Size exclusion chromatography based proteomic and degradomic profiling of inflammasome-activated, murine bone marrow-derived dendritic cells highlights complex retention and release of cleavage products†

IF 3 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular omics Pub Date : 2024-10-02 DOI:10.1039/D4MO00163J

Daniel Vogele, Svenja Wöhrle, Benedikt S. Saller, Klemens Fröhlich, Bálint András Barta, Miguel Cosenza-Contreras, Olaf Groß and Oliver Schilling

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Abstract

Coupling size exclusion chromatography (SEC) with mass spectrometry-based proteomics enables investigating protein complexes, with degradomic profiling providing deeper insights into complex-associated proteolytic processing and retaining of cleavage products. This study aims to map protein complex formation upon inflammasome activation in bone marrow-derived dendritic cells (BMDCs) from gasdermin D-deficient mice, focusing on proteolytic enzymes and truncated proteins in higher molecular weight complexes. Cultured BMDCs were primed with LPS and subsequently treated with nigericin or Val-boroPro (VbP). SEC-fractionated proteins were TMT-labelled and analyzed via liquid chromatography-tandem mass spectrometry (LC-MS/MS). We identified 6862 proteins and 70 802 peptides, including 14 714 semi-tryptic peptides indicating elevated endogenous proteolytic processing. The sequence motif of numerous cleavage sites maps to caspase-like activity. Inflammasome activation was corroborated by elevated levels of apoptosis-associated speck-like protein containing a CARD (ASC) in higher molecular weight (MW) fractions and increased IL-1β levels in low MW fractions upon nigericin or VbP treatment. The majority of truncated cleavage products remained within their corresponding, higher MW protein complexes while caspase-specific cleavage products of Rho-associated protein kinase 1, gelsolin, and AP-2 complex subunit alpha-2 dissociated to lower MW fractions. SEC profiles identified 174 proteases, with cell surface proteases forming high MW complexes, including ADAMs and DPP4 but not MMP14. VbP treatment led to the accumulation of ISG15 in low MW fractions while RNA polymerase II coactivator p15 shifted to higher MW fractions. This study demonstrates that SEC-coupled proteomics and degradomic profiling offer unique insights into protein complex dynamics and proteolytic processes upon inflammasome activation.

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基于尺寸排阻色谱法的炎症体激活的小鼠骨髓来源树突状细胞蛋白质组学和降解组学分析凸显了裂解产物的复杂保留和释放。

将尺寸排阻色谱法（SEC）与基于质谱的蛋白质组学相结合，可以对蛋白质复合物进行研究，而降解谱分析则能更深入地了解与复合物相关的蛋白水解过程以及裂解产物的保留情况。本研究旨在绘制气敏D缺陷小鼠骨髓树突状细胞（BMDCs）中炎性体激活时蛋白质复合物形成的图谱，重点研究蛋白水解酶和高分子量复合物中的截短蛋白质。用 LPS 诱导培养 BMDCs，然后用尼革酶或 Val-boroPro (VbP) 处理。对 SEC 分馏出的蛋白质进行 TMT 标记，并通过液相色谱-串联质谱（LC-MS/MS）进行分析。我们共鉴定出 6862 个蛋白质和 70 802 个肽段，其中包括 14 714 个半胰蛋白酶肽段，这表明内源性蛋白水解加工程度有所提高。许多裂解位点的序列主题与类宿主蛋白酶的活性相吻合。经尼格列汀或 VbP 处理后，高分子量（MW）馏分中含有 CARD 的凋亡相关斑点样蛋白（ASC）水平升高，低分子量馏分中 IL-1β 水平升高，这证实了炎症小体的激活。大多数截短的裂解产物仍保留在相应的高分子量蛋白复合物中，而Rho相关蛋白激酶1、凝胶溶蛋白和AP-2复合物亚基α-2的Caspase特异性裂解产物则解离到低分子量馏分中。SEC 图谱确定了 174 种蛋白酶，其中细胞表面蛋白酶形成了高分子量复合物，包括 ADAMs 和 DPP4，但不包括 MMP14。VbP 处理导致 ISG15 在低分子量组分中积累，而 RNA 聚合酶 II 辅激活剂 p15 则转移到高分子量组分中。这项研究表明，SEC-耦合蛋白质组学和降解谱分析为了解炎症小体激活时的蛋白质复合物动态和蛋白水解过程提供了独特的见解。

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来源期刊

Molecular omics Biochemistry, Genetics and Molecular Biology-Biochemistry

CiteScore

5.40

自引率

3.40%

发文量

期刊介绍： Molecular Omics publishes high-quality research from across the -omics sciences. Topics include, but are not limited to: -omics studies to gain mechanistic insight into biological processes – for example, determining the mode of action of a drug or the basis of a particular phenotype, such as drought tolerance -omics studies for clinical applications with validation, such as finding biomarkers for diagnostics or potential new drug targets -omics studies looking at the sub-cellular make-up of cells – for example, the subcellular localisation of certain proteins or post-translational modifications or new imaging techniques -studies presenting new methods and tools to support omics studies, including new spectroscopic/chromatographic techniques, chip-based/array technologies and new classification/data analysis techniques. New methods should be proven and demonstrate an advance in the field. Molecular Omics only accepts articles of high importance and interest that provide significant new insight into important chemical or biological problems. This could be fundamental research that significantly increases understanding or research that demonstrates clear functional benefits. Papers reporting new results that could be routinely predicted, do not show a significant improvement over known research, or are of interest only to the specialist in the area are not suitable for publication in Molecular Omics.