Stem Cell Neuroplasticity Research Group, Daegu, Korea.
Stem Cells. 2010 Apr;28(4):821-31. doi: 10.1002/stem.401.
Niemann-Pick type C (NP-C) disease exhibits neuronal sphingolipid storage and cerebellar Purkinje neuron (PN) loss. Although it is clear that PNs are compromised in this disorder, it remains to be defined how neuronal lipid storage causes the PN loss. Our previous studies have shown that bone marrow-derived mesenchymal stem cells (BM-MSCs) transplantation prevent PN loss in NP-C mice. The aim of the present study was therefore to examine the neuroprotective mechanism of BM-MSCs on PNs. We found that NP-C PNs exhibit abnormal sphingolipid metabolism and defective lysosomal calcium store compared to wild-type mice PNs. BM-MSCs promote the survival of NP-C PNs by correction of the altered calcium homeostasis, restoration of the sphingolipid imbalance, as evidenced by increased sphingosine-1-phosphate levels and decreased sphingosine, and ultimately, inhibition of apoptosis pathways. These effects suggest that BM-MSCs modulate sphingolipid metabolism of endogenous NP-C PNs, resulting in their survival and improved clinical outcome in mice.
尼曼-匹克 C 型(NP-C)病表现出神经元神经鞘脂贮积和小脑浦肯野神经元(PN)丧失。虽然很明显,PN 在这种疾病中受到损害,但神经元脂质贮积如何导致 PN 丧失仍有待确定。我们之前的研究表明,骨髓间充质干细胞(BM-MSCs)移植可预防 NP-C 小鼠的 PN 丧失。因此,本研究的目的是研究 BM-MSCs 对 PN 的神经保护机制。我们发现,与野生型小鼠 PN 相比,NP-C PN 表现出异常的神经鞘脂代谢和溶酶体钙库缺陷。BM-MSCs 通过纠正异常的钙稳态、恢复神经鞘脂失衡来促进 NP-C PN 的存活,这表现为增加的 1-磷酸鞘氨醇水平和降低的鞘氨醇,最终抑制凋亡途径。这些作用表明,BM-MSCs 调节内源性 NP-C PN 的神经鞘脂代谢,从而导致其存活,并改善小鼠的临床结局。
