Nodule formation in Bombyx mori larvae is regulated by BmToll10-3

Nodule formation in Bombyx mori larvae is regulated by BmToll10-3

[Display omitted] •BmToll10-3 is expressed in granulocytes.•Anti-BmToll10-3 inhibited nodule formation.•The knock-out of BmToll10-3 prevented nodule formation in silkworm larvae.•BmToll10-3 is involved in a cellular immunity. Nodule formation is a two-step cell-mediated immune response that is elici...

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Bibliographic Details
Published in:Journal of insect physiology Vol. 142; p. 104441
Main Authors: Suzuki, Takuro, Tang, Shuyi, Otuka, Hinata, Ito, Katsuhiko, Sato, Ryoichi
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2022
Subjects:
Bombyx mori
Cell-mediated immunity
Genome editing
Insect immunity
Nodule
Silkworm
Spätzle
Toll
Spätzle
Cell-mediated immunity
Insect immunity
Bombyx mori
Genome editing
Toll
Nodule
Silkworm
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Summary:[Display omitted] •BmToll10-3 is expressed in granulocytes.•Anti-BmToll10-3 inhibited nodule formation.•The knock-out of BmToll10-3 prevented nodule formation in silkworm larvae.•BmToll10-3 is involved in a cellular immunity. Nodule formation is a two-step cell-mediated immune response that is elicited by the cytokine spätzle1. Spätzle1 is activated within 30 s of invasion by microorganisms via an extracellular signaling pathway that consists of pathogen-associated molecular pattern recognition receptors, C-type lectins, and serine proteases. Here, we investigated a hemocyte molecule that is involved in eliciting the first step of nodule formation. BmToll10-3 was one of 14 Toll homologs identified in the silkworm Bombyx mori; it is an ortholog of Spodoptera exigua Toll. Previous research suggested that SeToll elicits nodule formation, but no evidence was presented to indicate whether SeToll elicited the first or second step of nodule formation. Reverse transcription-polymerase chain reaction and immunostaining confirmed that BmToll10-3 is expressed in granulocytes. To determine whether BmToll10-3 is involved in eliciting the first step of nodule formation, we tested an antiserum raised against BmToll10-3 in a nodule formation assay. The antiserum strongly inhibited the first step of nodule formation in B. mori larvae. Next, we tried to knock out BmToll10-3 using genome editing. Strains that were heterozygous for a truncated BmToll10-3 allele were generated, but no strain that was homozygous for truncated BmToll10-3 was generated. Nonetheless, several healthy homozygous larvae were identified before pupation, and we used these larvae in a nodule formation assay. The larvae that were homozygous for truncated BmToll10-3 did not form nodules. These results suggest that BmToll10-3 is involved in a cellular immunity, nodule formation.
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ISSN:0022-1910
1879-1611
DOI:10.1016/j.jinsphys.2022.104441