ANALYSIS OF THE PATHOGENESIS OF Aeromonas hydrophila IN THE AFRICAN CATFISH, Clarias gariepinus AND INVOLVEMENT OF THE TNF-a IN RESPONSE TO THE INFECTION

Q4 Environmental Science

Indonesian Aquaculture Journal Pub Date : 2022-06-29 DOI:10.15578/iaj.17.1.2022.73-85

T. Mufidah, S. Sukenda, W. Widanarni, H. Darusman, A. Lusiastuti

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引用次数: 1

Abstract

This research aimed to study the pathogenesis of Aeromonas hydrophila infection through two different routes of infection in African catfish and to find out the involvement of TNF-a in response to the infection. The experimental infection model was performed by clipping the caudal fin and immersing the fish in a medium with A. hydrophila and by intramuscular injection. Total plate count were used to investigate total and the distribution of A. hydrophila in the organs and TNF-a were observed using immune histochemistry. The results showed that the two types of infection were able to show typical A. hydrophila symptoms in experimental fish. Histological observation indicated that the two types of experimental infection resulted in systemic aeromoniasis infection. Total bacterial count results showed that A. hydrophila were detected three hours post-infection (hpi) in all organs, except for the kidney, in which detection started since hour 0, both in control and challenge fish. TNF-a were detected in all experimental fish and influenced by the number of bacteria, the function and tissue structure and of the organs. It can be concluded that artificial infection by clipping the caudal fin of Clarias gariepinus and immersing the fish in a medium with active A. hydrophila isolates cause systemic aeromoniasis infection in organs. Acute infection with Aeromonas hydrophila causes an increase in TNF-a production.

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非洲鲶鱼嗜水气单胞菌的发病机制及TNF-a在感染反应中的作用分析

本研究旨在研究非洲鲶鱼通过两种不同的感染途径感染嗜水气单胞菌的发病机制，并探讨TNF-a在感染应答中的作用。实验采用剪断鱼鳍，将其浸泡在含有嗜水单胞菌的培养基中，并肌肉注射的方法建立感染模型。用总平板计数法测定嗜水单胞菌在各脏器中的总数和分布，用免疫组织化学法观察TNF-a的变化。结果表明，两种感染均能在实验鱼身上表现出典型的嗜水单胞菌症状。组织学观察表明，两种实验性感染均可导致全身气单胞菌感染。总细菌计数结果显示，在感染后3小时(hpi)，除肾脏(从0小时开始检测)外，对照组和攻毒鱼的所有器官都检测到嗜水单胞菌。所有实验鱼均检测到TNF-a，并受细菌数量、功能和组织结构以及器官的影响。综上所述，剪断加里平克拉鱼的尾鳍，将其浸泡在具有活性的嗜水单胞菌分离物的培养基中，可引起器官的全身性气单胞菌感染。急性感染嗜水气单胞菌导致TNF-a的产生增加。

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来源期刊

Indonesian Aquaculture Journal Environmental Science-Water Science and Technology

CiteScore

0.50

自引率

0.00%

发文量