Functional characterization of duck LSm14A in IFN-β induction
Developmental & Comparative Immunology • 2017
Publication Information
Authors
Kexin Hua, Huilin Li, Huanchun Chen, Mohamed Frahat Foda, Rui Luo, Hui Jin
Keywords
LSm14ADuckIFN-βInnate immunity
Journal
Developmental & Comparative Immunology
Publisher
Pergamon
Volume
76
Issue
Not Available
Pages
255-261
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
Human LSm14A is a key component of processing body (P-body) assembly that mediates interferon-β (IFN-β) production by sensing viral RNA or DNA. To the best of our knowledge, we are the first to report duck LSm14A (duLSm14A) cloning from duck embryo fibroblasts (DEFs). Full-length duLSm14A encoded 461 amino acids and was highly homologous with chicken and swan goose sequences. More interestingly, the duLSm14A mRNA was extensively expressed in all the studied tissues. In DEFs, duLSm14A was localized in the cytoplasm as P-body-like dots. Expression of duLSm14A induced IFN-β through the activation of interferon regulatory factor-1 and nuclear factor-κB in DEFs. Furthermore, knockdown of duLSm14A by small interfering RNA notably decreased poly(I:C)- or duck reovirus-induced IFN-β production. The present study results indicate that the duLSm14A is an essential sensor that mediates duck innate immunity against viral infections.
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