Dos Reis Thais Fernanda Martins, Hoepers Patricia Giovana, Azevedo Vasco Ariston de Carvalho, da Silva Gabriela Ribeiro, Notário Fabiana Oliveira, Soares Maria Cecília, Schlemper André Eduardo, Costa Ícaro Mendonça, Coelho-Rocha Nina Dias, da Costa Mylla Spirandelli, Sommerfeld Simone, Medeiros-Ronchi Alessandra Aparecida, Rossi Daise Aparecida, de Castro Igor Paula, Fonseca Belchiolina Beatriz
School of Veterinary Medicine, Federal University of Uberlândia, Uberlândia, Brazil.
Graduate Program in Genetics at the Federal University of Minas Gerais, Belo Horizonte, Brazil.
Arch Microbiol. 2022 Nov 19;204(12):715. doi: 10.1007/s00203-022-03307-9.
Bacillus subtilis (BS) has been used as an excellent probiotic; however, some BS strains seem to be opportunist pathogens or do not present inhibitory effects in the pathogenic bacteria, so the characterization of BS strains for use in animals is mandatory. This study aimed to select nonpathogenic strains of BS, which can inhibit Salmonella spp., avian pathogenic Escherichia coli (APEC), and Campylobacter jejuni (CJ) using a chicken embryo as a model. We tested nine (9) strains of BS isolated from several sources (named A to I) in in vitro by tests of mucin degradation activity, haemolytic activity, apoptosis, and necrosis in fibroblasts from chickens. After the in vitro test, we tested the remaining seven (7) strains (strains A to G) in a chicken embryo (CE) as an in vivo model and target animal. We inoculated 3 log CFU/CE of each strain via allantoic fluid at the 10th day postincubation (DPI). Each treatment group consisted of eight CEs. At the 17th DPI we checked CE mortality, gross lesions, CE weight, and whether BS strains were still viable. To perform the cytokine, total protein, albumin, and reactive C protein analysis, we collected the CE blood from the allantoic vessel and intestine fragments in the duodenum portion for histomorphometric analysis. After the results in CEs, we tested the inhibition capacity of the selected BS strains for diverse strains of Salmonella Heidelberg (SH), S. Typhimurium (ST), S. Enteritidis (SE), S. Minnesota (SM), S. Infantis (SI), Salmonella var. monophasic (SVM), APEC and C. jejuni. After the in vitro trial (mucin degradation activity, haemolytic activity, apoptosis, and necrosis), we removed two (2) strains (H and I) that showed β-haemolysis, mucin degradation, and/or high apoptosis and necrosis effects. Although all strains of BS were viable in CEs at the 17th DPI, we removed four (4) strains (A, B, D, F) once they led to the highest mortality in CEs or a high albumin/protein ratio. C. jejuni inoculated with strain G had greater weight than the commercial strain, which could be further used for egg inoculation with benefits to the CE. From the tests in CEs, we selected the strains C, E, and G for their ability to inhibit pathogenic strains of relevant foodborne pathogens. We found that the inhibition effect was strain dependent. In general, strains E and/or G presented better or similar results than commercial control strains in the inhibition of SH, ST, SI, APEC, and two (2) strains of CJ. In this study, we selected BS strains C, E and G due to their in vitro and in vivo safety and beneficial effects. In addition, we emphasize the value of CE as an in vivo experimental model for assessing BS's safety and possible benefits for poultry and other animals.
枯草芽孢杆菌(BS)已被用作优良的益生菌;然而,一些BS菌株似乎是机会致病菌,或者对病原菌没有抑制作用,因此对用于动物的BS菌株进行特性鉴定是必不可少的。本研究旨在以鸡胚为模型,筛选出能抑制沙门氏菌、禽致病性大肠杆菌(APEC)和空肠弯曲菌(CJ)的非致病性BS菌株。我们通过对从多个来源分离的9株BS菌株(命名为A至I)进行体外测试,检测其对鸡成纤维细胞的粘蛋白降解活性、溶血活性、凋亡和坏死情况。体外测试后,我们以鸡胚(CE)作为体内模型和目标动物,对其余7株菌株(A至G株)进行测试。在孵化后第10天(DPI),我们通过尿囊液向每个鸡胚接种3 log CFU/CE的各菌株。每个处理组由8个鸡胚组成。在第17 DPI时,我们检查鸡胚死亡率、大体病变、鸡胚重量以及BS菌株是否仍存活。为了进行细胞因子、总蛋白、白蛋白和反应性C蛋白分析,我们从尿囊血管和十二指肠部分的肠段收集鸡胚血液,用于组织形态计量分析。在鸡胚实验得出结果后,我们测试了所选BS菌株对多种海德堡沙门氏菌(SH)、鼠伤寒沙门氏菌(ST)、肠炎沙门氏菌(SE)、明尼苏达沙门氏菌(SM)、婴儿沙门氏菌(SI)、单相沙门氏菌变种(SVM)、APEC和空肠弯曲菌菌株的抑制能力。经过体外试验(粘蛋白降解活性、溶血活性、凋亡和坏死)后,我们剔除了2株表现出β溶血、粘蛋白降解和/或高凋亡及坏死效应的菌株(H和I)。尽管所有BS菌株在第17 DPI时在鸡胚中仍存活,但我们剔除了4株导致鸡胚死亡率最高或白蛋白/蛋白比率较高的菌株(A、B、D、F)。接种G株的空肠弯曲菌重量比商业菌株更大,这可进一步用于蛋接种,对鸡胚有益。通过鸡胚实验,我们选择了C、E和G株因其抑制相关食源性病原体致病菌株的能力。我们发现抑制效果因菌株而异。总体而言,在抑制SH、ST、SI、APEC和2株空肠弯曲菌方面,E株和/或G株的结果优于或类似于商业对照菌株。在本研究中,我们选择了BS菌株C、E和G,因其在体外和体内的安全性及有益作用。此外,我们强调鸡胚作为评估BS对家禽和其他动物安全性及可能益处的体内实验模型的价值。
