一种由层粘蛋白衍生的多肽 YIGSR 对巨噬细胞表型反应具有浓度依赖性影响

IF 2.3 4区 医学 Q3 BIOPHYSICS
Aakanksha Jha, Erika Moore
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引用次数: 0

摘要

目的巨噬免疫细胞在炎症(M1)和再生(M2)过程中发挥着至关重要的作用。细胞外基质(ECM)的组成,包括嵌入配体的呈现,制约着巨噬细胞的功能。层粘连蛋白在基底膜中含量丰富,并与病理状态有关:炎症时减少,再生时增加。不同的层粘连配体,如 IKVAV 和 YIGSR,在决定细胞功能方面具有不同的作用。例如,源自层粘连蛋白α链的IKVAV促进血管生成和癌细胞转移,而源自β链的YIGSR则阻碍血管生成和肿瘤进展。先前的研究表明,IKVAV 在巨噬细胞中具有抑制炎症的特性。鉴于 IKVAV 和 YIGSR 通过不同的整合素受体与细胞相互作用的不同作用,我们不禁要问:层粘连蛋白衍生肽 YIGSR 在管理巨噬细胞功能方面起着什么作用?我们还通过 Luminex Bead 检测法分析了人和鼠巨噬细胞对 YIGSR 反应的分泌组。浓度较低的 YIGSR 会增加巨噬细胞的炎症反应,而浓度较高的 YIGSR 则会在相同的时间范围内产生相反的影响。分泌组学评估还表明,低浓度 YIGSR 会增加 M0、M1、M2 巨噬细胞中的促炎趋化因子和细胞因子,而高浓度则会减少促炎分泌。YIGSR 对巨噬细胞功能的影响可用于再生医学和癌症治疗领域免疫工程策略的开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

YIGSR, A Laminin-Derived Peptide, Dictates a Concentration-Dependent Impact on Macrophage Phenotype Response

YIGSR, A Laminin-Derived Peptide, Dictates a Concentration-Dependent Impact on Macrophage Phenotype Response

Purpose

Macrophage immune cells play crucial roles in the inflammatory (M1) and regenerative (M2) processes. The extracellular matrix (ECM) composition, including presentation of embedded ligands, governs macrophage function. Laminin concentration is abundant in the basement membrane and is dependent on pathological state: reduced in inflammation and increased during regeneration. Distinct laminin ligands, such as IKVAV and YIGSR, have disparate roles in dictating cell function. For example, IKVAV, derived from the alpha chain of laminin, promotes angiogenesis and metastasis of cancer cells whereas YIGSR, beta chain derived, impedes angiogenesis and tumor progression. Previous work has demonstrated IKVAV’s inflammation inhibiting properties in macrophages. Given the divergent role of IKVAV and YIGSR in interacting with cells through varied integrin receptors, we ask: what role does laminin derived peptide YIGSR play in governing macrophage function?

Methods

We quantified the influence of YIGSR on macrophage phenotype in 2D and 3D via immunostaining assessments for M1 marker inducible nitric oxide synthase (iNOS) and M2 marker Arginase−1 (Arg-1). We also analysed the secretome of human and murine macrophage response to YIGSR via a Luminex bead assay.

Results

YIGSR impact on macrophage phenotype occurs in a concentration-dependent manner. At lower concentrations of YIGSR, macrophage inflammation was increased whereas, at higher concentrations of YIGSR the opposite effect was seen within the same time frame. Secretomic assessments also demonstrate that pro-inflammatory chemokines and cytokines were increased at low YIGSR concentrations in M0, M1, M2 macrophages while pro-inflammatory secretion was reduced at higher concentrations.

Conclusions

YIGSR can be used as a tool to modulate macrophage inflammatory state within M1 and M2 phenotypes depending on the concentration of peptide. YIGSR’s impact on macrophage function can be leveraged for the development of immunoengineering strategies in regenerative medicine and cancer therapy.

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来源期刊
CiteScore
5.60
自引率
3.60%
发文量
30
审稿时长
>12 weeks
期刊介绍: The field of cellular and molecular bioengineering seeks to understand, so that we may ultimately control, the mechanical, chemical, and electrical processes of the cell. A key challenge in improving human health is to understand how cellular behavior arises from molecular-level interactions. CMBE, an official journal of the Biomedical Engineering Society, publishes original research and review papers in the following seven general areas: Molecular: DNA-protein/RNA-protein interactions, protein folding and function, protein-protein and receptor-ligand interactions, lipids, polysaccharides, molecular motors, and the biophysics of macromolecules that function as therapeutics or engineered matrices, for example. Cellular: Studies of how cells sense physicochemical events surrounding and within cells, and how cells transduce these events into biological responses. Specific cell processes of interest include cell growth, differentiation, migration, signal transduction, protein secretion and transport, gene expression and regulation, and cell-matrix interactions. Mechanobiology: The mechanical properties of cells and biomolecules, cellular/molecular force generation and adhesion, the response of cells to their mechanical microenvironment, and mechanotransduction in response to various physical forces such as fluid shear stress. Nanomedicine: The engineering of nanoparticles for advanced drug delivery and molecular imaging applications, with particular focus on the interaction of such particles with living cells. Also, the application of nanostructured materials to control the behavior of cells and biomolecules.
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