Kurt Berg

Mononuclear cells from the blood of healthy normal humans were kept in cultures under nonstimulating conditions for 16 hr in the presence or absence of human interferon. The relative quantities of HLA antigens and beta(2)-microglobulin on the cultured cells were determined by quantitative immunofluorescence (fluorescence-activated cell sorter) and by the capacity of cells to absorb out cytotoxic antibodies against the relevant antigens. Interferons of different origin and purities enhanced the expression of HLA antigens and beta(2)-microglobulins, whereas membrane immunoglobulins and antigens recognized by antiserum raised against human brain and T cells were the same on interferon-treated and control cells. Similar interferon effects were observed on an Epstein-Barrvirus-negative Burkitt lymphoma cell line. The enhanced expression of histocompatibility antigen subsequent to intereferon treatment was observed on B- and T-enriched lymphocyte populations and was found to be dose dependent with the optimum with "physiological" concentrations of interferon. Pretreatment of lymphocytes with interferon for 2 hr was found to be as effective as having interferon present during the total culture period. The interferon-induced enhancement of antigen expression on cells was dependent on active protein synthesis.

Rabbit antisera prepared against interferon produced in human fibroblast cell cultures stimulated with poly(1).poly(C) neutralized the activity of interferon preparations produced in various human fibroblast cultures timulated either with poly(1)poly)C) or with viruses. However, these antisera showed no detectable neutralizing activity against interferon produced in cultures of human leukocytes. On the other hand, most rabbit antisera against the human leukocyte interferon were active in neutralizing both homologous interferon and fibroblast interferons. A preparation of antiserum against leukocyte interferon, active against both leukocyte and fibroblast interferons, was shown by affinity chromatography to have two distinct antibody populations, one of which was specific for the fibroblast interferon. We conclude that the heterologous neutralizing activity of sera from rabbits immunized with leukocyte interferon is liekly to be due to the presence of two antigenic species of interferon. The major antigenic species of leukocyte interferon preparations (designated "Le") is distinct from huamn fibroblast interferon. The minor species of leukocyte interferon ("F") is either identical with, or closely related to, interferon produced in human fibroblast cultures.

Purified human lymphocyte interferon (PIF) was added to mixed lymphocyte cultures; DNA synthesis was measured and killer-cell generation was determined. At certain concentrations, PIF ingibited proliferation, but at the same time increased the killer efficiency of the resultant culture cells. It is suggested that lymphokines, apart from their normal mediator function, may play a role as regulators of the generating immune response.

Abstract Mouse interferon produced in L cells was subjected to affinity chromatography on Sepharose-bound anti-interferon globulin. The hyperimmune anti-interferon serum was specifically adsorbed to remove antibodies against proteins derived from normal L cells, medium, and inducer virus preparation. The method permitted selective elimination of identified contaminant antigens from crude interferon preparations. Recovery of interferon was quantitative, and purification during this step was from 20- to 50-fold. Specific activities in peak fractions ranged from 1 to 2.7 × 108 National Institutes of Health reference units per mg protein. Interferons induced by irradiated Newcastle disease virus and poly I:C were purified to the same degree.