Hemolin increases the immune response of a caterpillar to NPV infection

[Display omitted] •HcHemolin induction by infection with HcNPV is dependent on viral dose.•HcHemolin affects the growth, development and food utilization of H. cunea.•HcHemolin increases the antiviral immune of H. cunea larvae against HcNPV. Hemolin, a member of the immunoglobulin superfamily, plays...

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Veröffentlicht in:Journal of insect physiology 2024-06, Vol.155, p.104651, Article 104651
Hauptverfasser: Yan, Liqiong, Nur Faidah, Arina, Sun, Lili, Cao, Chuanwang
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Sprache:eng
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Zusammenfassung:[Display omitted] •HcHemolin induction by infection with HcNPV is dependent on viral dose.•HcHemolin affects the growth, development and food utilization of H. cunea.•HcHemolin increases the antiviral immune of H. cunea larvae against HcNPV. Hemolin, a member of the immunoglobulin superfamily, plays a crucial role in the immune responses of insects against pathogens. However, the innate immune response of Hemolin to baculovirus infection varies among different insects, and the antiviral effects of Hemolin in Hyphantria cunea (HcHemolin) remain poorly understood. Our results showed that HcHemolin was expressed throughout all developmental stages, with higher expressions observed during pupal and adult stages of H. cunea. Additionally, HcHemolin was expressed in reproductive and digestive organs. The expression levels of the HcHemolin were induced significantly following H. cunea nucleopolyhedrovirus (HcNPV) infection. The susceptibility of H. cunea larvae to HcNPV decreased upon silencing of HcHemolin, resulting in a 40% reduction in median lifespan compared to the control group. The relative growth rate (RGR), the relative efficiency of consumption rate (RCR), the efficiency of the conversion of ingested food (ECI), and efficiency of the conversion of digested food (ECD) of silenced H. cunea larvae were significantly lower than those of the control group. Immune challenge assays showed that the median lifespan of treated H. cunea larvae was two-fold longer than the control group after HcNPV and HcHemolin protein co-injection. Therefore, we propose that HcHemolin plays a crucial role in regulating the growth, development, and food utilization of H. cunea, as well as in the antiviral immune response against HcNPV. These findings provide implications for the development of targeted nucleic acid pesticides and novel strategies for pollution-free biological control synergists for HcNPV.
ISSN:0022-1910
1879-1611
1879-1611
DOI:10.1016/j.jinsphys.2024.104651