Refsnes Magne, Hetland Ragna B, Øvrevik Johan, Sundfør Idunn, Schwarze Per E, Låg Marit
Department of Air pollution and Noise, Division of Environmental Medicine, Norwegian Institute of Public Health, PO Box 4404 Nydalen, NO-0403 Oslo, Norway.
Part Fibre Toxicol. 2006 Jun 14;3:10. doi: 10.1186/1743-8977-3-10.
Particles are known to induce both cytokine release (MIP-2, TNF-alpha), a reduction in cell viability and an increased apoptosis in alveolar macrophages. To examine whether these responses are triggered by the same particle determinants, alveolar macrophages were exposed in vitro to mineral particles of different physical-chemical properties.
The crystalline particles of the different stone types mylonite, gabbro, basalt, feldspar, quartz, hornfels and fine grain syenite porphyr (porphyr), with a relatively equal size distribution (< or = 10 microm), but different chemical/mineral composition, all induced low and relatively similar levels of apoptosis. In contrast, mylonite and gabbro induced a marked MIP-2 response compared to the other particles. For particles of smaller size, quartz (< or = 2 microm) seemed to induce a somewhat stronger apoptotic response than even smaller quartz (< or = 0.5 microm) and larger quartz (< or = 10 microm) in relation to surface area, and was more potent than hornfels and porphyr (< or = 2 microm). The reduction in cell viability induced by quartz of the different sizes was roughly similar when adjusted to surface area. With respect to cytokines, the release was more marked after exposure to quartz < or = 0.5 microm than to quartz < or = 2 microm and < or = 10 microm. Furthermore, hornfels (< or = 2 microm) was more potent than the corresponding hornfels (< or = 10 microm) and quartz (< or = 2 microm) to induce cytokine responses. Pre-treatment of hornfels and quartz particles < or = 2 microm with aluminium lactate, to diminish the surface reactivity, did significantly reduce the MIP-2 response to hornfels. In contrast, the apoptotic responses to the particles were not affected.
These results indicate that different determinants of mineral/stone particles are critical for inducing cytokine responses, reduction in cell viability and apoptosis in alveolar macrophages. The data suggest that the particle surface reactivity was critical for cytokine responses, but contributed less to cell death for the types of particles tested. The size-dependent variations, specially in cytokine release, seem not to be explained only by particle surface area.
已知颗粒可诱导细胞因子释放(MIP - 2、TNF -α)、降低细胞活力并增加肺泡巨噬细胞的凋亡。为了研究这些反应是否由相同的颗粒决定因素触发,将肺泡巨噬细胞在体外暴露于具有不同物理化学性质的矿物颗粒。
不同类型岩石(糜棱岩、辉长岩、玄武岩、长石、石英、角岩和细粒正长斑岩(斑岩))的晶体颗粒,具有相对相等的尺寸分布(≤10微米),但化学/矿物组成不同,均诱导了低水平且相对相似的凋亡。相比之下,与其他颗粒相比,糜棱岩和辉长岩诱导了显著的MIP - 2反应。对于较小尺寸的颗粒(≤2微米),石英似乎比表面积更小的石英(≤0.5微米)和更大的石英(≤10微米)诱导了更强的凋亡反应,并且比角岩和斑岩(≤2微米)更有效。当根据表面积进行调整时,不同尺寸的石英诱导的细胞活力降低大致相似。关于细胞因子,暴露于≤0.5微米的石英后释放比暴露于≤2微米和≤10微米的石英更明显。此外,≤2微米的角岩比相应的≤10微米的角岩和≤2微米的石英更能诱导细胞因子反应。用乳酸铝预处理≤2微米的角岩和石英颗粒以降低表面反应性,确实显著降低了对角岩的MIP - 2反应。相比之下,对颗粒的凋亡反应不受影响。
这些结果表明,矿物/岩石颗粒的不同决定因素对于诱导肺泡巨噬细胞中的细胞因子反应、细胞活力降低和凋亡至关重要。数据表明颗粒表面反应性对于细胞因子反应至关重要,但对于所测试的颗粒类型对细胞死亡的贡献较小。尺寸依赖性变化,特别是在细胞因子释放方面,似乎不能仅由颗粒表面积来解释。
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