Department of Biochemistry and Cell Biology, Utrecht University, PO Box 80.176, NL-3508 TD Utrecht, The Netherlands.
Traffic. 2010 Mar;11(3):324-31. doi: 10.1111/j.1600-0854.2009.01024.x. Epub 2009 Dec 3.
In dendritic cells (DC), newly synthesized MHCII is directed to endosomes by its associated invariant chain (Ii). Here, Ii is degraded after which MHCII is loaded with peptides. In immature DC, ubiquitination of peptide-loaded MHCII drives its sorting to lysosomes for degradation. Ubiquitination of MHCII is strongly reduced in response to inflammatory stimuli, resulting in increased expression of MHCII at the plasma membrane. Whether surface exposure of MHCII is also regulated during DC maturation by changing the rate of Ii degradation remained unresolved by conflicting results in the literature. We here pinpoint experimental problems that have contributed to these controversies and demonstrate that immature and mature DC degrade Ii equally efficient at proper culture conditions. Only when DC were cultured in glutamine containing media, endosome acidification and Ii degradation were restricted in immature DC and enhanced in response to lipopolysaccharide (LPS). These effects are caused by ammonia, a glutamine decomposition product. This artificial behavior could be prevented by culturing DC in media containing a stable dipeptide as glutamine source. We conclude that Ii degradation is a prerequisite for but not a rate limiting step in MHCII processing.
在树突状细胞 (DC) 中,新合成的 MHCII 通过与其相关的不变链 (Ii) 被定向到内体。在这里,Ii 在被降解后,MHCII 被加载肽。在未成熟的 DC 中,负载肽的 MHCII 的泛素化驱动其分拣到溶酶体进行降解。MHCII 的泛素化在炎症刺激下强烈减少,导致质膜上 MHCII 的表达增加。在 DC 成熟过程中,通过改变 Ii 降解的速率,MHCII 的表面暴露是否也受到调节,这一问题在文献中的相互矛盾的结果中仍未得到解决。我们在这里指出了导致这些争议的实验问题,并证明在适当的培养条件下,未成熟和成熟的 DC 以相同的效率降解 Ii。只有当 DC 在含有谷氨酰胺的培养基中培养时,内体酸化和 Ii 降解才会在未成熟的 DC 中受到限制,并在脂多糖 (LPS) 刺激下增强。这些效应是由谷氨酰胺分解产物氨引起的。这种人为行为可以通过在含有稳定二肽作为谷氨酰胺来源的培养基中培养 DC 来预防。我们的结论是,Ii 降解是 MHCII 加工的必要条件,但不是限速步骤。
