Aquatic Animal Health Research Team (AQHT), Integrative Aquaculture Biotechnology Research Group (AAQG), National Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency (NSTDA), Yothi office, Rama VI Rd., Bangkok 10400, Thailand.
Aquatic Animal Health Research Team (AQHT), Integrative Aquaculture Biotechnology Research Group (AAQG), National Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency (NSTDA), Yothi office, Rama VI Rd., Bangkok 10400, Thailand; Center of Excellence for Shrimp Molecular Biology and Biotechnology (Centex Shrimp), Faculty of Science, Mahidol University, Rama VI Rd., Bangkok 10400, Thailand.
J Invertebr Pathol. 2022 Jul;192:107784. doi: 10.1016/j.jip.2022.107784. Epub 2022 Jun 2.
White feces syndrome (WFS) in cultivated shrimp is characterized by white shrimp midguts (intestines) and white fecal strings that float as mats on pond surfaces. The etiology of WFS is complex, but one type called EHP-WFS is associated with the microsporidian Enterocytozoon hepatopenaei (EHP). The hepatopancreas (HP), midgut and fecal strings of EHP-WFS shrimp exhibit massive quantities of EHP spores together with mixed, unidentified bacteria. In EHP-WFS ponds, some EHP-infected shrimp show white midguts (WG) and produce white feces while other EHP-infected shrimp in the same pond show grossly normal midguts (NG) and produce no white feces. We hypothesized that comparison of the microbial flora between WG and NG shrimp would reveal probable combinations of microbes significantly associated with EHP-WFS. To test this, we selected a Penaeus vannamei cultivation pond exhibiting severe WFS and used microscopic and microbial profiling analyses to compare WG and NG samples. Histologically, EHP was confirmed in the HP and midgut of both WG and NG shrimp, but EHP burdens were higher and EHP tissue damage was more severe in WG shrimp. Further, intestinal microbiomes in WG shrimp were less diverse and had higher abundance of bacteria from the genera Vibrio and Propionigenium. Propionigenium burden in the HP of WG shrimp (9364 copies/100 ng DNA) was significantly higher (P = 1.1 × 10) than in NG shrimp (12 copies/100 ng DNA). These findings supported our hypothesis by revealing two candidate bacterial genera that should be tested in combination with EHP as potential component causes of EHP-WFS in P. vannamei.
养殖对虾白便综合征(WFS)的特征是对虾中肠(肠道)呈白色,白色粪便呈絮状漂浮在池塘表面。WFS 的病因复杂,但有一种称为 EHP-WFS 的类型与微孢子虫 Enterocytozoon hepatopenaei(EHP)有关。EHP-WFS 对虾的肝胰腺(HP)、中肠和粪便中含有大量 EHP 孢子以及混合的、未鉴定的细菌。在 EHP-WFS 池塘中,一些感染 EHP 的对虾表现出白色中肠(WG)并产生白色粪便,而同一池塘中其他感染 EHP 的对虾则表现出明显正常的中肠(NG)且不产生白色粪便。我们假设比较 WG 和 NG 对虾的微生物菌群将揭示与 EHP-WFS 显著相关的可能微生物组合。为了验证这一点,我们选择了一个表现出严重 WFS 的凡纳滨对虾养殖池塘,使用显微镜和微生物分析来比较 WG 和 NG 样本。组织学上,在 WG 和 NG 对虾的 HP 和中肠中均确认存在 EHP,但 WG 对虾的 EHP 负担更高,EHP 组织损伤更严重。此外,WG 对虾的肠道微生物组多样性较低,Vibrio 和 Propionigenium 属细菌的丰度更高。WG 对虾 HP 中 Propionigenium 的负担(9364 拷贝/100ng DNA)显著高于 NG 对虾(12 拷贝/100ng DNA)(P=1.1×10)。这些发现通过揭示两个候选细菌属,支持了我们的假设,这两个属应该与 EHP 一起作为凡纳滨对虾 EHP-WFS 的潜在成分原因进行测试。
