Primary myelofibrosis and the "bad seeds in bad soil" concept.

Fibrogenesis & Tissue Repair Pub Date : 2012-06-06 eCollection Date: 2012-01-01 DOI:10.1186/1755-1536-5-S1-S20
Marie-Caroline Le Bousse-Kerdilès
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引用次数: 31

Abstract

Primary Myelofibrosis (PMF) is a chronic myeloproliferative neoplasm characterized by a clonal myeloproliferation and a myelofibrosis. The concomitant presence of neoangiogenesis and osteosclerosis suggests a deregulation of medullar stem cell niches in which hematopoietic stem cells are engaged in a constant crosstalk with their stromal environment. Despite the recently discovered mutations including the JAK2(Val617F) mutation, the primitive molecular event responsible for the clonal hematopoietic proliferation is still unknown. We propose that the "specificity" of the pathological process that caracterizes PMF results from alterations in the cross talk between hematopoietic and stromal cells. These alterations contribute in creating a abnormal microenvironment that participates in the maintenance of the neoplasic clone leading to a misbalance disfavouring normal hematopoiesis; in return or simultaneously, stromal cells constituting the niches are modulated by hematopoietic cells resulting in stroma dysfunctions. Therefore, PMF is a remarkable "model" in which deregulation of the stem cell niche is of utmost importance for the disease development. A better understanding of the crosstalk between stem cells and their niches should imply new therapeutic strategies targeting not only intrinsic defects in stem cells but also regulatory niche-derived signals and, consequently, hematopoietic cell proliferation.

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原发性骨髓纤维化和“坏土里的坏种子”概念。
原发性骨髓纤维化(PMF)是一种以克隆性骨髓增生和骨髓纤维化为特征的慢性骨髓增生性肿瘤。新生血管生成和骨硬化的同时存在表明髓质干细胞龛的失调,造血干细胞在其中与其基质环境进行持续的串扰。尽管最近发现了包括JAK2(Val617F)突变在内的突变,但导致克隆造血增殖的原始分子事件仍然未知。我们认为,PMF病理过程的“特异性”是由造血细胞和基质细胞之间的串扰改变引起的。这些改变有助于创造一个异常的微环境,参与肿瘤克隆的维持,导致不利于正常造血的失衡;作为回报或同时,构成壁龛的基质细胞受到造血细胞的调节,导致基质功能障碍。因此,PMF是一个显著的“模型”,其中干细胞生态位的解除管制对疾病的发展至关重要。更好地理解干细胞和它们的小生境之间的相互作用将意味着新的治疗策略,不仅针对干细胞的内在缺陷,而且针对调节小生境衍生的信号,从而针对造血细胞增殖。
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