TY - JOUR
T1 - Development of an indirect Enzyme Linked Immunoassay (iELISA) using monoclonal antibodies against Photorhabdus insect related toxins, PirAVp and PirBVp released from Vibrio spp
AU - Mai, Hung Nam
AU - Cruz-Flores, Roberto
AU - Dhar, Arun K.
N1 - Funding Information:
The authors would like to thank Ms. Brenda L. Nobel for carrying out an AHPND bioassay and kindly providing the samples for this study. Partial funding for this work is supported by the USDA National Institute of Food and Agriculture, Animal Health Project 1006512 to AKD.
Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2020/9
Y1 - 2020/9
N2 - An acute hepatopancreatic necrosis disease (AHPND) causes serious losses to the global shrimp industry. The etiologic agent of AHPND is Vibrio spp. carrying a large plasmid which encodes a binary toxin, PirAB. Currently, AHPND is diagnosed by PCR based methods that detect the presences of both pirA and pirB genes. However, the bacterial strains containing the pirA and pirB genes do not always express the binary toxin, resulting in mis-estimation of the virulence of bacterial strains containing pirA and pirB genes. Thus, the immuno based assay (i.e. ELISA) is a promising approach to detect PirAVp and PirBVp. In the present study, a total of forty monoclonal antibodies clones (mAb) against PirAVp (20 mAbs) and PirBVp (20 mAbs) were screened by western blot analysis to select four mAb clones that show the strongest immunoreactivity in indirect ELISA (iELISA). The four selected mAbs (i.e. 1B9 and 5E9 against PirAVp; 7B7 and 7B9 against PirBVp) detected specifically Vibrio spp. causing AHPND. In addition, four selected mAbs were able to detect either PirAVp or PirBVp down to 0.008 ng/μl. A double blind assay using thirty AHPND-infected and six SPF shrimp Penaeus vannamei were analyzed by iELISA to determine the detection sensitivity of the assay. The results showed that iELISA was able to accurately detect 29 out of 30 AHPND infected shrimp. These finding indicated that iELISA is a reliable method to detect PirAVp and PirBVp toxins in infected shrimp and will be a useful tool in AHPND diagnosis and in studying the role of binary toxins in AHPND pathogenesis.
AB - An acute hepatopancreatic necrosis disease (AHPND) causes serious losses to the global shrimp industry. The etiologic agent of AHPND is Vibrio spp. carrying a large plasmid which encodes a binary toxin, PirAB. Currently, AHPND is diagnosed by PCR based methods that detect the presences of both pirA and pirB genes. However, the bacterial strains containing the pirA and pirB genes do not always express the binary toxin, resulting in mis-estimation of the virulence of bacterial strains containing pirA and pirB genes. Thus, the immuno based assay (i.e. ELISA) is a promising approach to detect PirAVp and PirBVp. In the present study, a total of forty monoclonal antibodies clones (mAb) against PirAVp (20 mAbs) and PirBVp (20 mAbs) were screened by western blot analysis to select four mAb clones that show the strongest immunoreactivity in indirect ELISA (iELISA). The four selected mAbs (i.e. 1B9 and 5E9 against PirAVp; 7B7 and 7B9 against PirBVp) detected specifically Vibrio spp. causing AHPND. In addition, four selected mAbs were able to detect either PirAVp or PirBVp down to 0.008 ng/μl. A double blind assay using thirty AHPND-infected and six SPF shrimp Penaeus vannamei were analyzed by iELISA to determine the detection sensitivity of the assay. The results showed that iELISA was able to accurately detect 29 out of 30 AHPND infected shrimp. These finding indicated that iELISA is a reliable method to detect PirAVp and PirBVp toxins in infected shrimp and will be a useful tool in AHPND diagnosis and in studying the role of binary toxins in AHPND pathogenesis.
KW - AHPND
KW - Early mortality syndrome
KW - Indirect ELISA
KW - P. vannamei
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U2 - 10.1016/j.mimet.2020.106002
DO - 10.1016/j.mimet.2020.106002
M3 - Article
C2 - 32653400
AN - SCOPUS:85087841072
SN - 0167-7012
VL - 176
JO - Journal of Microbiological Methods
JF - Journal of Microbiological Methods
M1 - 106002
ER -