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成纤维细胞的代谢重编程作为类风湿性关节炎和癌症的治疗靶点:使用计算系统生物学方法解读关键机制

Metabolic Reprogramming of Fibroblasts as Therapeutic Target in Rheumatoid Arthritis and Cancer: Deciphering Key Mechanisms Using Computational Systems Biology Approaches.

作者信息

Aghakhani Sahar, Zerrouk Naouel, Niarakis Anna

机构信息

GenHotel, University of Evry, University of Paris-Saclay, Genopole, 91000 Evry, France.

Lifeware Group, Inria Saclay, 91120 Palaiseau, France.

出版信息

Cancers (Basel). 2020 Dec 24;13(1):35. doi: 10.3390/cancers13010035.

DOI:10.3390/cancers13010035
PMID:33374292
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7795338/
Abstract

Fibroblasts, the most abundant cells in the connective tissue, are key modulators of the extracellular matrix (ECM) composition. These spindle-shaped cells are capable of synthesizing various extracellular matrix proteins and collagen. They also provide the structural framework (stroma) for tissues and play a pivotal role in the wound healing process. While they are maintainers of the ECM turnover and regulate several physiological processes, they can also undergo transformations responding to certain stimuli and display aggressive phenotypes that contribute to disease pathophysiology. In this review, we focus on the metabolic pathways of glucose and highlight metabolic reprogramming as a critical event that contributes to the transition of fibroblasts from quiescent to activated and aggressive cells. We also cover the emerging evidence that allows us to draw parallels between fibroblasts in autoimmune disorders and more specifically in rheumatoid arthritis and cancer. We link the metabolic changes of fibroblasts to the toxic environment created by the disease condition and discuss how targeting of metabolic reprogramming could be employed in the treatment of such diseases. Lastly, we discuss Systems Biology approaches, and more specifically, computational modeling, as a means to elucidate pathogenetic mechanisms and accelerate the identification of novel therapeutic targets.

摘要

成纤维细胞是结缔组织中最丰富的细胞,是细胞外基质(ECM)组成的关键调节因子。这些纺锤形细胞能够合成各种细胞外基质蛋白和胶原蛋白。它们还为组织提供结构框架(基质),并在伤口愈合过程中发挥关键作用。虽然它们是ECM周转的维持者并调节多种生理过程,但它们也可以响应某些刺激而发生转变,并表现出有助于疾病病理生理学的侵袭性表型。在这篇综述中,我们聚焦于葡萄糖的代谢途径,并强调代谢重编程是促成纤维细胞从静止状态转变为活化和侵袭性细胞的关键事件。我们还涵盖了新出现的证据,这些证据使我们能够在自身免疫性疾病中,更具体地说是在类风湿性关节炎和癌症中的成纤维细胞之间进行比较。我们将成纤维细胞的代谢变化与疾病状态所产生的毒性环境联系起来,并讨论如何将代谢重编程的靶向作用应用于此类疾病的治疗。最后,我们讨论系统生物学方法,更具体地说是计算建模,作为阐明发病机制和加速新型治疗靶点识别的一种手段。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73b4/7795338/b20eab44bf32/cancers-13-00035-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73b4/7795338/ba57158ee9ff/cancers-13-00035-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73b4/7795338/b20eab44bf32/cancers-13-00035-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73b4/7795338/ba57158ee9ff/cancers-13-00035-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73b4/7795338/b20eab44bf32/cancers-13-00035-g002.jpg

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Identification of putative master regulators in rheumatoid arthritis synovial fibroblasts using gene expression data and network inference.基于基因表达数据和网络推断鉴定类风湿关节炎滑膜成纤维细胞中的假定主调控因子。
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