Department of Dermatology, Okayama Rosai Hospital and Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, 2-5-1 Shikata-cho, Okayama 700-8558, Japan.
Br J Dermatol. 2010 May;162(5):1049-55. doi: 10.1111/j.1365-2133.2010.09672.x. Epub 2010 Mar 4.
Pemphigus vulgaris (PV) is characterized by autoantibodies against desmoglein (Dsg) 3 or both Dsg1 and Dsg3, i.e. desmosomal adhesion molecules.
We examined whether or not PV IgG binding to Dsg3 directly impairs the adhesion of desmosomes.
For immunofluorescence microscopy, keratinocytes were first incubated with PV IgG for 30 min in low Ca(2+) medium, in which no desmosomes were formed, and then for 1 h in high Ca(2+) medium to generate desmosomes. For immunoelectron microscopy, after a 30-min incubation with PV IgG in low Ca(2+) medium, cells were incubated with antihuman IgG with 5-nm gold particles for 5 min; after washing, cells were further incubated in high Ca(2+) medium for 1 h. For tracing of PV IgG/Dsg3 immune complexes formed in the desmosomal core domain, cells were first incubated with PV IgG for 5 min to allow PV IgG to bind the desmosomal core domain and were further incubated with PV IgG-free medium for different times.
Immunofluorescence microscopy revealed that PV IgG bound in a random-punctate pattern on the cell surface in low Ca(2+) medium was translocated to the cell-cell contacts forming a dotted-linear distribution, suggesting desmosome generation even in the presence of PV IgG. Immunoelectron microscopy revealed that half-desmosome-like structures decorated with gold particles in low Ca(2+) keratinocytes coupled to form desmosomes and gold particles were sandwiched in the desmosomal core domain after Ca(2+) switch, even though their surfaces were covered with PV IgG/antihuman IgG 5-nm gold particles. In the tracing experiments, although PV IgG demonstrated a dotted-linear distribution along the cell-cell contacts colocalized with desmoplakin (DPK) after a 30-min tracing, it disappeared from cell-cell contacts after a 5-h tracing, leaving DPK and desmocollin 3.
These results suggest that the PV IgG/Dsg3 immune complexes are excluded from the desmosomal core domain rather than directly splitting the desmosome.
寻常型天疱疮(PV)的特征是自身抗体针对桥粒芯糖蛋白 3(Dsg)3 或 Dsg1 和 Dsg3,即桥粒黏附分子。
我们研究了 PV IgG 与 Dsg3 的直接结合是否会损害桥粒的黏附。
对于免疫荧光显微镜检查,角质形成细胞首先在低钙(Ca2+)培养基中与 PV IgG 孵育 30 分钟,在此期间不形成桥粒,然后在高钙(Ca2+)培养基中孵育 1 小时以形成桥粒。对于免疫电子显微镜检查,在低钙(Ca2+)培养基中与 PV IgG 孵育 30 分钟后,用 5nm 金颗粒标记的抗人 IgG 孵育 5 分钟;洗涤后,将细胞进一步在高钙(Ca2+)培养基中孵育 1 小时。为了追踪桥粒核心域中形成的 PV IgG/Dsg3 免疫复合物,细胞首先与 PV IgG 孵育 5 分钟,使 PV IgG 结合桥粒核心域,然后用不含 PV IgG 的培养基孵育不同时间。
免疫荧光显微镜显示,在低钙(Ca2+)培养基中以随机点状模式结合在细胞表面的 PV IgG 易位到形成点状-线性分布的细胞-细胞接触处,表明即使存在 PV IgG 也能形成桥粒。免疫电子显微镜显示,在低钙(Ca2+)角质形成细胞中用金颗粒标记的半桥粒样结构形成桥粒并相互连接,并且在 Ca2+转换后金颗粒被夹在桥粒核心域中,尽管它们的表面覆盖有 PV IgG/抗人 IgG 5nm 金颗粒。在追踪实验中,尽管在 30 分钟的追踪后,PV IgG 沿细胞-细胞接触点呈点状-线性分布并与桥粒斑蛋白(DPK)共定位,但在 5 小时的追踪后,PV IgG 从细胞-细胞接触点消失,留下 DPK 和桥粒胶蛋白 3。
这些结果表明,PV IgG/Dsg3 免疫复合物被排除在桥粒核心域之外,而不是直接分裂桥粒。
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