Accumulation of prelamin A compromises NF-κB-regulated B-lymphopoiesis in a progeria mouse model.

Longevity & healthspan Pub Date : 2013-01-02 eCollection Date: 2013-01-01 DOI:10.1186/2046-2395-2-1

Baohua Liu, Shuangcheng Zhou, Xinguang Liu, Keyuan Zhou, Fengju Zhang, Zhongjun Zhou

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引用次数: 7

Abstract

Background: Alteration in the immune system is one of the most profound aspects of aging. Progressive changes in the number of B lymphocyte progenitors during aging have been reported but the underlying mechanisms are still elusive. A heterozygous G608G mutation in the LMNA gene leads to a deletion of 50 amino acids in lamin A protein, termed progerin, and is the predominant cause of Hutchinson-Gilford progeria syndrome (HGPS). Lack of Zmpste24, a metalloproteinase responsible for prelamin A processing, leads to progeroid features resembling HGPS. Therefore Zmpste24-deficient mice provide an ideal mouse model to study the impact of lamin A and (premature) aging on the aging-related decline of B lymphopoiesis.

Results: Analysis of bone marrow (BM) nucleated cells revealed a decline of early B cell progenitors in Zmpste24 (-/-) mice. BM transplantation in a congenic strain completely rescued the defects in B lymphopoiesis, indicating that the decline in B cell progenitors in Zmpste24 (-/-) mice is attributable to defective BM microenvironments rather than to cell-intrinsic defects. Further investigation revealed downregulation of a set of important early B lymphopoiesis factors in Zmpste24 (-/-) bone marrow stromal cells (BMSCs), such as Vcam-1, SDF-1α, Flt3L and TSLP, and most of them are under transcriptional control of NF-κB signaling. Though TNFα stimulates IκBα degradation and NF-κB nuclear translocation in Zmpste24 (-/-) BMSCs, NF-κB fails to stimulate IκBα re-expression, which mediates a negative feedback loop of NF-κB signaling in wild-type BMSCs.

Conclusions: Our data demonstrate a cell-extrinsic defect of B cell development in a progeroid mouse model and a critical role for lamin A in the regulation of NF-κB signaling and cytokines that are essential for lymphopoiesis.

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在早衰小鼠模型中，前纤层蛋白A的积累损害NF-κ b调节的b淋巴生成。

背景:免疫系统的改变是衰老最深刻的方面之一。在衰老过程中，B淋巴细胞祖细胞数量的进行性变化已经有报道，但其潜在的机制仍然是难以捉摸的。LMNA基因的杂合子G608G突变导致层状蛋白A蛋白(称为早衰蛋白)中50个氨基酸的缺失，这是导致Hutchinson-Gilford早衰综合征(HGPS)的主要原因。缺乏Zmpste24(一种负责前纤层蛋白a加工的金属蛋白酶)会导致类似HGPS的类早衰症特征。因此，zmpste24缺陷小鼠为研究层粘胶蛋白A和(过早)衰老对衰老相关的B淋巴生成能力下降的影响提供了理想的小鼠模型。结果:骨髓(BM)有核细胞分析显示Zmpste24(-/-)小鼠早期B细胞祖细胞减少。同源品系骨髓移植完全修复了B淋巴生成缺陷，表明Zmpste24(-/-)小鼠B细胞祖细胞的减少是由于骨髓微环境缺陷而非细胞内在缺陷。进一步研究发现，在Zmpste24(-/-)骨髓基质细胞(BMSCs)中，一系列重要的早期B淋巴生成因子如Vcam-1、SDF-1α、Flt3L和TSLP下调，其中大部分受NF-κB信号的转录控制。虽然在Zmpste24(-/-)骨髓间充质干细胞中，tnf - α刺激i -κ b α降解和NF-κ b核易位，但NF-κ b不能刺激i -κ b α的再表达，在野生型骨髓间充质干细胞中介导了NF-κ b信号转导的负反馈循环。结论:我们的数据表明，在类早衰小鼠模型中，B细胞发育存在细胞外源性缺陷，并且层粘连蛋白a在调节NF-κB信号传导和淋巴细胞生成所必需的细胞因子中起关键作用。

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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Longevity & healthspan

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