Starr Kimberly F, Porsch Eric A, Seed Patrick C, St Geme Joseph W
Department of Pediatrics and Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA.
Department of Pediatrics, The Children's Hospital of Philadelphia, Philadelphia, Pennsylvania, USA.
Infect Immun. 2016 May 24;84(6):1775-1784. doi: 10.1128/IAI.00128-16. Print 2016 Jun.
Kingella kingae is a common cause of invasive disease in young children and was recently found to produce a polysaccharide capsule containing N-acetylgalactosamine (GalNAc) and β-3-deoxy-d-manno-octulosonic acid (βKdo). Given the role of capsules as important virulence factors and effective vaccine antigens, we set out to determine the genetic determinants of K. kingae encapsulation. Using a transposon library and a screen for nonencapsulated mutants, we identified the previously identified ctrABCD (ABC transporter) operon, a lipA (kpsC)-like gene, a lipB (kpsS)-like gene, and a putative glycosyltransferase gene designated csaA (capsule synthesis type a gene A). These genes were found to be present at unlinked locations scattered throughout the genome, an atypical genetic arrangement for Gram-negative bacteria that elaborate a capsule dependent on an ABC-type transporter for surface localization. The csaA gene product contains a predicted glycosyltransferase domain with structural homology to GalNAc transferases and a predicted capsule synthesis domain with structural homology to Kdo transferases, raising the possibility that this enzyme is responsible for alternately linking GalNAc to βKdo and βKdo to GalNAc. Consistent with this conclusion, mutation of the DXD motif in the GalNAc transferase domain and of the HP motif in the Kdo transferase domain resulted in a loss of encapsulation. Examination of intracellular and surface-associated capsule in deletion mutants and complemented strains further implicated the lipA (kpsC)-like gene, the lipB (kpsS)-like gene, and the csaA gene in K. kingae capsule production. These data define the genetic requirements for encapsulation in K. kingae and demonstrate an atypical organization of capsule synthesis, assembly, and export genes.
金氏金杆菌是幼儿侵袭性疾病的常见病因,最近发现它能产生一种含有N - 乙酰半乳糖胺(GalNAc)和β - 3 - 脱氧 - D - 甘露糖辛酸(βKdo)的多糖荚膜。鉴于荚膜作为重要毒力因子和有效疫苗抗原的作用,我们着手确定金氏金杆菌荚膜形成的遗传决定因素。通过转座子文库和对非荚膜突变体的筛选,我们鉴定出了先前已确定的ctrABCD(ABC转运蛋白)操纵子、一个lipA(kpsC)样基因、一个lipB(kpsS)样基因以及一个命名为csaA(荚膜合成a型基因A)的推定糖基转移酶基因。这些基因位于基因组中分散的不连锁位置,这对于依赖ABC型转运蛋白进行表面定位来合成荚膜的革兰氏阴性菌来说是一种非典型的遗传排列。csaA基因产物包含一个预测的糖基转移酶结构域,与GalNAc转移酶具有结构同源性,以及一个预测的荚膜合成结构域,与Kdo转移酶具有结构同源性,这增加了该酶负责将GalNAc与βKdo交替连接以及将βKdo与GalNAc交替连接的可能性。与这一结论一致的是,GalNAc转移酶结构域中的DXD基序和Kdo转移酶结构域中的HP基序发生突变导致荚膜形成丧失。对缺失突变体和互补菌株中细胞内和表面相关荚膜的检测进一步表明,lipA(kpsC)样基因、lipB(kpsS)样基因和csaA基因参与了金氏金杆菌的荚膜产生。这些数据确定了金氏金杆菌荚膜形成的遗传要求,并证明了荚膜合成、组装和输出基因的非典型组织方式。