Analysis of T cell subsets in cancer patients treated with interferon

Interferons and autoimmunity

Autoimmunity can be accelerated in several genetically prone murine models and can even be induced in normal mice by treatment with interferon (IFN) or IFN-inducers. Several cases of IFN-induced autoimmune disease in humans also have been observed; however, more striking is the fact that some of the clinical manifestations in autoimmune diseases and many of the immunological aberrations can be mediated or enhanced by IFN. The finding of high levels of circulating IFN in many patients may be highly significant in that respect, and the characterization of the predominant type of IFN as an unusual acid-labile IFN-alpha may indicate an infectious etiologic agent in autoimmunity, since this peculiar IFN was mostly associated with viral infections in vivo or in vitro. The induction of MHC class II antigens on previously HLA-DR or Ia negative cells appears to be caused primarily by IFN-gamma and may have a central role in the pathogenesis of autoimmunity in susceptible individuals. Such aberrant HLA-DR expression on nonlymphoid cells can be detected early in the disease in the target organs of many varied autoimmune conditions and may trigger a cascade of self-directed, uncontrolled immune response in conjunction with other factors.

Kaposi's sarcoma and the acquired immune deficiency syndrome. Treatment with recombinant interferon alpha and analysis of prognostic factors

Interferon alfa-2a (Roferon-A, Hoffmann-La Roche Inc., Nutley, NJ) was used to treat sequential groups of patients with Kaposi's sarcoma associated with the acquired immune deficiency syndrome (AIDS). Major antitumor effects (complete or partial responses) were observed in 38% of the patients treated initially with high-dose interferon alfa-2a and in 17% of patients in whom the dose was increased after low-dose treatment failed. A low dose of interferon alfa-2a was ineffective; one patient (3%) showed a partial response. Patients whose tumors responded to interferon treatment showed a significantly lower rate of opportunistic infection, as well as a longer survival than nonresponders. The status of pretreatment immune function was important in predicting the response to interferon treatment. The implication of these findings with respect to understanding the mechanism of action of interferon and the definition of the most appropriate patients for interferon treatment are discussed.

Interferon-induced aplasia: evidence for T-cell-mediated suppression of hematopoiesis and recovery after treatment with horse antihuman thymocyte globulin

A severe and persistent pancytopenia occurred in a 42-year-old woman with a non-Hodgkin's lymphoma following a 10-day course of intramuscular human leukocyte alpha interferon (IFN, 9.0 IU/day). Within 2 weeks of IFN, marrow nucleated myeloid and erythroid precursor cells and megakaryocytes were nearly absent and marrow progenitor cells (CFU-E, BFU-E, CFU-GM) were undetectable. Analysis of marrow lymphocytes revealed that nearly 50% of the cells were E-rosette+, T gamma+, OKT8+ (suppressor/cytotoxic) T-and/or Leu 7+ natural killer (NK) lymphocytes and 50% were IgM Kappa, B1+, B-lymphocytes. In vitro erythroid culture studies were consistent with T-cell-mediated suppression of erythropoiesis. After 2 months without improvement on corticosteroid/androgen therapy, a 10-day course of intravenous antithymocyte globulin (ATG) was administered. This was followed by a prompt reticulocytosis and a rise in blood neutrophils. After ATG therapy, there was a sixfold reduction in marrow suppressor cells, loss of in vitro suppressor effects on erythroid progenitor cells, and complete reversal of blood and marrow OKT4/OKT8 (helper/suppressor) ratios. These studies suggest that interferon may suppress hematopoiesis in some patients by activating marrow suppressor T- and/or NK cells. Treatment aimed at reduction of marrow suppressor cells may aid in hematologic recovery without eliminating the infiltrating lymphoma.

Cyclosporine alters opiate withdrawal in rodents

Opiates exert numerous effects on all levels of the central nervous system with tolerance, physical dependence and withdrawal being characteristics of this drug class. The degree of dependence is directly correlated to the intensity of withdrawal. Therefore, success in modifying the withdrawal syndrome may shed light on the dynamics of opiate addiction. The present study demonstrates that cyclosporine, a widely used immunosuppressive drug, considerably modified the behavioral signs of a naloxone-induced abstinence syndrome in morphine-addicted rats. In previous experiments, alpha-interferon has shown similar results. The similarity in actions of these two immunomodulator drugs is discussed and we suggest that opiate addiction may involve the immune system.

Circulating activated suppressor T lymphocytes in aplastic anemia

We studied the mechanism of hematopoietic suppression in aplastic anemia by means of two-color flow microfluorometric analysis of lymphocyte subpopulations and correlated the results with the occurrence in vitro of hematopoietic suppression and interferon production. In 12 patients with aplastic anemia a striking increase was observed in a population of "activated" suppressor T lymphocytes, which were defined by binding of both anti-Leu-2 and anti-HLA-DR monoclonal antibodies (patients with aplastic anemia, 6.8 +/- 3.2 per cent [mean +/- S.D.]; normal subjects, 1.7 +/- 1.3; patients given multiple transfusions, 2.5 +/- 1.7). Tac antigen expression, another surface marker of lymphocyte activation, was increased on suppressor lymphocytes in all five patients examined (patients with aplastic anemia, 31 +/- 17 per cent; normal subjects, 0.7 +/- 0.24; patients given multiple transfusions, 2.3 +/- 1.2). When Tac+ and Tac- cells were separated in a cell sorter, only Tac+ cells produced interferon. When lymphocytes of patients with aplastic anemia were cocultured with normal bone marrow, only the Tac+ cell fraction showed hematopoietic suppressor activity. In one patient, in vitro elimination of suppressor lymphocytes by use of OKT8 antibody abolished spontaneous interferon production by bone-marrow cells. These results suggest that activated suppressor lymphocytes producing interferon have a role in the pathogenesis of bone-marrow failure, and indicate the usefulness of defined lymphokine and phenotypic markers in the study of aplastic anemia.