Very little is known about the receptors and target molecules involved in natural killer (NK) cell activity. Here we present a model system in which interleukin-2-activated killing by NK cells depends on the intercellular adhesion molecule ICAM-2 and is regulated by the distribution of ICAM-2. The level of ICAM-2 expression in NK-sensitive and resistant cells is similar, but in sensitive cells ICAM-2 is concentrated into bud-like cellular projections known as uropods, whereas in resistant cells it is evenly distributed. The cytoskeletal-membrane linker protein ezrin is also localized in uropods. Transfection of human ezrin into NK-resistant cells induces uropods formation, redistribution of ICAM-2 and ezrin, and sensitizes target cells to interleukin-2-activated killing. These results reveal a new mechanism of target-cell recognition: cytotoxic cells recognize adhesion molecules that are already present on normal cells, but in diseased cells are concentrated into a biologically active cell-surface region by cytoskeletal reorganization. The results also highlight the importance of cytoskeletal interactions in the regulation of ICAM-2-mediated adhesive phenomena.
SUMMARYHerpes simplex virus type 1 (HSV-1) infection in neurons is lifelong and generally asymptomatic. Reactivation of this latent infection results in skin blistering whereas the respective peripheral neurons are rarely affected. Why the neuronal cells are spared while the skin cells are sacrificed is not well understood. In the present study our aim was to study whether neuronal and skin cells differ in their ability to control complement attack during HSV-1 infection. Human embryonal skin (HES) cells and neuronal Paju cells were infected by HSV-1 in vitro. Both types of infected cells activated complement but were initially resistant to membrane attack complex (MAC) deposition. During the first hours of infection the expression of the endogenous complement regulators decay accelerating factor (DAF) and CD59 increased on both HES and Paju cells. By 12 hr the infected HES cells had lost their ability to control complement attack. The expression of DAF and CD59 decreased and the cells became targets for MAC attack. In contrast, complement regulator expression on the Paju cells did not decrease below the initial level and complement C5b-9 deposition was found only on 10% of the Paju cells at 12 hr. The results suggest that HSV-infected neuronal cells are better than skin cells in protecting themselves against complement attack. This may contribute to the persistence of a latent HSV-1 infection in neuronal cells for prolonged periods.
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