Formation and effects of leukotrienes and lipoxins in human bone marrow.

Journal of lipid mediators Pub Date : 1993-03-01
J A Lindgren, L Stenke, M Mansour, C Edenius, L Laurén, B Näsman-Glaser, I Ericsson, P Reizenstein
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Abstract

The present results demonstrate leukotriene and lipoxin synthesis in human bone marrow and link these findings to biological effects in the same tissue. However, the mechanisms behind the described effects on myeloid progenitor cell growth are presently unknown. It is conceivable that both leukotrienes and lipoxins may act through modulation of endogenous cytokine production. However, it should be noted, that these lipoxygenase products totally failed to induce colony growth in the absence of GM-CSF. Moreover, the role of lipoxins in the bone marrow needs to be further clarified, since LXA4 induced both synergistic (with GM-CSF) and antagonistic (with LTC4) effects on progenitor cell growth. A possible pathophysiological role for leukotrienes and lipoxins may be suggested in chronic myelogenous leukemia. Thus, the capacity of hematological cells from CML patients to synthesize LTC4 was significantly increased. In addition, we have recently reported that CML platelets possessed a markedly decreased ability to participate in transcellular synthesis of the potential inhibitors of myelopoiesis, LXA4 and 5(S),12(S)-diHETE (Stenke et al., 1991b). Moreover, the production of these compounds was totally abolished in platelets obtained from CML patients in blastic crisis. Further studies should aim at defining the mechanisms behind the regulatory actions of leukotrienes and lipoxins in normal and leukemic human myelopoiesis.

白三烯和脂毒素在人骨髓中的形成和作用。
目前的结果表明白三烯和脂素在人骨髓中合成,并将这些发现与同一组织中的生物效应联系起来。然而,所描述的对骨髓祖细胞生长影响的机制目前尚不清楚。可以想象,白三烯和脂毒素都可能通过调节内源性细胞因子的产生而起作用。然而,需要注意的是,在没有GM-CSF的情况下,这些脂氧合酶产物完全不能诱导菌落生长。此外,脂毒素在骨髓中的作用需要进一步阐明,因为LXA4诱导了祖细胞生长的协同(与GM-CSF)和拮抗(与LTC4)作用。白三烯和脂质可能在慢性骨髓性白血病中起病理生理作用。因此,CML患者血液细胞合成LTC4的能力显著增加。此外,我们最近报道,CML血小板参与骨髓生成潜在抑制剂LXA4和5(S),12(S)-二hete的跨细胞合成的能力明显下降(Stenke等,1991b)。此外,这些化合物的产生在从CML患者获得的血小板中完全被消除。进一步的研究应旨在确定白三烯和脂质在正常和白血病人骨髓形成中的调节作用背后的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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