TY - JOUR
T1 - Transcriptomic signatures of attachment, NF-κB suppression and IFN stimulation in the catfish gill following columnaris bacterial infection
AU - Sun, Fanyue
AU - Peatman, Eric
AU - Li, Chao
AU - Liu, Shikai
AU - Jiang, Yanliang
AU - Zhou, Zunchun
AU - Liu, Zhanjiang
N1 - Funding Information:
This project was partially supported by Agriculture and Food Research Initiative (AFRI) Competitive Grant Nos. 2009-35205-05101 and 2010-65205-20356 from the USDA National Institute of Food and Agriculture (NIFA), and partially supported by an Alabama Agricultural Experiment Station Hatch Grant under project ALA016-1-09035. We appreciate the technical assistance of Ludmilla Kaltenboeck, Huseyin Kucuktas, Ruijia Wang, Jiaren Zhang, and Yu Zhang. We are grateful to Dr. Cova Arias for her assistance in the bacterial challenge. We appreciate the high quality sequencing services of HudsonAlpha Genomic Services Lab (Huntsville, AL, USA). Thanks are also given to Alabama Supercomputer Center for providing the computing capacity for the bioinformatics analysis of this study.
PY - 2012/9
Y1 - 2012/9
N2 - Outbreaks of columnaris disease (. Flavobacterium columnare) are common in wild and cultured freshwater fish worldwide. Disease occurrences, particularly those caused by virulent genomovar II isolates, in aquaculture species such as channel catfish can be devastating. In contrast to other important aquaculture pathogens, little is known about host immune responses to columnaris. Adhesion of . F. columnare to gill tissue has been correlated in some previous studies to virulence and host susceptibility. Here, therefore, we conducted the first transcriptomic profiling of host responses to columnaris following an experimental challenge. We utilized Illumina-based RNA-seq expression profiling to examine transcript profiles at three timepoints (4. h, 24. h, and 48. h) in catfish gill after bath immersion infection. Enrichment and pathway analyses of the differentially expressed genes revealed several central signatures following infection. These included the dramatic upregulation of a rhamnose-binding lectin, with putative roles in bacterial attachment and aggregation, suppression of NF-κB signalling via IκBs, BCL-3, TAX1BP1, and olfactomedin 4, and strong induction of IFN-inducible responses including iNOS2b, IFI44, and VHSV genes. Fifteen differentially expressed genes with varying expression profiles by RNA-seq, were validated by QPCR (correlation coefficients 0.85-0.94, . p-value <0.001). Our results highlight several putative immune pathways and individual candidate genes deserving of further investigation in the context of development of therapeutic regimens and laying the foundation for selection of resistant catfish lines against columnaris.
AB - Outbreaks of columnaris disease (. Flavobacterium columnare) are common in wild and cultured freshwater fish worldwide. Disease occurrences, particularly those caused by virulent genomovar II isolates, in aquaculture species such as channel catfish can be devastating. In contrast to other important aquaculture pathogens, little is known about host immune responses to columnaris. Adhesion of . F. columnare to gill tissue has been correlated in some previous studies to virulence and host susceptibility. Here, therefore, we conducted the first transcriptomic profiling of host responses to columnaris following an experimental challenge. We utilized Illumina-based RNA-seq expression profiling to examine transcript profiles at three timepoints (4. h, 24. h, and 48. h) in catfish gill after bath immersion infection. Enrichment and pathway analyses of the differentially expressed genes revealed several central signatures following infection. These included the dramatic upregulation of a rhamnose-binding lectin, with putative roles in bacterial attachment and aggregation, suppression of NF-κB signalling via IκBs, BCL-3, TAX1BP1, and olfactomedin 4, and strong induction of IFN-inducible responses including iNOS2b, IFI44, and VHSV genes. Fifteen differentially expressed genes with varying expression profiles by RNA-seq, were validated by QPCR (correlation coefficients 0.85-0.94, . p-value <0.001). Our results highlight several putative immune pathways and individual candidate genes deserving of further investigation in the context of development of therapeutic regimens and laying the foundation for selection of resistant catfish lines against columnaris.
KW - Catfish
KW - Columnaris disease
KW - Immunity
KW - Mucosal immune response
KW - RNA-seq
KW - Rhamnose-binding lectin
KW - Transcriptome
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U2 - 10.1016/j.dci.2012.05.006
DO - 10.1016/j.dci.2012.05.006
M3 - Article
C2 - 22669032
AN - SCOPUS:84864377334
SN - 0145-305X
VL - 38
SP - 169
EP - 180
JO - Developmental and Comparative Immunology
JF - Developmental and Comparative Immunology
IS - 1
ER -