There are thousands of lipid species existing in cells, which belong to eight different categories. Lipids are the essential building blocks of cells. Recent studies have started to unveil the important functions of lipids in regulating cell metabolism. However, we are still at a very early stage in fully understanding the physiological and pathological functions of lipids. The application of lipidomics for studying lipid metabolism can provide a direct readout of the cellular status and broadens our understanding of the mechanisms that underpin metabolic disease states. This review provides an introduction to lipid metabolism and its role in modulating homeostasis and immunity. We also describe representative applications of lipidomics for studying lipid metabolism in inflammation-related diseases.
As a key post-translational modification mechanism, protein acetylation plays critical roles in regulating and/or coordinating cell metabolism. Acetylation is a prevalent modification process in enzymes. Protein acetylation modification occurs in sub-stoichiometric amounts; therefore extracting biologically meaningful information from these acetylation sites requires an adaptable, sensitive, specific, and robust method for their quantification. In this work, we combine immunoassays and multiple reaction monitoring-mass spectrometry (MRM-MS) technology to develop an absolute quantification for acetylation modification. With this hybrid method, we quantified the acetylation level of metabolic enzymes, which could demonstrate the regulatory mechanisms of the studied enzymes. The development of this quantitative workflow is a pivotal step for advancing our knowledge and understanding of the regulatory effects of protein acetylation in physiology and pathophysiology.
More evidences show that microRNAs play an important role in the pathogenesis of inflammation and autoimmune diseases including Lichen planus, and are an attractive therapeutic target. MicroRNA family plays an important role in the regulation of gene expression, which involves cell proliferation, apoptosis, growth, differentiation and metabolism, vascularization, immune response and other biological processes. The changes of expression profile and expression level are closely related to the occurrence and development of many diseases, such as tumor, inflammatory disease and autoimmune disease relevant. However, there are few reports on microRNA in the pathogenesis of LP. This review summarizes the research advance of microRNAs (microRNAs -137, microRNAs -125b, microRNAs -138, microRNAs -27b, microRNAs -203) and their downstream proteins in LP.
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