Postnatal B cell development: influence of trinitrobenzenesulfonic acid treatment during pregnancy

Regulation of T-cell activation in the lung: isolated lung T cells exhibit surface phenotypic characteristics of recent activation including down-modulated T-cell receptors, but are locked into the G0/G1 phase of the cell cycle

Peripheral lung tissue contains large numbers of T cells, strategically located for immune surveillance at the blood-air interface. Given the intensity of antigenic exposure at this site, it is clear that local T-cell activation events require strict control, in order to maintain tissue homeostasis. How this control is achieved in this unique tissue microenvironment is unknown, and the present study sought to elucidate the process via detailed analysis of the surface phenotypic characteristics of freshly isolated lung T cells. We report below that these cells display typical characteristic of 'postactivation', notably elevated basal Ca2+ concentrations, down-modulated T-cell receptors, expression of Ia and 'late' activation antigens and concomitant CD4/CD8. However, levels of interleukin-2 receptor and CD2 expression were below those expected of 'activated' T-cell populations, and virtually all of the cells were found to be in the G0/G1 phases of the cell cycle. These properties bear a remarkable similarity to those of T cells activated in the presence of endogenous tissue (alveolar) macrophages from the lung (see accompanying paper). We hypothesize that they reflect the in vivo operation of an endogenous macrophage-mediated T-cell anergy-induction process, the function of which is to limit the local clonal expansion of T cells in peripheral lung tissue after in situ activation.

Alteration of idiotypic connectivity in prenatally tolerized neonatal mice

Prenatal tolerization with trinitrobenzenesulphonic acid (TNBS) leads to expansion of trinitrophenyl (TNP)-specific B cells, the majority of which become refractory to stimulation during postnatal development. One possible explanation could be that they belong to the repertoire of naturally activated B cells which are limited in expansion after antigenic stimulation due to a high degree of idiotypic connectivity. To evaluate this hypothesis, 59 thymus- and 490 spleen-derived B-cell hybridomas from 6-day-old prenatally untreated and prenatally TNBS-treated mice were tested for reactivity against 33 arbitrarily chosen clones derived from the same fusions, 17 being derived from control and 16 from tolerized litters. Two major points could be deduced: (1) Idiotypic connectivity, including connectivity of TNP- and anti-TNP-reactive monoclonal antibodies (MoAb), was maintained after prenatal tolerization. This accounted for thymus- and spleen-derived MoAb. (2) Only TNP- and anti-TNP-reactive MoAb derived from prenatally untreated and prenatally tolerized mice displayed significantly distinct idiotypic profiles. Differences were pronounced, especially with thymus-derived MoAb. Thus, TNP-specific B cells in prenatally tolerized newborns do not behave like B cells of adult mice stimulated by external antigen, but rather like a part of the naturally activated, idiotypically connected B-cell repertoire of the newborn. This could explain B-cell unresponsiveness at older age as a consequence--at least partly--of their high idiotypic connectivity.

Intrathymic T cell repertoire after prenatal trinitrobenzene-sulfonic acid-treatment

It is still a matter of debate, whether tolerance toward self-non-MHC antigens is due to intrathymic deletion or to regulatory processes in the periphery. To further pursue this question, responsiveness toward TNP and an anti-TNP monoclonal antibody (Sp6) carrying a recurrent idiotype was evaluated in prenatally trinitrobenzenesulfonic acid (TNBS)-treated mice. In prenatally untreated as well as in TNBS-treated mice, thymocytes proliferating in the absence of nominal antigen were double negative (L3T4-/Lyt2-), but antigen-specific thymocytes were single positive (L3T4+/Lyt2- or L3T4-/Lyt2+). TNBS-treated mice differed from controls inasmuch as in their first week of life T cells proliferating in response to TNP were found in the thymus and detected at increased frequencies in the spleen. The frequency of TNP-specific thymocytes and spleen cells declined rapidly, finally reaching in the spleen a level of 20-30% of controls. Furthermore, after antigenic stimulation, the frequency of thymocytes and spleen cells proliferating in response to TNP was found to be increased in control mice, but TNP-specific T cell were no more recovered in the thymus or the spleen of tolerized mice. The same accounted for thymic and splenic T cells proliferating in response to Sp6. They were expanded in control mice after antigenic stimulation, but were undetectable in TNBS-treated mice. Thus, T cells with specificity for an internal (Sp6) and an external (TNP) antigen, provided the latter was present during ontogeny, were detected in the thymus of control and, transiently, in the thymus of tolerized mice. But, the fate of antigen-specific thymocytes was different in prenatally untreated and TNBS-treated mice. The data are interpreted in the sense that tolerance toward non-MHC antigens may be acquired subsequently to tolerance toward self-MHC antigens and possibly after imprinting of antigen specificity.

Comparison between thymus- and spleen-derived B-cell hybridomas

When fusing thymocytes and spleen cells (SC) of 7- and 28-day-old BALB/c mice with Sp2/0, comparable numbers of clones were obtained. Immunoglobulin secretion was observed in 53-79% of splenic, but only 10-18% of thymic hybridomas. This was irrespective of tolerization through prenatal treatment with trinitrobenzenesulphonic acid (TNBS). Differences between control and tolerant mice were observed with respect to the frequency of anti-trinitrophenol (TNP)-producing hybridomas: in 7-day-old tolerant litters their frequency was increased in thymus and spleen as compared with controls, but it was decreased in 28-day-old tolerant mice. It is concluded that the majority of thymic B cells are in an activated, but non-producing state and that the repertoire of thymic B cells is influenced by prenatal contact with nominal antigen.

Recognition of idiotypic structures in the thymus

During the passage through the thymus, T cells are selected which recognize self major histocompatibility complex (MHC) antigens with low avidity. Whether the T-cell repertoire for recognition of altered self is also built up intrathymically or in the periphery, and whether it is determined exclusively by external antigens or is shaped by the internal environment is still a matter of debate. This question was addressed by analysing the responsiveness of thymocytes during post-natal development towards a nominal antigen [trinitrophenyl (TNP)] and an anti-TNP monoclonal antibody (Sp6), which carries a recurrent idiotype. During the first weeks of life, in vitro cultures of thymocytes proliferated strongly in the absence of nominal antigen. Proliferation rates were not increased by the addition of nominal antigen [TNP-ovalbumin (OA)], but a significant increase was noted in the presence of Sp6, thymocytes recognizing the processed immunoglobulin. After in vivo stimulation with TNP conjugates, 'antigen-specific' clones could also be detected in the thymus, the frequency of clones proliferating in response to Sp6 being further augmented. With increasing age, the proliferative capacity of thymocytes from unstimulated and antigenically stimulated mice decreased significantly. Responsiveness of spleen cells (SC) differed in some respects. The response towards Sp6 decreased with age, while antigen-specific clones were detected at increasing frequencies during post-natal development. Furthermore, after antigenic stimulation, the frequency solely of antigen-specific, but not of Sp6-specific clones was increased. Thus, it appears that the T-cell repertoire is shaped already during the intrathymic passage, being influenced primarily by the B-cell repertoire and modulated further by external antigen.

Tolerization during pregnancy: impact on the development of antigen-specific help and suppression

Analysis of splenic B cells in the offspring of BALB/c mice which were treated with 2,4,6-trinitrobenzenesulfonic acid (TNBS) throughout the gestational period revealed that reduced responsiveness was predominantly reflecting changes in regulatory cells. Since development of T cells takes place in the thymus, postnatal maturation of helper (Th) and suppressor (Ts) T cells was evaluated in the thymus as well as in the spleen. To elaborate the impact of prenatal TNBS-treatment on the trinitrophenyl (TNP) repertoire, TNP-sheep red blood cell- and fluorescein isothiocyanate-specific regulatory elements were determined in parallel. It was found that the thymus contained activated helper and suppressor cells during the first 2 weeks of postnatal life, the majority of which appeared to be self-specific. Self reactivity in thymus and periphery disappeared within 3 weeks. Prenatally TNBS-treated mice differed inasmuch as they apparently recognized TNP-self as a self component, TNP-self reactivity being down-regulated similar to self reactivity in prenatally untreated mice. This explains why prenatally TNBS-treated mice responded poorly to stimulation with conventional T-dependent TNP-carrier conjugates. Yet, they responded transiently to TNP-anti-TNP conjugates. It could be shown that this was due to down-regulation of putatively idiotype-specific Ts, which were highly increased in prenatally TNBS-treated mice. Data are interpreted in the sense that the establishment of self tolerance is preceded by activation of self-reactive Th, which become partially eliminated. Remaining autoreactivity is controlled by the establishment on an equilibrium between idiotypic and anti-idiotypic elements.