Increase of host cell longevity by the expression of 30K protein originating from silkworm hemolymph in an insect cell–baculovirus system

Abstract

A recombinant baculovirus was constructed by the homologous recombination between wild-type AcMNPV DNA and a baculovirus transfer vector containing a gene coding for the 30K protein originating from silkworm hemolymph. The 30K protein was successfully expressed in Sf9 cells infected with the recombinant baculovirus (AcMNPV/30K). To investigate the effect produced by the expression of the 30K protein, host cell viability after infection was compared with that of Sf9 cells infected with AcMNPV/β-gal. The viability of the cells infected with AcMNPV/β-gal began to decrease exponentially 3 days after infection, whereas that of the cells infected with AcMNPV/30K remained at a high level until 5 days after infection. This indicates that the 30K protein increases cell longevity after viral infection. This increased cell longevity is considered to be due to the inhibition of host cell apoptosis induced by a baculovirus, and the extent of apoptosis was measured by the flow cytometric method. The percentage of the sub-G1 fraction, which represents the extent of apoptosis, was decreased by the expression of the 30K protein. This indicates that the expression of the 30K protein in insect cells increases host cell longevity by inhibiting apoptosis.