INF Gamma Research Articles

Cell surface phenotype, cytokines, and antibody gene expression in immortalized human B cell lines

In an attempt to gain some insight into the many factors influencing antibody gene expression in human B cell lines, we have examined in detail the relationship between cell surface phenotype, cytokines, and the growth and antibody-producing capacity of a panel of immortalized human B cell lines. The cell panel comprised lines secreting either high or low titers of antibodies against Rhesus D, hepatitis B surface, and tetanus toxoid antigens. All the transformed cell lines exhibited a cell surface phenotype characteristic of well-differentiated peripheral blood cells strongly expressing CD23 and CD38 while weakly expressing CD10 and CD21. There was no obvious relationship between the antibody-body-secreting and proliferative capacity of the cell lines and their cell surface phenotype. Antibody secretion by the cells was rarely improved by the addition of a wide range of doses of recombinant IL-2, IL-4, or IL-6. In addition, such treatment frequently inhibited proliferation. Supernatants from some of the cell lines promoted the growth of unrelated cell lines but failed to influence antibody production. Such supernatants contained the highest concentration of IL-1, TNF beta, TGF beta, and soluble CD23. In contrast, the heterohybrid supernatant which inhibited cell growth secreted low levels of these cytokines. None of the cell lines secreted detectable amounts of IL-2, IL-4, INF gamma, or GCSF. There was no obvious relationship between cytokine production and antibody secretion. Finally, LPS had a slight but variable effect on antibody secretion but failed to influence cell growth.

Early carcinoma of the extrahepatic bile duct.

This study attempts to define early carcinoma of the extrahepatic bile duct through a study of 11 patients whose carcinomatous invasion did not extend to the outer layer of the bile duct. The patients were divided into the following 3 groups, namely; a mucosa group comprised of 3 patients, a fibromuscular layer group comprised of 5 patients, and an adventitia group comprised of 3 patients. None of the patients had any lymphnode metastases. Histological characteristics were determined according to infiltrative growth (INF alpha, beta, gamma), lymphatic invasion (ly), venous invasion (v) and perineural invasion (pn). In the mucosa group, INF alpha was observed in 2 patients, while ly, v, and pn factors were all negative. In the fibromuscular layer group, INF beta was seen in 3 patients, ly was positive in 2 patients, while v, and pn factors were negative in all patients. In the adventitia group, INF gamma was found in 2 patients, and ly, v, and pn factors were positive in all patients except for 1 in whom v was negative. Death from recurrence occurred in all the adventitia group patients and in 1 other patient. Early carcinoma of the extrahepatic bile duct could therefore be defined at present, as being carcinoma confined to within the mucosa and fibromuscular layer.

Analysis of Propionibacterium amis‐induced non‐specific immunity to Trypanosoma brucei in mice

Mice treated with dead Propionibacterium acnes (previously called Corynebacterium parvum), up to 30 days before infection with any of three strains of Trypanosoma brucei, were more able to limit the level of first-wave parasitaemia than untreated controls. Reduced parasitaemia was not due to enhanced phagocytosis of input parasites and was associated with a dramatic reduction in the proportion of multiplying T. brucei in the blood of treated as compared to control mice. For 4 days after P. acnes treatment, T. brucei growth-inhibitory molecules, assayed by their effect on T. brucei multiplication under axenic culture conditions, were detected in the serum of recipient mice. The molecules were released by macrophages collected from the peritoneal cavity of P. acnes-treated mice, and similar molecules were produced in vitro by macrophages from normal mice after incubation with P. acnes. Accessory studies suggested that the molecules were breakdown products of P. acnes and were unlikely to be responsible for the long-term in-vivo effects of the P. acnes treatment. It was also shown that monokines and lymphokines which are likely to be induced by in-vivo P. acnes treatment, i.e. IL-1, IL-2, TNF alpha, INF alpha, INF beta, INF gamma, PGE1, PGE2, PGF2 alpha and biological mediators present in Con-A and LPS-induced spleen cell supernatants (collected 20, 40, 60 or 80 h after mitogen stimulation) had no influence on T. brucei growth under axenic culture conditions over a wide range of concentrations. The studies suggest that the P. acnes effect was not due to a direct interaction of these biological mediators with the T. brucei. We suggest that the reduction in T. brucei parasitaemia in P. acnes-treated mice reflects secondary physiological effects of one or more unidentified biological mediators.

Parallel induction of fibrinolysis and receptors for plasminogen and urokinase by interferon gamma on U937 cells

A new cell sorter technique was employed to study the role of interferon gamma (INF gamma) in fibrinolysis induced by U937 monocytic cells. INF-gamma induced the differentiation of U937 cells as evidenced by the appearance of CD 14 antigen on the cell surface. Scatchard analysis and dose response curves showed a parallel increase in the number of receptors on U937 cells capable of accepting exogenous plasminogen and urokinase (UPA) synthetized by differentiating U937 monocytic cells. This would favour an activation of plasminogen by UPA. This adds a new parameter in the regulation of cell-mediated fibrinolysis and may be important in a number of biological processes.

Separate induction of MHC and thyroid microsomal antigen (McAg) expression on thyroid cell monolayers: enhancement of lectin-induced McAg expression by interferon-gamma.

Interferon-gamma (IFN gamma) induced the expression of the MHC class II antigens HLA-DR and -DQ on 1- to 2-week-old thyrocytes from normal thyroid tissue and thyroid tissue from patients with autoimmune thyroid disease; it also enhanced the expression of B2-microglobulin, which is associated with MHC class I molecules. However, the expression of thyroglobulin and thyroid microsomal antigen (McAg) was not detected after IFN gamma stimulation. Autologous and allogeneic peripheral blood mononuclear cells had the same ability as IFN gamma to induce antigen expression when cocultured with thyrocytes. In contrast, leucoagglutinin (LAG) induced McAg as well as HLA-DR and B2-microglobulin expression on thyrocytes, but not thyroglobulin expression. Concanavalin A and pokeweed mitogen also induced McAg expression. The time course of LAG induction of McAg was not always correlated with that of HLA-DR. Anti-IFN gamma, antiinterleukin-2 receptor, and anti-HLA-DR monoclonal antibodies inhibited LAG or peripheral blood mononuclear cell induction of HLA-DR expression, but not LAG induction of McAg expression. Anti-HLA-DR reduced the IFN gamma induction of HLA-DR. INF gamma enhanced thyrocyte McAg expression induced by LAG, especially when thyrocytes were incubated with IFN gamma for 24 h before LAG stimulation. In contrast, in the absence of LAG stimulation, IFN gamma suppressed already present spontaneous McAg expression. TSH did not induce McAg and HLA-DR expression on DR-negative thyrocytes, but enhanced weak DR expression induced by other stimulants, e.g. IFN gamma or lectins. These data suggest that in vitro induction mechanisms of MHC class I and II antigens and McAg are different; MHC antigens are induced by IFN gamma, whereas McAg is induced by lectin, probably acting on thyrocytes directly; and IFN gamma has an enhancing effect on LAG-induced thyrocyte McAg expression.