溃疡分枝杆菌的高通量碳底物分析表明潜在的环境储存库。
High-Throughput Carbon Substrate Profiling of Mycobacterium ulcerans Suggests Potential Environmental Reservoirs.
作者信息
Zingue Dezemon, Bouam Amar, Militello Muriel, Drancourt Michel
机构信息
Aix Marseille Univ, INSERM, CNRS, IRD, URMITE, Marseille, France.
出版信息
PLoS Negl Trop Dis. 2017 Jan 17;11(1):e0005303. doi: 10.1371/journal.pntd.0005303. eCollection 2017 Jan.
BACKGROUND
Mycobacterium ulcerans is a close derivative of Mycobacterium marinum and the agent of Buruli ulcer in some tropical countries. Epidemiological and environmental studies pointed towards stagnant water ecosystems as potential sources of M. ulcerans, yet the ultimate reservoirs remain elusive. We hypothesized that carbon substrate determination may help elucidating the spectrum of potential reservoirs.
METHODOLOGY/PRINCIPAL FINDINGS: In a first step, high-throughput phenotype microarray Biolog was used to profile carbon substrates in one M. marinum and five M. ulcerans strains. A total of 131/190 (69%) carbon substrates were metabolized by at least one M. ulcerans strain, including 28/190 (15%) carbon substrates metabolized by all five M. ulcerans strains of which 21 substrates were also metabolized by M. marinum. In a second step, 131 carbon substrates were investigated, through a bibliographical search, for their known environmental sources including plants, fruits and vegetables, bacteria, algae, fungi, nematodes, mollusks, mammals, insects and the inanimate environment. This analysis yielded significant association of M. ulcerans with bacteria (p = 0.000), fungi (p = 0.001), algae (p = 0.003) and mollusks (p = 0.007). In a third step, the Medline database was cross-searched for bacteria, fungi, mollusks and algae as potential sources of carbon substrates metabolized by all tested M. ulcerans; it indicated that 57% of M. ulcerans substrates were associated with bacteria, 18% with alga, 11% with mollusks and 7% with fungi.
CONCLUSIONS
This first report of high-throughput carbon substrate utilization by M. ulcerans would help designing media to isolate and grow this pathogen. Furthermore, the presented data suggest that potential M. ulcerans environmental reservoirs might be related to micro-habitats where bacteria, fungi, algae and mollusks are abundant. This should be followed by targeted investigations in Buruli ulcer endemic regions.
背景
溃疡分枝杆菌是海分枝杆菌的一个近亲,是一些热带国家中布氏溃疡的病原体。流行病学和环境研究表明,死水生态系统可能是溃疡分枝杆菌的潜在来源,但最终宿主仍不明确。我们推测,碳底物的测定可能有助于阐明潜在宿主的范围。
方法/主要发现:第一步,使用高通量表型微阵列Biolog对一株海分枝杆菌和五株溃疡分枝杆菌菌株的碳底物进行分析。共有131/190(69%)种碳底物被至少一株溃疡分枝杆菌菌株代谢,其中28/190(15%)种碳底物被所有五株溃疡分枝杆菌菌株代谢,其中21种底物也被海分枝杆菌代谢。第二步,通过文献检索,研究了131种碳底物的已知环境来源,包括植物、水果和蔬菜、细菌、藻类、真菌、线虫、软体动物、哺乳动物、昆虫和无生命环境。该分析得出溃疡分枝杆菌与细菌(p = 0.000)、真菌(p = 0.001)、藻类(p = 0.003)和软体动物(p = 0.007)之间存在显著关联。第三步,在Medline数据库中交叉搜索作为所有测试溃疡分枝杆菌代谢的碳底物潜在来源的细菌、真菌、软体动物和藻类;结果表明,57%的溃疡分枝杆菌底物与细菌有关,18%与藻类有关,11%与软体动物有关,7%与真菌有关。
结论
这篇关于溃疡分枝杆菌高通量碳底物利用的首次报告将有助于设计用于分离和培养这种病原体的培养基。此外,所提供的数据表明,溃疡分枝杆菌的潜在环境宿主可能与细菌、真菌、藻类和软体动物丰富的微生境有关。这应随后在布氏溃疡流行地区进行有针对性的调查。
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