The importance of being nearest

Suppressin: an endogenous negative regulator of immune cell activation

We have recently identified a new suppressor molecule we named suppressin (SPN) that has all the characteristics of a global negative regulator of the immune system. SPN is a unique 63-kD monomeric polypeptide with a pI of 8.1 that is produced and secreted under basal conditions by murine splenocytes, human peripheral mononuclear cells, and hormone-secreting pituitary cells. The biological actions of SPN in vitro include the inhibition of mitogen-induced proliferation and immunoglobulin synthesis of lymphocytes and the suppression of interleukin-2-dependent CTLL-2 cell proliferation. In addition, SPN enhances natural killer cell activity by eliciting interferon-alpha and -beta synthesis and secretion. SPN effects are reversible, nontoxic, and require the continuous presence of exogenous SPN. T lymphocytes stimulated with concanavalin A or phytohemagglutinin are more sensitive to SPN (90% inhibition) than are lipopolysaccharide-stimulated B cells (60% inhibition). SPN arrests lymphocytes in the G0/G1 phase of the cell cycle after reduction of their RNA, protein and DNA synthesis, suggesting that SPN inhibits the processes required for G0 transition to G1. SPN is found intracellularly in all unstimulated lymphocyte subsets, monocytes, and in phytohemagglutinin-activated T lymphocytes immunopositive for the low affinity interleukin-2 receptor. These results suggest that SPN may be a major negative regulator of cell proliferation in the immune system. All SPN-producing cell types are also sensitive to SPN. Collectively, the results of these experiments provide the foundations for a model in which SPN regulates lymphocyte proliferation in an autocrine and/or paracrine manner.(ABSTRACT TRUNCATED AT 250 WORDS)

Is there an interleukin 2 inhibitor in human serum?

Normal mouse serum has been shown to contain an inhibitor of interleukin 2 (IL-2). Here we report that a molecule with similar activity cannot be found in normal human serum (NHS). Although NHS inhibited the IL-2-dependent proliferation of mouse CTLL cells, as expected of an IL-2 inhibitor, it also had inhibitory activity on IL-3-dependent cells and was cytolytic to IL-2-independent mouse cells as measured by a 51Cr release assay, indicating a nonspecific effect. In addition, NHS had no effect on the IL-2-dependent proliferation of human peripheral blood T-cell blasts. Fractionation of NHS by size exclusion HPLC failed to separate cytolytic activity from any putative true IL-2 inhibitor activity. The cytolytic component was not related to immunoglobulin since it had a molecular weight of 50,000 to 60,000 and was not bound by protein-A-Sepharose. However, its molecular weight, heat lability, and trypsin sensitivity suggest it to be a protein.

Is the antibody response specific?

Introduction of heterologous immunoglobulin (Ig) or red blood cells into mice results in an increased production of Ig and immunogen-reactive antibody. Since the increase in both total Ig and specific antibody is similar, it is concluded that the antibody response is specific. This result, which contrasts with those of previous studies in which the production of large amounts of nonspecific Ig was reported, suggests that in vivo T-dependent B cell activation and differentiation to plasma cells requires the presence of immunogen and linked recognition.

Nonspecific inhibitor of DNA synthesis elaborated by T-acceptor cells. II. Requirements for its production and action

The production of a nonspecific inhibitor of DNA synthesis (nsINH) appears to be one of the final events in the T-suppressor cell circuit in mice exposed to contact sensitizers. We report here that: The nsINH suppresses the proliferative response to a polyclonal T-cell mitogen, concanavalin A (Con A), regardless of the dose of Con A used. It also suppresses DNA synthesis in lymphoid cells stimulated with alloantigens. This suppression can be completely eliminated by adding exogenous interleukin 2 (IL-2). DNA synthesis in lymphoid cells exposed to nsINH before the proliferative stimulus is uninfluenced so that activation of the lymphoid cells at the same time as exposure to nsINH seems to be a requirement for its action. Since the activity of nsINH can be absorbed by activated Lyt-1+ or Lyt-2+ lymphocytes, the early activated T cell appears to be a target of the action of nsINH. The production of nsINH is abolished or severely reduced by adult thymectomy. Natural killer (NK) cells are resistant to nsINH action and no interferon (IFN)-like activity can be demonstrated in nsINH preparation using a conventional assay for IFN.