Joiner K A, Grossman N, Schmetz M, Leive L
J Immunol. 1986 Jan;136(2):710-5.
We studied the population of LPS molecules on Salmonella montevideo that bind C3 during alternative pathway activation in serum. LPS molecules of Salmonella are composed of lipid A:core oligosaccharide (one copy per molecule), substituted by an O-polysaccharide (O-PS) side chain, which is a linear polymer of 0 to greater than 60 O-antigen repeat units containing mannose. A mutant of S. montevideo called SL5222 that inserts galactose only into core oligosaccharide and mannose only into O-antigen subunits was grown with [3H]mannose and [14C]galactose, so that LPS molecules bearing large numbers of O-antigen subunits have high 3H to 14C ratios, whereas molecules with few O-antigen subunits have lower 3H to 14C ratios. Double-labeled SL5222 was incubated in C8-deficient (C8D) serum or C8D serum with 2 mM Mg++Cl2 and 10 mM ethylene glycoltetraacetic acid (MgEGTA C8D). LPS molecules with covalently attached C3 were identified by binding to anti-C3. LPS molecules that bound C3 under both incubation conditions had O chains seven to eight times longer than the average LPS molecule. SL5222 was then grown in suboptimal concentrations of mannose in order to decrease the number of LPS molecules with long O-PS side chains. C3 attached to progressively shorter chain molecules of LPS as the mannose input was lowered, but still chose the longest available molecules. This finding and recently published observations indicate that C3 can bind to LPS molecules with short O-PS side chains. We postulate that preferential attachment of C3 to long-chain LPS in SL5222 results because long-chain LPS molecules sterically hinder shorter chain LPS molecules from macromolecules. This study provides direct proof that the O-PS of LPS sterically hinders access of large molecules to the outer membrane and indicates that the LPS coat of these bacteria functions as a barrier against large protein molecules.
我们研究了蒙得维的亚沙门氏菌上在血清替代途径激活过程中与C3结合的脂多糖(LPS)分子群体。沙门氏菌的LPS分子由脂多糖A:核心寡糖(每个分子一个拷贝)组成,并被O-多糖(O-PS)侧链取代,O-PS侧链是一种含有甘露糖的0至超过60个O抗原重复单元的线性聚合物。一个名为SL5222的蒙得维的亚沙门氏菌突变体,其仅将半乳糖插入核心寡糖,仅将甘露糖插入O抗原亚基,用[3H]甘露糖和[14C]半乳糖培养,因此带有大量O抗原亚基的LPS分子具有高的3H与14C比率,而带有少量O抗原亚基的分子具有较低的3H与14C比率。将双标记的SL5222在缺乏C8的(C8D)血清或含有2 mM Mg++Cl2和10 mM乙二醇四乙酸(MgEGTA C8D)的C8D血清中孵育。通过与抗C3结合鉴定共价连接有C3的LPS分子。在两种孵育条件下都与C3结合的LPS分子的O链比平均LPS分子长七至八倍。然后将SL5222在次优浓度的甘露糖中培养,以减少具有长O-PS侧链的LPS分子数量。随着甘露糖输入量降低,C3附着到LPS的链逐渐变短的分子上,但仍然选择最长的可用分子。这一发现和最近发表的观察结果表明,C3可以与具有短O-PS侧链的LPS分子结合。我们推测,在SL5222中C3优先附着于长链LPS是因为长链LPS分子在空间上阻碍了短链LPS分子与大分子的接触。这项研究提供了直接证据,证明LPS的O-PS在空间上阻碍了大分子进入外膜,并表明这些细菌的LPS包膜起到了针对大蛋白质分子的屏障作用。
