The domesticated silkworm, Bombyx mori, is an economically important insect that majorly contributes in financially viable sericulture industry. The baculovirus, Bombyx mori nuclear polyhedrosis virus (BmNPV) is a deadly virus that infects B. mori and inflicts heavy loss to silk production by causing high mortality of silkworms. A number of studies have been done to identify antiviral genes and pathways against BmNPV infection in B. mori . Toll-pathway is a well-known immune pathway responsible for combating bacterial and fungal infections in silkworm. However, the role of Toll-receptors in inhibiting BmNPV has not been explored. In the present study, we have attempted to examine the role of Toll-receptors in inhibiting BmNPV proliferation in B. mori larvae. The effect of Toll-receptors on viral proliferation was determined by quantifying viral DNA and counting viral occlusion bodies upon RNA interference-mediated knockdown of Toll-receptors in B. mori larvae. Knockdown of BmToll, BmToll-6, BmToll-7, BmToll-8 and BmToll-9 led to higher accumulation of BmNPV. Further, interplay between Toll-receptors and the antimicrobial proteins of B. mori, called seroins were studied using RNA interference. As a result, we found a downregulation of Seroin1 transcript level upon knockdown of BmToll , BmToll-7 , BmToll-8 , BmToll-10 , BmToll-11 and BmToL K2, whereas Seroin2 expression was found to decrease only upon BmToll-7 knockdown. Moreover, knockdown of seroins did not result in clearly interpretable expression patterns of Toll-receptors. These results suggest the involvement of B. mori Toll-pathway in defense against BmNPV infection and provides a new insights into the antiviral defense mechanism of B. mori. • BmNPV proliferation increases upon knockdown of B. mori Toll-receptors in larvae. • Knockdown of B. mori Toll-7 significantly enhances viral load. • Seroins are likely to function downstream of Toll-7-mediated signaling pathway in B. mori.
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