The emergence and spread of disease-causing viruses in shrimp aquaculture is not uncommon. Since 2016, unusual mortalities have been affecting the Brazilian shrimp industry and we have associated these unusual mortalities with a novel variant of infectious myonecrosis virus (IMNV). The transcriptome analysis of these diseased shrimp showed an additional divergent viral sequence that we have assigned to the family Solinviviridae. The novel virus has been tentatively termed Penaeus vannamei solinvivirus (PvSV) (GenBank accession: OP265432). The full-length genome of the PvSV is 10.44 kb (excluding the poly A tail) and codes for a polyprotein of 3326 aa. Five conserved domains coding for a helicase, RdRp, calicivirus coat protein, G-patch and tegument protein were identified. The genome organization of the PvSV is similar to other (Nylan deria fulva virus 1) solinvivirus. A unique feature of this virus that differs from other members of the Solinviviridae is the presence of putative nuclear localization signals. The tissue tropism of this virus is wide, infecting cells of the hepatopancreas, gastrointestinal tract, lymphoid organ and muscle tissue. Another unique feature is that it is the only RNA virus of penaeid shrimp that shows a nuclear localization by in situ hybridization. The PvSV has a wide distribution in Brazil and has been found in the states of Maranhão State (Perizes de Baixo), Piaui State (Mexeriqueira), Ceará State (Camocim, Jaguaruana, Aracati and Alto Santo) and Pará State where it has been detected in coinfections with IMNV. The diagnostic methods developed here (real-time RT-PCR and in situ hybridization) are effective for the detection of the pathogen and should be employed to limit its spread. Furthermore, the identification of the PvSV shows the increasing host range of the relatively new family Solinviviridae.
C-type lectins (CTLs) are calcium-dependent carbohydrate-binding proteins known to assist the innate immune system as pattern recognition receptors (PRRs). The binding specificity of CTLs lies in the motif of their carbohydrate recognition domain (CRD), the tripeptide motifs EPN and QPD bind to mannose and galactose, respectively. However, variants of these motifs were discovered including a QAP sequence reported in shrimp believed to have the same carbohydrate specificity as QPD. Here, we characterized a novel C-type lectin (MjGCTL) possessing a CRD with a QAP motif. The recombinant MjGCTL has a calcium-dependent agglutinating capability against both Gram-negative and Gram-positive bacteria, and its sugar specificity did not involve either mannose or galactose. In an encapsulation assay, agarose beads coated with rMjGCTL were immediately encapsulated from 0 h followed by melanization at 4 h post-incubation with hemocytes. These results confirm that MjGCTL functions as a classical CTL. The structure of QAP motif and carbohydrate-specificity of rMjGCTL was found to be different to both EPN and QPD, suggesting that QAP is a new motif. Furthermore, MjGCTL acts as a PRR binding to hemocytes to activate their adherent state and initiate encapsulation.
Lectins are found in most living organisms, providing immune surveillance by binding to carbohydrate ligands. In fishes, C-type lectins were isolated from mucus of respiratory organs (skin and gills), where they aid the mucosal immune response in regulating microbiota and suppressing pathogens. In shrimp, however, no mucosal immunity or any form of gill-specific immune defense has been reported, and most identified C-type lectins are associated with hemocyte cellular and humoral responses. Interestingly, our microarray analysis revealed the localization of highly expressed novel biodefense genes in gills, among which is Marsupenaeus japonicus gill C-type lectin (MjGCTL), which we previously reported. Gill mucus collected from M. japonicus displayed similar bacterial agglutination ability as observed with recombinant MjGCTL. This agglutinating ability can be attributed to endogenous MjGCTL (nMjGCTL) detected in gill mucus, which was confirmed with an agglutination assay using purified nMjGCTL from gills. In addition, nMjGCTL also promoted in vivo bacterial phagocytosis by hemocytes. In vivo knockdown of MjGCTL resulted in a compromised immune system, which was manifested by impaired agglutination capacity of gill mucus and downregulation of the gill antimicrobial peptides, crustin and penaeidin. Shrimp immunocompromised by MjCGTL knockdown, apparently lost the ability to respond to attaching and penetrating bacteria. This was evident as increased total bacteria and Vibrio counts in both gills and hemolymph, which were correlated with low survival during a bacterial challenge. These results reveal immune defense by shrimp gills resembling a primitive form of mucosal immunity.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.