG bound per cell varied from 230,000 for A-IgG9 to 90,000 for A-IgG74. Binding was 50% inhibited by near physiological concentrations of monomeric IgC. These data suggest that A-IgG are bound at multiple sites by attachment of Fc frgments to Fc receptors present on the macrophage surface with larger A-IgG being more avidly bound. Dissociation was slower for larger A-IgG while no clear trend was seen relating associating rates and aggregate size. Thus, differences in the avidity of binding of A-IgG are due primarily to slower dissociation of larger A-IgG. Dissociationissociation of A-IgG was slower from cells exposed initially to higher doses of A-IgG and dissociation did not follow simple first order kinetics. Thus, the avidity of binding appears to be heterogeneous in a population of similar sized A-IgG. As expected, association was dose-dependent, more rapid than dissociation, and followed pseudo first order kinetics. Based on all of the above data, it is proposed that binding of A-IgG proceeds in two steps. First, A-IgG are loosely bound to perhaps a single Fc receptor. Then, depending upon the availability and mobility of Fc receptors, additional Fc fragments are attached and the A-IgG becomes more firmly attached. Thus binding is slow, but once attached A-IgG are avidly held.
In vitro tolerance induction of neonatal murine B cells as a probe for the study of B-cell diversification.Metcalf, E S; Sigal, N H; Klinman, N R
doi: 10.1084/jem.145.5.1382pmid: 67178
The susceptibility to in vitro tolerance induction has been implicated as a characteristic of B cells early in their development, since DNP-reactive B cells are tolerizable only during the first days after birth, and 25% of adult bone marrow cells are tolerizable. In the present study, a modification of the in vitro splenic focus technique was utilized to determine if PC-specific B cells, by virtue of their late expression (approximately 1 wk post-parturition), also display susceptibility to tolerance induction. The results demonstrate that at 7-10 days after birth, when over 90% of the DNP-specific splenic B cells are resistant to tolerance induction, the majority of PC-specific B cells are tolerizable. These results re-emphasize tolerance susceptibility as a characteristic of developing clones, confirm the late acquisition of PC-specific B cells, and support the contention that the acquisition of the specificity repertoire is a highly ordered, specifically predetermined process which is independent of antigen-driven events.
Cytotoxic T lymphocytes specific for I region determinants do not require interactions with H-2K or D gene productsBillings, P; Burakoff, S; Dorf, ME; Benacerraf, B
doi: 10.1084/jem.145.5.1387pmid: 67179
Gene products coded for by the major hisocompatibility complex (MHC) can serve as target antigens for cytotoxic T lymphocytes (CTL) (1). A variety of test systems are available which have yielded information consistently reinforcing the importance of this complex of genes in the generation and effector phases of the cytotoxic immune response. Originally, it was shown that allogeneically-induced CTL had specificity primarily for the products of the K and D loci of the mouse H-2 complex (2). More recently this has also been found to be the case for xenogeneic immunizations (3,4). Additional examples of T cell-mediated lysis have been reported involving viral-infected or chemically- modified syngeneic stimulating and target cells in which homology at H-2K or H-2D was required between the responding and target cells for appreciable lysis to occur (5-7). Moreover, CTL specific for minor histocompatability antigens are able to lyse only target cells bearing these membrane antigens and sharing a common H-2K or H2-D gene product with the effector (8,9). Two hypotheses have been proposed to explain the requirement for H-2 identity between effector and targets in these systems. CTL may recognize new antigenic determinants created by the interaction of the modifier with syngeneic K and D gene products. Alternately, a dual recognition system my exist, requiring an antigen-specific receptor as well as a second receptor with specificity for homologous H-2K or H-2D determinants (5). Neither model can be excluded at this time. The I region also contains genes coding for histocompatibility loci since animals differing at the I-A or I-C regions of the H-2 complex reject skin grafts (10-12), though less rapidly than mice differing at the H-2K or H-2D regions, Also CTL can be generated to I region determinants but less efficiently than CTL specific for H-2K or H-2D gene products (12-14). The question can therefore be raised, whether the I region minor histocompatibility loci function independently from the H-2K or H-2D loci or whether I region-specific cytolysis requires the participation of H-2K or H-2D gene products of the target cell. This communication illustrates the generation of CTL showing specificity for I region determinants in primary mixed lymphocyte cultures. Further, we demonstrate by genetic analysis and byt eh use of speficit alloantisera that CTL directed to Ia determinants (a) do not see these antigens as modifications of H-2K or H-2D gene products but as independent gene products coded for by the I region, and (b) they do not require interaction with target cells bearing the same H-2K or H-2D gene product as the effect CTL.
Generation of natural killer cells: an autonomous function of the bone marrow.Haller, O; Kiessling, R; Orn, A; Wigzell, H
doi: 10.1084/jem.145.5.1411pmid: 859002
Generation of natural killer (NK) cells in spleens from radiation chimeras produced between pairs of histocompatible 'high' and 'low' NK-reactive mouse strains has been investigated. Spleen cells of high-reactive recipients reconstituted with bone marrow from low-reactive mice were found to be low reactive. Conversely, spleen cells of low mice grafted with bone marrow or fetal liver cells from high donors were high reactive. Similarly, the age-related changes of NK activity were shown to be expressed at the bone marrow precursor cell level. These results indicate that the generation of natural killer cells is an inborn and autonomous function of the bone marrow and does not depend on the genotype or other influences of the host environment.