从针吸活检中分离并鉴定人成骨细胞,无需体外培养。
Isolation and characterization of human osteoblasts from needle biopsies without in vitro culture.
作者信息
Fujita K, Roforth M M, Atkinson E J, Peterson J M, Drake M T, McCready L K, Farr J N, Monroe D G, Khosla S
机构信息
College of Medicine, Mayo Clinic, Rochester, MN, USA.
出版信息
Osteoporos Int. 2014 Mar;25(3):887-95. doi: 10.1007/s00198-013-2529-9. Epub 2013 Oct 11.
SUMMARY
We isolate and characterize osteoblasts from humans without in vitro culture. These techniques should be broadly applicable to studying the pathogenesis of osteoporosis and other bone disorders.
INTRODUCTION
There is currently no data regarding the expression of specific genes or pathways in human osteoblasts that have not been subjected to extensive in vitro culture. Thus, we developed methods to rapidly isolate progressively enriched osteoblast populations from humans and characterized these cells.
METHODS
Needle bone biopsies of the posterior iliac crest were subjected to sequential collagenase digests. The cells from the second digest were stained with an alkaline phosphatase (AP) antibody, and the AP+ cells were isolated using magnetic cell sorting.
RESULTS
Relative to AP- cells, the AP+ cells contained virtually all of the mineralizing cells and were enriched for key osteoblast marker genes. The AP+ cells were further purified by depletion of cells expressing CD45, CD34, or CD31 (AP+/CD45/34/31- cells), which represented a highly enriched human osteoblast population devoid of hematopoietic/endothelial cells. These cells expressed osteoblast marker genes but very low to undetectable levels of SOST. We next used high-throughput RNA sequencing to compare the transcriptome of the AP+/CD45/34/31- cells to human fibroblasts and identified genes and pathways expressed only in human osteoblasts in vivo, but not in fibroblasts, including 448 genes unique to human osteoblasts.
CONCLUSIONS
We provide a detailed characterization of highly enriched human osteoblast populations without in vitro culture. These techniques should be broadly applicable to studying the pathogenesis of osteoporosis and other bone disorders.
摘要
我们在不进行体外培养的情况下分离并鉴定了来自人类的成骨细胞。这些技术应广泛适用于研究骨质疏松症和其他骨疾病的发病机制。
引言
目前尚无关于未经广泛体外培养的人类成骨细胞中特定基因或信号通路表达的数据。因此,我们开发了从人类中快速分离逐渐富集的成骨细胞群体的方法,并对这些细胞进行了鉴定。
方法
对髂后嵴进行针吸骨活检,依次用胶原酶消化。用碱性磷酸酶(AP)抗体对第二次消化后的细胞进行染色,并用磁性细胞分选法分离出AP阳性细胞。
结果
相对于AP阴性细胞,AP阳性细胞几乎包含了所有矿化细胞,并富集了关键的成骨细胞标记基因。通过去除表达CD45、CD34或CD31的细胞(AP+/CD45/34/31-细胞)进一步纯化AP阳性细胞,这些细胞代表了高度富集的不含造血/内皮细胞的人类成骨细胞群体。这些细胞表达成骨细胞标记基因,但SOST的表达水平极低或无法检测到。接下来,我们使用高通量RNA测序比较了AP+/CD45/34/31-细胞与人类成纤维细胞的转录组,鉴定出仅在体内人类成骨细胞中表达而在成纤维细胞中不表达的基因和信号通路,包括448个独特的人类成骨细胞基因。
结论
我们提供了未经体外培养的高度富集的人类成骨细胞群体的详细鉴定。这些技术应广泛适用于研究骨质疏松症和其他骨疾病的发病机制。
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