Although canine brucellosis has been known to be an important re-emerging zoonosis, the pathophysiological mechanisms of Brucella canis infection remains clues to be solved. Different culture models, single and co-culture models, were constructed with canine epithelial cells, D17 and macrophage, DH82 to investigate the induction of immune responses in in vivo B. canis infection. Expression of genes related with induction of immune responses, Th1, Th2 and Th17, was compared in the two different models after the bacterial infection. In this study, expression of cytokine genes, IL-1β, IL-5, IL-6, IL-10, IL-23, and TNF-α was quantified in the DH82 at different time points using RT-qPCR in the two different culture systems after the infection. Cytokine genes related with Th1, IL-1β and TNF-α and Th17, IL-6 and IL-23 were expressed with time-dependent manners in the both systems (p<0.05). However, increase of Th2-related cytokine genes expression was not detectable in the both systems by comparison with control. The expression of Th1 and Th17 related cytokine genes was earlier in single cell culture than those in co-culture model (p<0.05). In general, amounts of the expressed genes were shown higher in single cell model than those in co-culture models. This study indicate that Th1 and Th17-associated immune responses are central to B. canis infection in dogs. In addition, it suggests a specific role of epithelial cells in the B. canis infection in vivo, which should resolved in the further study.
Genetic polymorphisms within immunity-related candidate genes in pigs have been identified to control variations in immune functions and/or disease resistance. It has become necessary to evaluate the effects of other genetic markers of economically important traits prior to introducing them into marker-assisted selection programs. In this study, polymorphisms of porcine genes coding Interferon-induced Gunylate binding protein 1 (GBP1), GBP2, CD163, and CD169 were investigated for their association with growth and meat quality traits in a Korean native pig breed -Yorkshire inter-crossed F2 pig population (KY-F2). KY-F2 animals (n=346) have been successfully used for linkage mapping to identify quantitative loci that control meat quality, growth, and immunity traits. In our results, polymorphisms in genes GBP1 and GBP2 showed association with pig growth rate as well as meat quality traits such as crude fat, drip loss, and meat color (yellowness) in the KY-F2 population. The polymorphism in gene CD163 only showed association with crude fat, as a meat quality trait. CD169 gene was associated with pork tenderness. In conclusion, four immune-related genetic markers were validated for their association with growth and meat quality traits to gauge their potential use in a swine selection program. The results warrant further studies in other commercial pig populations.
Body lice (Pediculus humanus humanus), obligatory human ectopasites, differ from conspecific head lice (Pediculus humanus capitas) in the choice of habitat and the capacity of disease transmission. Only body lice are known to naturally transmit a variety of human diseases, including epidemic typhus, trench fever and relapsing fever. Such differences in vectoral capacity are expected to be due to their differences in immune responses during pathogen invasion. Here, we annotated 94 immune related genes from the body louse genome and determined the differences in the transcription profiling of immune related genes between the head and body lice by qrt-PCR. In general, head louse females showed more sensitive immune responses than body louse females to Staphylococcu. aureus dermal challenge as judged by selective induction of defensin 2 in head lice. In contrast, when the 3rd nymphs were orally challenged, body lice exhibited more sensitive immune responses than head louse to Escherichia coli as judged by selective induction of defensin 1 and PGRP in body lice. These stage- and pathogen-specific differences in immune responses should provide basic insight on the vector competencies in the head and body lice.
We have previously shown that the larvae of swallowtail butterfly, Papilio xuthus, exhibit substantial antibacterial activity in the hemolymph, upon challenging with bacterial lipopolysaccharide (LPS). Here we report the isolation and molecular characterization of several immune inducible genes that are specifically expressed by employing annealing control primer (ACP)-based GeneFishing polymerase chain reaction (PCR) from P. xuthus the larva. Using 120 arbitrary ACPs, we identified 24 differentially expressed genes (DEGs) that are up-regulated in response to injected LPS. Sequence analysis showed that 18 DEGs revelaed a high sequence similarity to the previously characterized genes of other insects, although 6 DEGs showed no significant similarity to any known genes. Among these inducible transcripts we found 8 putative immune-related genes including cecropin and attacin. Finally, we analysed the expression profiles of potential immune-related genes by RT-PCR and found all of them were considerably increased in the mRNA levels by LPS injection.
Early life stage mortality in fish is one of the problems faced by loach aquaculture. However, our understanding of immune system in early life stage fish is still incomplete, and the information available is restricted to a few fish species. In the present work, we investigated the expression of immune-related transcripts in loach during early development. In fishes, recombination-activating gene 1 (RAG-1) and sacsin (SACS) have been considered as immunological function. In this study, the expression of the both genes was assessed throughout the early developmental stages of loach using real-time PCR method. maRAG-1 mRNA was first detected in 0 dph, observed the increased mostly until 40 dph. Significant expression of maRAG-1 was detected in 0 to 40 dph. These patterns of expression may suggest that the loach start to develop its function after hatching. On the other hand, maSACS was detected in unfertilized oocyte to molura stages and 0 to 40 dph. maSACS mRNA transcripts were detected in unfertilized oocytes, suggesting that they are maternally transferred.