Hoebe Kasper, Du Xin, Goode Jason, Mann Navjiwan, Beutler Bruce
Department of Immunology, The Scripps Research Institute, La Jolla, CA 92037, USA.
J Endotoxin Res. 2003;9(4):250-5. doi: 10.1179/096805103225001459.
Both forward and reverse genetic techniques have been used to define components of the mammalian lipopolysaccharide (LPS) receptor. TLR4, identified by a forward genetic approach as the product of the classical Lps locus, is the only known transmembrane component of the mammalian LPS receptor. Gene knockout work has also established that LPS signal transduction requires the integrity of CD14, MD-2, and, in part, MyD88, IRAK4, and TRAF-6. However, there is no reason to believe that these are the only proteins that make up the receptor/transducer apparatus. To examine the possibility that other proteins may be involved, we initiated a mutagenesis program, in which germline mutations are induced in mice using N-ethyl-N-nitrosourea (ENU), and macrophages from individual animals are screened for their competence to respond to LPS. We now report the existence of a new locus, Lps2, which is required for TNF production in response to LPS. The Lps2 mutation that we have identified is co-dominant, is similar in phenotypic effect to Lpsd, and does not represent a novel allele of any of the genes that are known to encode the 'core' LPS signaling apparatus. The Lps2 mutation does not preclude signaling initiated by peptidoglycan or unmethylated DNA. Hence, genetic data suggest that there is at least one 'missing' component of the LPS receptor complex that has yet to be found.
正向和反向遗传学技术都已被用于确定哺乳动物脂多糖(LPS)受体的组成成分。通过正向遗传学方法鉴定为经典Lps基因座产物的TLR4,是哺乳动物LPS受体唯一已知的跨膜成分。基因敲除研究还证实,LPS信号转导需要CD14、MD-2以及部分MyD88、IRAK4和TRAF-6的完整性。然而,没有理由相信这些是构成受体/转导装置的唯一蛋白质。为了研究其他蛋白质可能参与的可能性,我们启动了一个诱变计划,其中使用N-乙基-N-亚硝基脲(ENU)在小鼠中诱导种系突变,并筛选来自个体动物的巨噬细胞对LPS的反应能力。我们现在报告一个新基因座Lps2的存在,它是LPS诱导肿瘤坏死因子(TNF)产生所必需的。我们鉴定出的Lps2突变是共显性突变,其表型效应与Lpsd相似,并且不代表已知编码“核心”LPS信号传导装置的任何基因的新等位基因。Lps2突变并不排除由肽聚糖或未甲基化DNA引发的信号传导。因此,遗传学数据表明,LPS受体复合物中至少存在一个尚未被发现的“缺失”成分。
