Vass K, Hickey W F, Schmidt R E, Lassmann H
Neurological Institute, University of Vienna, Austria.
Lab Invest. 1993 Sep;69(3):275-82.
Currently available studies on the peripheral nervous system (PNS) give little information on the presence, distribution, turnover and function of bone marrow-derived cells such as monocytes, macrophages, and dendritic cells. To address such issues, the present investigation of PNS tissues from bone marrow transplanted chimeras was performed.
Inbred DA rats were lethally irradiated and transplanted with (Lewis x DA)F1 bone marrow carrying the non-DA major histocompatibility antigens from Lewis rats. The anti-RT-1A antibody (anti-Lewis MHC class I), I1-69, and the macrophage markers, Ed2 and Ox42 were used to visualize immunohistochemically donor bone marrow-derived cells and resident macrophages of sensory and autonomic ganglia as well as in peripheral nerves.
In the ganglia, up to 80% and within peripheral nerves, up to 60% of macrophages were replaced by donor cells within 3 months of established chimerism. Ultrastructurally these cells were located: (a) between the perineurial sheaths, (b) in a perivascular position, or (c) freely dispersed within the endoneurium but outside the basal lamina of Schwann cells and ganglion cells. On the rare occasions where myelin and axonal pathology was noted, or during central chromatolysis of ganglion cells, donor marrow-derived cells became positioned under the basal lamina and incorporated tissue debris.
These data suggest a rapid and significant turnover of bone marrow-derived cells within the PNS. Our observations are relevant to the understanding of the pathogenesis of reactive, immunologic, and HIV-associated processes within the PNS.
目前关于外周神经系统(PNS)的研究,对于诸如单核细胞、巨噬细胞和树突状细胞等骨髓源性细胞的存在、分布、更新及功能提供的信息很少。为解决这些问题,我们对骨髓移植嵌合体的PNS组织进行了本项研究。
对近交系DA大鼠进行致死性照射,然后移植携带来自Lewis大鼠的非DA主要组织相容性抗原的(Lewis×DA)F1骨髓。使用抗RT-1A抗体(抗Lewis MHC I类)、I1-69以及巨噬细胞标志物Ed2和Ox42,通过免疫组织化学方法观察供体骨髓源性细胞以及感觉和自主神经节以及周围神经中的常驻巨噬细胞。
在嵌合体形成3个月内,神经节中高达80%的巨噬细胞以及周围神经中高达60%的巨噬细胞被供体细胞取代。在超微结构上,这些细胞位于:(a)神经束膜之间,(b)血管周围位置,或(c)自由分散于神经内膜内,但在施万细胞和神经节细胞的基膜之外。在罕见的观察到髓鞘和轴突病变的情况下,或在神经节细胞中央性染色质溶解期间,供体骨髓源性细胞位于基膜下方并吞噬组织碎片。
这些数据表明PNS内骨髓源性细胞有快速且显著的更新。我们的观察结果有助于理解PNS内反应性、免疫性和HIV相关过程的发病机制。
