Expression changes of stress-induced peroxidase (swpa2 and swpa4) and storage root-specific sporamin (spo-A and spo-B) genes were examined using qRT-PCR after treatment with wounding and bacterial pathogens on leaves of sweetpotato (Ipomoea batatas) plants. As a result of examining the expression change in the wounding treatment condition for 48 hours after treatment, which is a representative physical stress, the expression of all genes increased after 12 hours of wounding treatment, but the expression pattern of each gene group showed distinct differences thereafter. Expression levels of swpa2 and swpa4 strongly increased up to 36 or 48 hours after wounding treatment, whereas spo-A and spo-B expression levels strongly decreased after 24 or 36 hours after wounding treatment. Peroxidase and sporamin genes are involved in the early response after wounding treatment and, in particular, the peroxidase swpa2 and swpa4 genes are also involved in the late response after wounding treatment. Gene expression analysis after infection with P. chrysanthemi, which causes softness in sweetpotato, showed that the swpa2 and swpa4 genes were weakly induced after 8 hours and then strongly induced after 20 hours during pathogen infection. Expression of the spo-A gene was weakly induced in the pathogen-treated group after 20 hours, whereas spo-B showed an expression pattern similar to that of the peroxidase genes. The above results indicate that expression of the stress-induced peroxidase gene used in this study is induced not only by abiotic stress but also by biological stress caused by bacterial pathogen invasion and that peroxidase plays an important function in the initial defense response.

Interleukin-1b (IL-1β), a proinflammatory cytokine, regulates the innate immune responses against bacterial infection. Mature IL-1β is produced from pro-IL-1β by activated caspase-1, which in turn is activated by the inflammasome complex formation. In this study, we compared the inflammasome mRNA expression induced by S. sanguinis, S. oralis, F. nucleatum and P. intermedia. Among the tested bacteria, S. sanguinis induced the highest IL-1β secretion. S. oralis, F. nucleatum and P. intermedia induced very weak IL-1β secretion. S. sanguinis mostly induced the NLRP3 mRNA expressions. Although F. nucleatum did not induce high IL-1β secretion, it induced high expression levels of AIM2, NLRP2, and NLRP3. No specific inflammasomes were induced by S. oralis and P.intermedia. Studying the inflammasome complex activation induced by oral bacteria may thus enhance our understanding of the pathogenesis of oral diseases.

This study evaluated the efficacy and safety of medi- cal shampoo containing terbinafine hydrochloride and chlorhexidine gluconate in dogs with dermatophytos is complicated with bacterial infection. Although several stud- ies in dogs and cats with fungal dermatitis have found that oral administration of terbinafine is effective for controlling clinical signs, the topical form of terbinafine has rarely been studied in dogs and cats. Therefore, this study evaluated the efficacy of medical shampoo containing terbinafine hy- drochloride and chlorhexidine gluconate in dogs with der- matophytos is complicated with bacterial infection. Eight dogs infected with Microsporum spp. complicated with bacterial infection were enrolled in this study. These dogs were further blindly divided into Group 1 (no treatment, fourdogs) and group 2 (treated with medical shampoo with terbinafine/chlorhexidine, four dogs). Clinical improvement was evaluated using bacterial and fungal cultural evaluation combined with clinical evaluation. This study found that the medical shampoo has sufficient efficacy to treat varying degrees of dermatophytosis complicated with bacterial in- fection in dogs, although the speed of improvement differed according to the degree and type of infection. Our study also found that combined therapy using antifungal and antibac- terial agents can improve clinical signs more effectively and rapidly, suggesting that concurrent bacterial infection plays a significant role in the development of dermatitis.

Effective treatment for community-acquired pneumonia (CAP) requires administration of appropriate empirical therapy based on etiologic, clinical, and radiological fea- tures. However, in Korea, CAP is poorly characterized, and data on viral CAP are particularly sparse. Therefore, im- proper use of antibiotics is common, and is detrimental the potential for development of bacterial. Thus, we investigated clinical and radiological findings for discrimination of viral CAP from bacterial CAP. Etiologic, clinical, and radiologi- cal data from 467 patients with CAP at Chungbuk National University Hospital from October 2010 to September 2011 were analyzed retrospectively. Viruses were identified in 23 cases (11.4%); the influenza virus A was the most common virus detected (N=18, 25.4%), followed by the respiratory syncytial virus A (N=14, 17.9%). Bacteria were identified in 48 cases (23.8%); Streptococcus-pneumonia was the most common (N=24, 25.5%), followed by Staphylococcus aureus (N=20, 21.3%). Depending on hospitalization time, the fol- lowing significant differences were observed between viral and bacterial CAP: on admission, (1) high fever (≥ 38.5°C), (2) purulent sputum, (3) white blood cell count, (4) C- reactive protein levels, (5) and bilateral lung involvement on chest X-ray were higher in bacterial CAP; and at discharge, (1) duration of high fever and (2) radiologic improvement within three days were higher in viral CAP. Regarding sea- sonal patterns, both viruses and bacteria have been identi- fied with relative frequency in the winter season. This study described the etiological, clinical, and radiological findings of viral and bacterial CAP. Conduct of additional large- scale, prospective investigations will be required in order to improve the appropriate treatment of CAP.

아이코사노이드는 곤충의 다양한 세포성 면역 반응을 중개한다. 본 연구는 면역반응에 따라 혈구세포 밀도 변화에 대한 아이코사노이드의 새로운 중개 기능을 밝히기 위해 수행되었다. 파밤나방(Spodoptera exigua) 5령충은 세균 감염에 따라 2 시간이 지나면 총혈구수의 현격한 증가를 보였다. 이 총혈구수 증가는 주로 부정형혈구와 소구형혈구 밀도의 증가로 해석되었다. 파밤나방 유충에 phospholipase A2 (PLA2) 억제자인 dexamethasone을 처리하면 세균 처리에 의한 총혈구수 변화가 일어나지 않았다. 하지만 dexamethasone을 처리한 유충에 PLA2의 촉매산물인 arachidonic acid를 첨가하면 총혈구수 증가가 회복되었다. 이러한 혈구 밀도 변화에 원인으로서 아이코사노이드 종류를 추적하기 위해 cyclooxygenase (COX)의 억제자인 naproxene을 처리한 결과 총혈구수 증가가 억제되고, lipoxygenase (LOX)의 억제자인 esculetin을 처리하면 총혈구수 증가가 유지되어 COX 산물이 세균 침입에 따른 총혈구수 증가에 관여하는 것으로 나타났다. COX의 생산물인 prostaglandin E2(PGE2)를 세균 없이 단독으로 처리할 때도 총혈구수의 뚜렷한 증가를 나타냈다. 이러한 결과는 파밤나방의 세포성 면역반응 과정에서 총혈구수 증가를 중개하는 아이코사노이드의 새로운 기능을 제시하고 있다.

본 연구는 토마토 수경재배에서 풋마름 병원균의 분포와 침입 및 전파경로를 구명하여 풋마름병 방제의 기초 자료를 얻고자 수행하였다. 배양액 재배시스템에서 토마토 풋미름병의 발생정도별로 배양액탱크, 배지, 폐액에서 병원균의 밀도를 검정한 결과 20% 정도 발병된 포장의 폐액에서는 19,000cfu/mL의 밀도로 검출되었으며 연작연수가 많을수록 병 발생이 심하였다. 토마토 펄라이트 수경재배시스템에서 토마토 풋마름병의 발생전파 과정은 최초 발생지점으로부터 좌우로 급속히 전파되었다. 토마토 풋마름병 발생포쟁에서 병원균의 유입경로를 추적한 결과 육묘 중에 감염되는 경우와 웹스 주변의 이병된 토양에서 감염되는 경우로 크게 두 가지 방법으로 유입되는 것으로 생각된다. 또한 시판용 토마토 종자에서는 풋마름병원균이 검출되지 않았다.

We previously demonstrated that root colonization of the rhizobacterium, Pseudomonas chlororaphis O6, induced expression of a galactinol synthase gene (CsGolS1), and resulting galactinol conferred induced systemic resistance (ISR) against fungal and bacterial pathogens in cucumber leaves. To examine the role of galactinol on ISR, drought or high salt stress, we obtained T-DNA insertion Arabidopsis mutants at the AtGolS1 gene, an ortholog of the CsGolS1 gene. The T-DNA insertion mutant compromised resistance induced by the O6 colonization against Erwinia carotovora. Pharmaceutical application of 0.5 - 5 mM galactinol on roots was sufficient to elicit ISR in wild-type Arabidopsis against infection with E. carotovora. The involvement of jasmonic acid (JA) signaling on the ISR was validated to detect increased expression of the indicator gene PDF1.2. The T-DNA insertion mutant also compromised tolerance by increasing galactinol content in the O6-colonized plant against drought or high salt stresses. Taken together, our results indicate that primed expression of the galactinol synthase gene AtGolS1in the O6-colonized plants can play a critical role in the ISR against infection with E. carotovora, and in the tolerance to drought or high salt stresses.