Failure to detect Trichinella spiralis p43 in isolated host nuclei and in irradiated larvae of infected muscle cells which express the infected cell phenotype.

Infection by Trichinella spiralis induces host muscle cells to become repositioned within the cell cycle and to lose differentiated skeletal muscle characteristics. Antibodies to a 43-kDa excretory-secretory (ES) protein (p43) also bind to infected host cell nuclei. Neither the identity of these nuclear antigens nor their role in inducing the infected cell phenotype is known. To address these issues, infected cell nuclei were isolated and nuclear antigens analyzed with several antibody preparations to p43. Four antibody preparations to p43 recognized 43-, 45-, 50-, 67- and 71-kDa proteins in ES extracts. The prominent proteins recognized by these antibodies in host nuclear antigen extracts were 71, 79, 86 and 97 kDa. Less prominent proteins of approximately 43 and 45 kDa were detected in nuclear extracts. However, antibodies which specifically recognized p43 failed to bind detectably with in situ and isolated host nuclei and nuclear extracts. Expression of p43 was analyzed in host cells infected by newborn larvae irradiated with 60Co. This treatment prevented expression of detectable levels of p43 in resulting muscle larvae, while infected muscle cells displayed typical infected cell characteristics. However, anti-p43 antibodies which recognized multiple ES and nuclear proteins did stain nuclei of irradiated larva-infected cells, albeit at reduced levels. The results raise doubts that p43 is required for induction of the infected cell phenotype. Nevertheless, nuclear antigens recognized by anti-p53 antibodies remain as candidates for influencing this phenotype.