A depuration chamber was used to study the persistence of marine vibrios in the hardshell clam, Mercenaria mercenaria. Specimens of M. mercenaria were incubated for two h in artificial seawater containing 103 cells/ml each of the following bacterial species; Vibrio parahaemolyticus, Vibrio harveyi and Escherichia coli, and then transferred to the depuration chamber (a tank through which U. V.‐sterilized artificial seawater was continually flowing). Numbers of the three bacterial species in tissues of M. mercenaira removed from the chamber at various times were determined by differential plating techniques. The number of each species ranged from 102 to 103 colony‐forming units/gram tissues immediately after transfer to the depuration chamber. After 24 h at 25°C the number of E coli cells detected had decreased over 100‐fold. Generally, V. parahaemolyticus and V. harveyi were found in increased abundance after 24 h. The abundance of V. parahaemolyticus and V. harveyi in clams that had been incubated in the depuration chamber for 72 h at 25°C was approximately 10% of the abundance of these species immediately after transfer to the chamber. Similar results were obtained when the incubation temperature was 8 or 15°C and when initial cell concentrations were altered. Thus, V. harveyi and the potential human pathogen, V. parahaemolyticus which are both of marine origin were not removed from M. mercenaria at a rate comparable to the rate at which M. mercenaria depurated cells of E. coli.
The product of open reading frame 14 (orf14) of herpesvirus saimiri (HVS) exhibits significant homology with mouse mammary tumor virus superantigen. orf14 encodes a 50-kDa secreted glycoprotein, as shown previously (Z. Yao, E. Maraskovsky, M. K. Spriggs, J. I. Cohen, R. J. Armitage, and M. R. Alderson, J. Immunol. 156:3260–3266, 1996). orf14 expressed from recombinant baculovirus powerfully induces proliferation of CD4-positive cells originating from several different species. To study the role of orf14 in transformation, a mutant form of HVS (HVS Δorf14) was constructed with a deletion in the orf14 gene. The transforming potential of HVS Δorf14 was tested in cell culture and in common marmosets. Parental HVS subgroup C strain 488 immortalized common marmoset T lymphocytes in vitro to interleukin-2-independent growth, while the HVS Δorf14 mutant did not produce such a growth transformation. In addition, HVS Δorf14 was nononcogenic in common marmosets. In contrast to other nononcogenic HVS mutant viruses which were repeatedly isolated from peripheral blood mononuclear cells of infected marmosets for more than 5 months, HVS Δorf14 did not persist at a high level in vivo. These results demonstrate that orf14 of HVS is not required for replication but is required for transformation and for high-level persistence in vivo.
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