破骨细胞处理钙的新机制:一个假设综述。

M Zaidi, B S Moonga, O A Adebanjo
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引用次数: 34

摘要

破骨细胞是一种具有独特的骨吸收能力的细胞,在此过程中,它会暴露在异常高的毫摩尔钙离子浓度中。人们普遍认为,在吸收过程中,破骨细胞可以“感知”其周围Ca2+浓度的变化。这通过Ca2+释放和Ca2+内流触发细胞质内Ca2+的急剧增加。胞质Ca2+的变化最终被转导为骨吸收的抑制。研究表明,在质膜中独特表达的2型ryanodine受体异构体可作为Ca2+内流通道并可能作为Ca2+传感器。Ryanodine受体通常是Ca2+释放通道,在各种真核细胞(包括破骨细胞)中具有微粒体膜位置。然而,直到最近才发现,ryanodine受体也在破骨细胞核膜中表达,它们可能在核膜上调控核质Ca2+内流。核质Ca2+反过来调节关键的核过程,包括基因表达和细胞凋亡。在这里,我们回顾了破骨细胞中Ca2+的识别、运动和作用的潜在机制。我们还将推测破骨细胞在骨吸收过程中处理高Ca2+负荷所使用的独特过程的一般生物学意义。
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Novel mechanisms of calcium handling by the osteoclast: A review-hypothesis.

The osteoclast is a cell that is unique in its ability to resorb bone and, in doing so, becomes exposed to unusually high millimolar Ca2+ concentrations. It is generally accepted that, during resorption, osteoclasts can "sense" changes in their ambient Ca2+ concentration. This triggers a sharp cytosolic Ca2+ increase through both Ca2+ release and Ca2+ influx. The change in cytosolic Ca2+ is transduced finally into inhibition of bone resorption. It has been shown that a type 2 ryanodine receptor isoform, expressed uniquely in the plasma membrane, functions as a Ca2+ influx channel and possibly as a Ca2+ sensor. Ryanodine receptors are ordinarily Ca2+ release channels that have a microsomal membrane location in a wide variety of eukaryotic cells, including the osteoclasts. However, only recently has it become obvious that ryanodine receptors are also expressed in osteoclast nuclear membranes, at which site they probably gate nucleoplasmic Ca2+ influx. Nucleoplasmic Ca2+ in turn regulates key nuclear processes, including gene expression and apoptosis. Here, we review the potential mechanisms underlying the recognition, movement, and effects of Ca2+ in the osteoclast. We will also speculate on the general biological significance of the unique processes used by the osteoclast to handle high Ca2+ loads during bone resorption.

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