Dissecting the role of the Campylobacter haem uptake system in host colonisation and disease

剖析弯曲杆菌血红素摄取系统在宿主定植和疾病中的作用

• 批准号: BB/G003416/1
• 负责人: Julian Ketley
• 金额: $ 49.92万
• 依托单位: University of Leicester
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2008
• 资助国家: 英国
• 起止时间: 2008 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=BB%2FG003416%2F1
• 关键词: Dissecting; role; Campylobacter; haem; uptake

Iron is a nutrient that bacteria need for many essential processes in the cell. As part of the response to infection by bacteria, animals restrict the amount of iron available. In mammals lactoferrin (in mucosal secretions) and transferrin (in serum) tightly bind free iron to restrict its availability. Unfortunately, successful disease-causing bacteria have found ways to grab iron back from the host. The bacterial mechanisms involved in acquiring iron in the host usually consist of a specific pore on the outer surface of the bacterial cell and an associated transport system that makes the iron available inside the cell. The most important food-associated bacterium, which infects humans, is Campylobacter and as such is responsible for much misery and economic loss in the UK. Campylobacters normally live in the intestine of many animals, notably chickens, where they do not always cause disease. However, when humans eat food contaminated with campylobacters, a highly unpleasant cramping diarrhoea can follow. Food producers strive to minimise the risks of food poisoning for consumers, but if Campylobacter could be eliminated from the intestines of farm animals, particularly chickens, it would have a significant impact on human health by preventing many thousands of cases of food borne disease each year. If control is to be achieved it is important that we better understand how Campylobacter colonises the intestine. Several components of campylobacters that are essential for growth in the intestine are involved in acquiring iron within the host. In our preliminary work, we have identified and begun to characterise a system in campylobacters that can grab iron directly from haem to support bacterial growth. Haem is a prosthetic group, or non-amino acid component of a protein that is important in the protein's biological activity, that contains iron. The Campylobacter Haem Uptake system, or Chu, includes a surface pore (ChuA) that imports haem into the cell and an enzyme (ChuZ) that removes iron from haem. The Chu system is highly conserved in isolates of Campylobacter. In contrast, other iron uptake pores, namely CfrA and Cj0178, are thought to be essential in some strains but are not present in others. Our first task is to determine which components play a role in acquiring iron in those strains where CfrA and Cj0178 are absent; these components include the Chu and Cj0444 pores. Our second task is to further investigate how the ChuA pore removes the haem group from proteins and to carry out a more detailed characterisation of how ChuZ works, including working out the structure of the protein. With a better understanding of Campylobacter iron acquisition systems we will be able to determine if they would be an attractive target for intervention on the farm in order to block growth in the animal gut and reduce food contamination.

铁是细菌在细胞内许多基本过程中所需要的一种营养物质。作为对细菌感染的反应的一部分，动物限制可获得的铁量。在哺乳动物中，乳铁蛋白(在粘膜分泌物中)和转铁蛋白(在血清中)与游离铁紧密结合，从而限制其可获得性。不幸的是，成功的致病细菌已经找到了从宿主那里夺回铁的方法。细菌在宿主体内获取铁的机制通常由细菌细胞外表面的一个特定孔和相关的运输系统组成，该系统使铁在细胞内可用。感染人类的最重要的食物相关细菌是弯曲杆菌，因此在英国造成了许多痛苦和经济损失。弯曲杆菌通常生活在许多动物的肠道中，特别是鸡，在那里它们并不总是引起疾病。然而，当人类食用被弯曲杆菌污染的食物时，随之而来的可能是非常令人不快的痉挛腹泻。食品生产商努力将消费者的食物中毒风险降至最低，但如果能从农场动物的肠道中消除弯曲杆菌，特别是鸡的肠道中的弯曲杆菌，它将对人类健康产生重大影响，因为它每年可以防止数千例食源性疾病。如果要实现控制，重要的是我们要更好地了解弯曲杆菌是如何在肠道定植的。弯曲杆菌的几种成分对肠道的生长至关重要，它们参与了宿主体内铁的获取。在我们的初步工作中，我们已经确定并开始描述弯曲杆菌中的一种系统，该系统可以直接从血红素中捕获铁来支持细菌的生长。血红素是蛋白质中的一个修饰性基团，或非氨基酸成分，对蛋白质的生物活性很重要，含有铁。弯曲杆菌的血红素摄取系统，或称CHU，包括一个表面小孔(Chua)和一个酶(ChuZ)，前者将血红蛋白输入细胞，后者从血红蛋白中去除铁。Chu系统在弯曲菌分离株中高度保守。相反，其他铁吸收孔，即CFRA和Cj0178，被认为在某些菌株中是必需的，但在其他菌株中不存在。我们的第一个任务是确定在缺乏CFRA和Cj0178的菌株中，哪些成分在获取铁方面发挥作用；这些成分包括Chu和Cj0444毛孔。我们的第二个任务是进一步研究Chua小孔是如何从蛋白质中去除血红素基团的，并对ChuZ是如何工作的进行更详细的表征，包括确定蛋白质的结构。随着对弯曲杆菌铁获取系统的更好的了解，我们将能够确定它们是否会成为农场干预的有吸引力的目标，以阻止动物肠道的生长并减少食品污染。

项目成果

Creation of a large deletion mutant of Campylobacter jejuni reveals that the lipooligosaccharide gene cluster is not required for viability.

空肠弯曲杆菌大缺失突变体的创建表明，脂寡糖基因簇并不是生存所必需的。

• DOI: 10.1128/jb.01397-08
• 发表时间: 2009
• 期刊: Journal of bacteriology
• 影响因子: 3.2
• 作者: Marsden GL

Phase variable genes of Campylobacter jejuni exhibit high mutation rates and specific mutational patterns but mutability is not the major determinant of population structure during host colonization.

• DOI: 10.1093/nar/gks246
• 发表时间: 2012-07
• 期刊: Nucleic acids research
• 影响因子: 14.9
• 作者: Bayliss CD;Bidmos FA;Anjum A;Manchev VT;Richards RL;Grossier JP;Wooldridge KG;Ketley JM;Barrow PA;Jones MA;Tretyakov MV
• 通讯作者: Tretyakov MV