Amoah Kwaku, Dong Xiao-Hui, Tan Bei-Ping, Zhang Shuang, Kuebutornye Felix K A, Chi Shu-Yan, Yang Qi-Hui, Liu Hong-Yu, Zhang Hai-Tao, Yang Yuan-Zhi
Laboratory of Aquatic Animal Nutrition and Feed, College of Fisheries, Guangdong Ocean University, Zhanjiang, China.
Aquatic Animals Precision Nutrition and High-Efficiency Feed Engineering Research Centre of Guangdong Province, Zhanjiang, China.
Front Vet Sci. 2021 May 28;8:675962. doi: 10.3389/fvets.2021.675962. eCollection 2021.
Probiotics serving as an alternative to the criticized antibiotics mainly focus on improving animal's growth and health. After realizing the dangers posed by diseases that have led to lots of economic losses, aquaculture scientists have sought the usage of probiotics. However, most probiotics are ineffective in eliciting aquatic animals' preferred effects, since they are from non-fish sources. Again, there are even a few marine aquatic probiotics. Given this, a study was conducted to investigate the probiotic potential of the bacteria species isolated from the digestive tract of hybrid grouper (♀ × ♂). Based on the morphological, biochemical, 16S rRNA sequencing analysis and evolutionary relationships, the isolated species were identified as GPSAK2 (MW548630), GPSAK4 (MW548635), and GPSAK9 (MW548634), which were designated as GPSAK2, GPSAK4, and GPSAK9 strains, respectively. Their probiotic potentials including their ability to tolerate high bile salt concentration, low pH, high temperatures, adhesion ability (auto-aggregation and cell-surface hydrophobicity), antimicrobial activity and biosafety test, compatibility test, hemolytic activity, and antibiotic susceptibility test were evaluated. While GPSAK2 and GPSAK9 strains were γ-hemolytic, that of GPSAK4 was α-hemolytic. All the isolates were resistant to low pH (1) and higher bile salt concentration (0.5%), showed higher viability ability after higher temperature exposure (80, 90, and 100°C), as well as higher cell-surface percentage hydrophobicity and auto-aggregation. All isolates exhibited positive compatibility with each other, signifying their ability to be used as multispecies. The three strains were susceptible to ampicillin (except GPSAK9, which was resistant), penicillin, kanamycin, ceftriaxone, chloramphenicol, erythromycin, clindamycin, furazolidone (except GPSAK2 and GPSAK9, which were moderately susceptible and resistant, respectively), polymyxin B, vancomycin (except GPSAK9, which was resistant), sulfamethoxazole (except GPSAK9, which was moderately susceptible), amikacin, minocycline, ofloxacin, norfloxacin, doxycycline, neomycin, gentamicin, tetracycline, carbenicillin, midecamycin (except GPSAK9, which was moderately susceptible), ciprofloxacin, piperacillin, and cefoperazone. All isolates demonstrated good antimicrobial activity against four pathogens, , and . The results collectively suggest that strains GPSAK2, GPSAK4, and GPSAK9 could serve as potential probiotic candidates that can be used to improve the growth and health status of aquatic animals, especially grouper.
益生菌作为备受诟病的抗生素的替代品,主要致力于改善动物的生长和健康状况。在意识到疾病造成的巨大经济损失后,水产养殖科学家开始寻求益生菌的应用。然而,大多数益生菌由于来源于非鱼类,在引发水生动物预期效果方面效果不佳。此外,海洋水产益生菌更是稀少。鉴于此,开展了一项研究,以探究从杂交石斑鱼(♀×♂)消化道分离出的细菌物种的益生菌潜力。基于形态学、生化特性、16S rRNA测序分析及进化关系,分离出的物种被鉴定为GPSAK2(MW548630)、GPSAK4(MW548635)和GPSAK9(MW548634),分别命名为GPSAK2、GPSAK4和GPSAK9菌株。对它们的益生菌潜力进行了评估,包括耐受高胆汁盐浓度、低pH值、高温的能力,黏附能力(自聚集和细胞表面疏水性)、抗菌活性,以及生物安全性测试、相容性测试、溶血活性和抗生素敏感性测试。GPSAK2和GPSAK9菌株为γ-溶血,而GPSAK4菌株为α-溶血。所有分离株均能耐受低pH值(1)和较高胆汁盐浓度(0.5%),在高温(80、90和100°C)暴露后仍具有较高的生存能力,以及较高的细胞表面疏水性百分比和自聚集能力。所有分离株之间均表现出良好的相容性,表明它们可作为多菌种使用。这三株菌对氨苄西林(GPSAK9除外,其耐药)、青霉素、卡那霉素、头孢曲松、氯霉素、红霉素、克林霉素、呋喃唑酮(GPSAK2和GPSAK9除外,分别为中度敏感和耐药)、多黏菌素B、万古霉素(GPSAK9除外,其耐药)、磺胺甲恶唑(GPSAK9除外,其中度敏感)、阿米卡星、米诺环素、氧氟沙星、诺氟沙星、强力霉素、新霉素、庆大霉素、四环素、羧苄青霉素、麦迪霉素(GPSAK9除外,其中度敏感)、环丙沙星、哌拉西林和头孢哌酮敏感。所有分离株对四种病原体均表现出良好的抗菌活性。这些结果共同表明,GPSAK2、GPSAK4和GPSAK9菌株可作为潜在的益生菌候选菌株,用于改善水生动物尤其是石斑鱼的生长和健康状况。
