Two distinct azobenzenearsonate-specific helper T-cell subpopulations mediate different forms of T-B cooperation

Functional heterogeneity of CD4-positive T-cell subsets: the correlation between effector functions and lymphokine secretion is limited

Several effector functions and the lymphokine secretion pattern of 30 antigen-specific CD4+ T-cell clones have been investigated. The clones were generated directly by limiting dilution cloning of nylon wool-purified T-cells obtained from KLH immunized BALB/c mice and avoiding an initial bulk culture phase. Using this approach the CD4+ T-cell clones were grouped into helper and nonhelper subsets. Among the helper subset, clones which helped B-cells for specific antibody production by either cognate or noncognate recognition were identified. Some but not all of these helper clones fitted into the Th1 and Th2 scheme, if the lymphokine secretion pattern was evaluated. Among the nonhelper subset CD4+ clones which killed activated APC in a MHC class II-restricted and antigen-specific manner were identified. In addition, one clone which suppressed B-cell antibody production mediated by helper clones was found. However, neither the suppression of antibody responses nor the inability of the nonhelper clones to help B-cells is due to the killing of B-cells. Various attempts were made to convert nonhelper into helper clones and helper into killer clones, without success. Thus, the functional properties of these clones are stable traits and not convertible by varying the experimental conditions.

In vitro and in vivo stimulation of murine lymphocytes by human respiratory syncytial virus strains

Respiratory syncytial virus (RSV) strains of subtype A (A2, WV9894, and WV12138) and of subtype B (WV1293, WV4843, and WV6873) are mitogenic in vitro for unprimed BALB/c spleen cells. The virus also triggered splenocytes in vitro to secrete immunoglobulins. Plaque-purified and UV-irradiated materials of both RSV subtypes produced comparable levels of DNA synthesis. Infectious materials of both subtypes also induced pronounced responses. Lymphocyte activation with UV-inactivated RSV strain A2 was dose-dependent and maximal responses occurred after 4-5 days of incubation. The virus preparations were mitogenic for spleen cells depleted of T lymphocytes by treatment with anti-Thy 1.2 and complement and for lymphocytes of congenitally athymic mice (nu-nu). They were also mitogenic for highly purified T lymphocytes separated by panning of spleen cells on anti-mouse Ig-coated Petri dishes, suggesting that both B and T lymphocytes respond to the mitogenic activity of RSV. Moreover, mice infected intranasally with RSV strain A2 generated local as well as peripheral cellular and humoral responses.

Enhancement of helper and suppressor T cell activities by thymosin alpha 1 injection in old mice

A single injection of immunodeficient old (15-24 month old) BDF1 mice with 1-100 micrograms of synthetic thymosin alpha 1 (T alpha 1), a 28-amino acid residue peptide, shortly before horse erythrocyte (HRBC)-priming, enhances the helper activity of their spleen cells. Helper activity of spleen cells from uninjected or T alpha 1-injected HRBC-primed old mice was titrated by adding graded numbers of these primed cells to cultures containing a constant number of normal spleen cells from unprimed young (3-month-old) mice and the conjugate 2,4,6-trinitrophenyl (TNP)-HRBC. As evaluated from the in vitro anti-TNP antibody response, spleen cells exhibit higher helper activity when derived from T alpha 1-injected, as compared to uninjected, HRBC-primed old mice. No effect is observed when T alpha 1 is injected in young mice before HRBC-priming. Old mice were also injected with the N14 (N-terminal amino acid residues 1-14) or the C14 (C-terminal amino acid residues 15-28) synthetic fragments of the T alpha 1 molecule. Injection of T alpha 1 or the N14 fragment restores the helper activity of old mice to levels comparable to that displayed by helper cells from young mice. Conversely, injection of the C14 fragment in old mice induces only a negligible increase in helper activity of their spleen cells. T cells from HRBC-primed mice were separated by nylon wool filtration into Th1 (non-adherent) and Th2 (adherent) T cells and these cell subpopulations were assayed for helper activity. Helper activity of Th1 and Th2 cells is found to be impaired by aging when they are tested either separately or upon their recombination.(ABSTRACT TRUNCATED AT 250 WORDS)

Helper function of human T cells with different affinity for Helix pomatia A hemagglutinin in a tetanus toxoid-induced B cell differentiation system

T cells from human peripheral blood were enriched in T4+ cells by lysis of T8+ cells with the monoclonal antibody OKT8 plus complement. The T4+ subset was separated into 4 fractions differing in avidity for the lectin Helix pomatia A hemagglutinin (HP). The fractions were studied for their capacity to help autologous B cells to differentiate and mature into immunoglobulin (Ig) synthesis and secretion after activation with tetanus toxoid (TT) in vitro. To ensure the antigen specificity of induction, very low doses of TT (1-100 ng/ml) were used for activation of the lymphocytes, all obtained from previously sensitized donors. The T4+ cells with low avidity for HP (fractions HP-I and HP-II) exerted little help for B cell differentiation. Removal of these cells enhanced the helper function of the remaining T4+ cells, indicating that fractions HP-I and HP-II contained suppressor cells. In contrast, efficient B cell help was provided by T4+ cells with high avidity for HP (fractions HP-III and HP-IV). However, these fractions differed in the quality of help provided. Thus, while HP-III cells induced IgG secretion, HP-IV cells mainly induced IgM secretion. Moreover, while the Ig secreted after help from HP-III cells was TT-specific antibody, the Ig secreted by B cells in the presence of autologous HP-IV cells was polyclonal, probably reflecting induction of B cells differing in their responsiveness to signals provided by different types of T cells. The results indicate that T4+ cells vary in their stage of differentiation as seen by differences in expression of the HP marker and that differences in HP-marker expression appear to be associated with differences in cellular functions.