Adenovirus binds its receptor (CAR), enters cells, and replicates. It must then escape to the environment to infect a new host. We found that following infection, human airway epithelia first released adenovirus to the basolateral surface. Virus then traveled between epithelial cells to emerge on the apical surface. Adenovirus fiber protein, which is produced during viral replication, facilitated apical escape. Fiber binds CAR, which sits on the basolateral membrane where it maintains tight junction integrity. When fiber bound CAR, it disrupted junctional integrity, allowing virus to filter between the cells and emerge apically. Thus, adenovirus exploits its receptor for two important but distinct steps in its life cycle: entry into host cells and escape across epithelial barriers to the environment.
Although implant-based breast reconstruction using ADM has been associated with increased seroma and possible infection rates, the use of specific clinical practices designed to prevent seroma has minimized our rate of these postoperative complications.
We propose that the etiology of erythema overlying ADM grafts, and the so-called red breast syndrome, may in some patients be a delayed-type hypersensitivity reaction to the ADM product. Affected patients may benefit from treatment with corticosteroids or similar medications, and that such treatment may, in some cases, enable patients to retain the ADM grafts and enable salvage of the reconstructed breast.
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