Localization of antigenic sites on human cytomegalovirus virion structural proteins encoded by UL48 and UL56.

Two human cytomegalovirus (HCMV) virion structural proteins and their associated reading frames have been identified with two human-derived monoclonal antibodies (HMAbs), X2-16 and X-16. HMAb X2-16 identified recombinant protein expressing molecular clones that mapped to the open reading frame (ORF) of the UL48 gene of HCMV, between amino acids 584 and 646 (nucleotides 65,084 and 65,272, Chee et al., 1990, "Current Topics in Microbiology and Immunology," Vol. 154, pp. 125-169). The UL48 gene product has an apparent molecular weight of 216 kDa. HMAb X-16 identified clones derived from the UL56 ORF between amino acids 380 and 425 (nucleotides 84,733 and 84,870). On immunoblots, HMAb X-16 detected two HCMV proteins of 96 and 60 kDa. Both UL48 and UL56 are highly conserved among the human herpesviruses and their products have been predicted to have essential functions for virus production and maturation. These results confirm that UL48 and UL56 are functional genes encoding essential viral proteins which also generate an immune response in the immunocompetent host.

Suppression of the delayed-type hypersensitivity and cell-mediated immune responses to Listeria monocytogenes induced by Pseudomonas aeruginosa.

Pseudomonas aeruginosa-mediated suppression of the immune response to Listeria monocytogenes was investigated in mice. Because delayed-type hypersensitivity (DTH) footpad swelling to L. monocytogenes was suppressed equally in lipopolysaccharide-responsive and -hyporesponsive mouse strains, the lipopolysaccharide component of P. aeruginosa could not have been the suppressive agent. Mucoid P. aeruginosa cells were no more suppressive than their nonmucoid revertants; therefore, mucoid coating was not an additional immunosuppressive element. Interleukin-1 and macrophage inhibitory factor production to L. monocytogenes and clearance of L. monocytogenes from mouse spleens were all decreased by prior Pseudomonas infection, indicating that cell-mediated immunity, as well as DTH, was decreased to a sublethal Listeria dose. The timing of Pseudomonas exposure relative to Listeria sensitization was varied. P. aeruginosa injected 24 or 6 h before or at the same time as L. monocytogenes depressed DTH to Listeria challenge 7 days later. Animals treated in this way could not respond to reinfection with L. monocytogenes at 13 days. P. aeruginosa administered to L. monocytogenes-sensitized mice at the time of footpad challenge was suppressive, but these mice responded normally upon reinfection. It appears that P. aeruginosa induced two types of suppression to L. monocytogenes: a transient suppression, affecting DTH challenge but not resensitization, and a longer lasting suppression that did not permit mice exposed to P. aeruginosa at the time of Listeria sensitization to respond to subsequent Listeria exposure.