Background: Chitinase is a multi-functional enzyme that catalyzes the hydrolysis of β-1,4-linkages between N-acetylglucosamines (GlcNAc) in chitin. Recent studies imply that earthworm chitinase is implicated in self-defense immunity against chitin-containing pathogens. However, a direct relationship of earthworm chitinase with innate immunity has not yet been established.
Objective: In this study, earthworm (Eisenia andrei) chitinase expression was examined following bacterial challenge by Bacillus subtilis.
Methods: RNA sequencing (RNA-seq) and real-time quantitative reverse transcription polymerase chain reaction (qRT-PCR) were used to quantitatively evaluate mRNA expression changes in response to bacterial stimulation.
Results: Multiple chitinase-related mRNAs were found to be upregulated, among which EaChi3, EaChi4, and EaChi2 were upregulated by approximately eightfold, eightfold, and 2.5-fold, respectively. This strongly suggested that earthworm chitinases may act as inducible humoral effectors in earthworm innate immunity. The primary structures of all three chitinases contained an N-terminal glycol_18 domain with two chitin-binding and chitin-catalyzing domains, and a C-terminal proline, glycine, serine, threonine (PGST)-rich domain. In addition, EaChi2 had a chitin-binding peritrophin-A domain at the end of the C-terminus with 5 cysteine residues possibly contributing two intradomain disulfide bonds. Multiple sequence alignment of the catalytic domain centers of glycol_18 domain displayed highly conserved chitin-binding and chitin-catalyzing domains in which three essential amino acid residues (D, D, E) for catalyzing activity are well conserved except EaChi4. The critical glutamic acid (E) residue was substituted for glutamine (Q) in EaChi4 indicating that it is devoid of catalytic activity.
Conclusions: To our knowledge, this is the first report providing direct evidence that multiple earthworm chitinases are bacteria-responsive, strongly suggesting that earthworm chitinases are inducible humoral effectors in earthworm innate immunity. In addition, our results possibly suggest that earthworm EaChi4 may function as a pattern recognition molecule modulating the downstream immune pathway.
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