CD34 促进卫星细胞运动和进入增殖,以促进有效的骨骼肌再生。
CD34 promotes satellite cell motility and entry into proliferation to facilitate efficient skeletal muscle regeneration.
机构信息
Biomedical Research Centre, University of British Columbia, Vancouver, British Columbia, Canada.
出版信息
Stem Cells. 2011 Dec;29(12):2030-41. doi: 10.1002/stem.759.
Abstract
Expression of the cell surface sialomucin CD34 is common to many adult stem cell types, including muscle satellite cells. However, no clear stem cell or regeneration-related phenotype has ever been reported in mice lacking CD34, and its function on these cells remains poorly understood. Here, we assess the functional role of CD34 on satellite cell-mediated muscle regeneration. We show that Cd34(-/-) mice, which have no obvious developmental phenotype, display a defect in muscle regeneration when challenged with either acute or chronic muscle injury. This regenerative defect is caused by impaired entry into proliferation and delayed myogenic progression. Consistent with the reported antiadhesive function of CD34, knockout satellite cells also show decreased motility along their host myofiber. Altogether, our results identify a role for CD34 in the poorly understood early steps of satellite cell activation and provide the first evidence that beyond being a stem cell marker, CD34 may play an important function in modulating stem cell activity.
摘要
细胞表面唾液酸化粘蛋白 CD34 的表达存在于许多成年干细胞类型中,包括肌肉卫星细胞。然而,在缺乏 CD34 的小鼠中,从未报道过明确的干细胞或与再生相关的表型,其在这些细胞上的功能仍知之甚少。在这里,我们评估了 CD34 对卫星细胞介导的肌肉再生的功能作用。我们发现,没有明显发育表型的 Cd34(-/-) 小鼠在急性或慢性肌肉损伤时表现出肌肉再生缺陷。这种再生缺陷是由于进入增殖和延迟成肌进展受到损害引起的。与 CD34 的报道的抗黏附功能一致,敲除的卫星细胞在其宿主肌纤维上的迁移能力也降低。总之,我们的结果确定了 CD34 在卫星细胞激活的尚未充分了解的早期步骤中的作用,并首次提供了证据表明,除了作为干细胞标记物之外,CD34 可能在调节干细胞活性方面发挥重要作用。
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