Douglas B. Cines

The antiphospholipid-protein syndrome

The pathogenesis of the antiphospholipid syndrome remains uncertain. Antibodies that react with phospholipids may not be directly responsible for cellular injury, but may be part of the immune network through which autoantibodies with pathogenic potential are generated. The latter may recognize proteins such asβ2-glycoprotein I that form complexes with phospholipids, proteins whose functions depend upon interaction with phospholipids such as protein C and its cofactors, altered lipoproteins such as oxidized low-density lipoproteins, or other molecules that share only antigenic similarity. Thus, a spectrum of autoantibodies that recognize different lipid-protein complexes may develop in these patients and contribute to the observed clinical heterogeneity of the syndrome. Current techniques do not permit identification of the subset of patients with antiphospholipid antibodies at risk for thrombosis or abortion and there are no prospective, controlled trials addressing the prophylaxis or treatment of affected individuals. Identification of the cellular targets of antibodies to lipid-protein moieties is needed to identify patients at risk for these complications and as a means to monitor therapy.

Thermotaxis of human trophoblastic cells

The objective of this study was to determine whether cultured human trophoblasts migrate in response to changes in oxygen tension or temperature. Human trophoblastic cells distributed homogenously within individual wells of standard culture plates were subjected to oxygen and thermal gradients. The redistribution of cells was determined 90 min to 18 h after these gradients had been established. Trophoblastic cells did not migrate in response to gradients of oxygen or carbon dioxide applied in this manner. In contrast, the cells migrated in response to thermal gradients of less than 1 degree C in the direction of the warmer temperature. The response began within minutes, was reversed by a change in the direction of the thermal gradient, and was inhibited at high cell concentrations. Migration was independent of proliferation or protein synthesis, but required microfilament assembly. The capacity of trophoblasts to migrate in response to small difference of temperature within the physiologic range may contribute to the initiation of placental development before contact with the maternal circulation has been established.

Functional consequence of variation in melanoma antigen expression

SummaryMelanoma cells have been shown to express melanoma-associated antigens and, in many cases, the histocompatibility antigen, HLA-DR. We questioned whether the expression of these antigens was quantitatively altered during the serial passage of melanoma cells in culture. Therefore, we measured the binding of monoclonal antibodies specific for a melanoma-specific antigen and the HLA-DR antigen to melanoma cells from serial passages. Three cell lines were studied. We found that although both the melanoma-associated antigen and the HLA-DR antigen were qualitatively conserved, significant quantitative differences were seen. To study the functional consequences of these differences, we used fluorescence-activated cell sorting to create DR-enriched and DR-depleted populations from a single melanoma cell line heterogeneous for DR expression. We found that the proliferation of allogeneic T cells (measured by the 3H-TdR uptake) cultured with the DR-enriched and -depleted melanoma cell populations was directly related to the amount of the HLA-DR antigen expressed. These results indicate that in performance of experiments using melanoma cell lines quantitative assessment of antigenic expression is important, particularly if the function of a specific antigen is under examination. Further, our data clearly identify the HLA-DR antigen on melanoma cells as a participant in allogeneic lymphocyte stimulation.

Heparin-associated Autoantibodies

Publisher Summary This chapter provides an overview of heparin-associated autoantibodies. The studies include intensive efforts to standardize the assay, define associations with disease or clinical presentation, and characterize antigenic and biological properties of these antibodies Heparin-induced thrombocytopenia (HIT) provides an interesting model of autoimmunity in which a heterologous mucopolysaccharide combines with a normal endogenous protein released in specific clinical settings to generate autoantibodies in susceptible, but immunologically ‘normal” individuals to cause thrombocytopenia and thrombosis. HIT antibodies cause normal platelets to aggregate and secrete serotonin in vitro. The serotonin release assay (SRA) provides a more objective endpoint than platelet aggregation studies that have variable sensitivity and specificity.