Hoyland J A, Mee A P, Baird P, Braidman I P, Mawer E B, Freemont A J
Department of Osteoarticular Pathology, University of Manchester, UK.
Bone. 1997 Feb;20(2):87-92. doi: 10.1016/s8756-3282(96)00346-8.
Falling estrogen levels affect the female skeleton profoundly. Following menopause, estrogen lack is a major cause of osteoporosis. The site of estrogen action in human bone, however, is unclear, but responsive cells must express the estrogen receptor (ER). One obstacle to localizing these cells is that mRNA for ER is expressed in low copy number. Hence, conventional molecular techniques are either too insensitive to detect receptor transcripts (in situ hybridization) or necessitate amplification of RNA extracted from tissue [Northern analysis and polymerase chain reaction (PCR)], thus failing to identify the specific target cells within the mixed-cell population of bone. In situ PCR (IS-PCR) is a technique that combines the sensitivity of PCR with the localization of conventional in situ hybridization. The technique has previously been used primarily to detect single-copy genes and viral DNA within cells. More recently, incorporation of a reverse-transcriptase reaction (IS-RT-PCR) has allowed the technique to be used to identify rare mRNAs within tissues. We have therefore applied the technique of IS-RT-PCR to localize ER mRNA first in human breast tumors, a known positive tissue, and then in bone. Using conventional riboprobe in situ hybridization, ER transcripts were not detectable in any bone cells within sections taken from normal bone and several actively remodeling bone tissues, namely, Paget's disease, renal hyperparathyroidism, and healing fracture callus. The technique of IS-RT-PCR, however, allowed amplification of transcripts to a detectable level. Following two cycles of amplification, hybridization signal was observed in osteoblasts and to a lower level in osteoclasts and occasional osteocytes. This positive signal was more obvious after five cycles, particularly in osteoclasts and osteocytes. After ten cycles, although signal was increased in osteoclasts and osteocytes, it appeared to be decreased in osteoblasts, suggesting that overamplification leads to loss of target complex from these cells. We conclude that several cell types in human bone express ER mRNA in vivo.
雌激素水平下降对女性骨骼有深远影响。绝经后,雌激素缺乏是骨质疏松症的主要原因。然而,雌激素在人体骨骼中的作用部位尚不清楚,但反应性细胞必须表达雌激素受体(ER)。定位这些细胞的一个障碍是ER的mRNA以低拷贝数表达。因此,传统的分子技术要么对检测受体转录本过于不敏感(原位杂交),要么需要对从组织中提取的RNA进行扩增[Northern分析和聚合酶链反应(PCR)],从而无法在骨骼的混合细胞群体中识别特定的靶细胞。原位PCR(IS-PCR)是一种将PCR的敏感性与传统原位杂交的定位相结合的技术。该技术以前主要用于检测细胞内的单拷贝基因和病毒DNA。最近,加入逆转录酶反应(IS-RT-PCR)使该技术可用于识别组织内的稀有mRNA。因此,我们应用IS-RT-PCR技术首先在已知为阳性组织的人乳腺肿瘤中定位ER mRNA,然后在骨骼中定位。使用传统的核糖探针原位杂交,在取自正常骨骼和几种活跃重塑的骨组织(即佩吉特病、肾性甲状旁腺功能亢进和愈合骨折骨痂)的切片中的任何骨细胞中均未检测到ER转录本。然而,IS-RT-PCR技术使转录本扩增到可检测水平。经过两轮扩增后,在成骨细胞中观察到杂交信号,在破骨细胞和偶尔的骨细胞中信号较低。经过五轮扩增后,这种阳性信号更加明显,尤其是在破骨细胞和骨细胞中。经过十轮扩增后,虽然破骨细胞和骨细胞中的信号增加,但成骨细胞中的信号似乎减少,这表明过度扩增导致这些细胞中靶复合物的丢失。我们得出结论,人体骨骼中的几种细胞类型在体内表达ER mRNA。
