Lipidomic Profiling of Plasma and Erythrocytes From Septic Patients Reveals Potential Biomarker Candidates

Mecatti, Giovana Colozza; Messias, Márcia Cristina Fernandes; Paiola, Rafaela Maria Sant'Anna; Angolini, Célio Fernando Figueiredo; Cunha, Inara Pereira da; Eberlin, Marcos N.; Carvalho, Patrícia de Oliveira

doi:10.1177/1177271918765137

Cited by 30 publications

(52 citation statements)

References 52 publications

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“…The perturbed lipid metabolism including reduced lysophospholipids (LPLs) metabolism, increased PCs metabolism, elevated FFAs metabolism, and decreased sphingolipids metabolism as reflective of systemic changes resulted from inflammatory response and oxidative stress in sepsis (Sevastou et al, 2013). Our results were consistent with previous studies (Mecatti et al, 2018). Decreased LysoPCs might enhance the production of lysophosphatidic acids (Tokumura, 2002), which induced an immune response by activating various immune cells (Gräler and Goetzl, 2002).…”

Section: Lipid Metabolismsupporting

confidence: 89%

Metabolomic Insights Into the Synergistic Effect of Biapenem in Combination With Xuebijing Injection Against Sepsis

Liu

Shi

et al. 2020

Front. Pharmacol.

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The drug combination of biapenem (BIPM) and xuebijing injection (XBJ) is commonly applied for the treatment of sepsis in China. However, the potential synergistic mechanism is still enigmatic. There have been no studies focused on the plasma metabolome alterations in sepsis after the intervention of this combination. In this work, an untargeted metabolomics approach was performed by liquid chromatography-mass spectrometry coupled with multivariate statistical analysis to provide new insights into the synergistic effect of BIPM in combination with XBJ. We characterized the metabolic phenotype of sepsis and described metabolic footprint changes in septic rats responding to XBJ and BIPM individually and in combination, in addition to histopathological and survival evaluation. A total of 91 potential biomarkers of sepsis were identified and 32 disturbed metabolic pathways were constructed. Among these biomarkers, 36 metabolites were reversely regulated by XBJ, mainly including glycerophospholipids, sphingolipids, free fatty acids (FFAs), bile acids and acylcarnitines; 42 metabolites were regulated by BIPM, mainly including amino acids, glycerophospholipids, and acylcarnitines; 72 metabolites were regulated after XBJ-BIPM combination treatment, including most of the 91 potential biomarkers. The results showed that the interaction between XBJ and BIPM indeed exhibited a synergistic effect by affecting some key endogenous metabolites, 15 metabolites of which could not be regulated when XBJ or BIPM was used alone. Compared with Model group, 13, 22, and 27 metabolic pathways were regulated by XBJ, BIPM, and XBJ-BIPM combination, respectively. It suggested that many more endogenous metabolites and metabolic pathways were significantly regulated after combination treatment compared with XBJ or BIPM monotherapy. Metabolisms of lipids, amino acids, acylcarnitines, and bile acids were common pathways involved in the synergistic action of XBJ and BIPM. This study was the first to employ metabolomics to Frontiers in Pharmacology | www.frontiersin.org elucidate the synergistic effect and decipher the underlying mechanisms of BIPM in combination with XBJ against sepsis. The results provide some support for clinical application of antibiotics in combination with traditional Chinese medicines and have important implications for the treatment of sepsis in clinic.

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Section: Lipid Metabolismsupporting

confidence: 89%

Metabolomic Insights Into the Synergistic Effect of Biapenem in Combination With Xuebijing Injection Against Sepsis

Liu

Shi

et al. 2020

Front. Pharmacol.

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“…In concluding this review, we can say that altered lipid profiles, along with the progress of diseases, should provide new insights that will enable a better understanding of the physiopathology of sepsis, contributing new possibilities for effective diagnoses and therapies. The current review deals with the lipid molecules that are upregulated or down-regulated during the early stages of sepsis, as shown in the data presented in the present review and in earlier work of our research group [39]. Based on those aspects, we suggest that replenishing the protective molecules that are down-regulated in sepsis while withdrawing the elevated deleterious factors may lead to the discovery of new therapies for improving survival in septic patients; a goal that has been elusive for decades.…”

Section: Resultsmentioning

confidence: 92%

“…Patients with sepsis present low concentrations of n-6 and n-3 PUFAs and a high n-6/n-3 ratio and that is associated with high mortality [35][36][37][38]. An increase in oleic acid (C18:1 n-9) accompanied by a decrease in the unsaturation index as well as in the levels of n-3 PUFA was observed in erythrocyte phospholipids of septic patients as compared to healthy controls [39]. Arachidonic acid metabolism is also markedly affected in patients with sepsis.…”

Section: Effects Of Infection and Inflammation On Lipid And Lipoprotementioning

confidence: 92%

“…Those results were supported by our group in a clinical study which observed important alterations in lipid metabolism in patients with sepsis, specifically including LPCs and sphingomyelin (SMs). Both LPCs and SMs were downregulated, whereas the saturated and unsaturated PCs were upregulated in the plasma and erythrocytes of septic patients [39]. Previous studies have also demonstrated an increase in circulating phospholipase A2 type II (snp-PLA2) in patients with severe infection [43,44].…”

Section: Effects Of Infection and Inflammation On Lipid And Lipoprotementioning

confidence: 96%

“…A reduced LPS-induced release of AA and the COXassociated AA metabolites, 11-HETE, PGE2, and TXB2 was apparent in septic patients [40]. Also, decreased lysophosphatidylcholine (LPC) levels and increased ceramide (Cer) species rates in plasma are commonly associated with sepsis [37][38][39][40][41]. An investigation of sepsis from peritonitis using a swine model monitored changes in hemodynamic, blood chemistry, and inflammatory markers.…”

Section: Effects Of Infection and Inflammation On Lipid And Lipoprotementioning

confidence: 99%

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Lipidomic profile and candidate biomarkers in septic patients

2020

Self Cite

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Sepsis is a severe disease with a high mortality rate. Identification and treatment in the initial hours of the disease improve outcomes. Some biomarkers like procalcitonin and C-reactive protein are used for diagnosis and to access sepsis prognosis and they can help in clinical decision-making, but none has sufficient specificity or sensitivity to be routinely employed in clinical practice. This review seeks to evaluate lipid metabolism alterations in patients with sepsis and the possibility of using the respective metabolites as biomarkers of the disease. A search of the main electronic biomedical databases was conducted for the 20-year period ending in February 2020, focused on primary research articles on biomarkers in sepsis. The keywords included sepsis, septic shock, biomarker, metabolomic, lipidomic and lysophosphatidylcoline.. It concludes that altered lipid profiles, along with the progress of the disease should provide new insights, enabling a better understanding of the pathogenic mechanisms and making it possible to design new early diagnosis and therapeutic procedures for sepsis.

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Mass spectrometric approaches in discovering lipid biomarkers for COVID‐19 by lipidomics: Future challenges and perspectives

Gowda

Shekhar

Gowda

et al. 2023

Mass Spectrometry Reviews

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Coronavirus disease 2019 (COVID‐19) has emerged as a global health threat and has rapidly spread worldwide. Significant changes in the lipid profile before and after COVID‐19 confirmed the significance of lipid metabolism in regulating the response to viral infection. Therefore, understanding the role of lipid metabolism may facilitate the development of new therapeutics for COVID‐19. Owing to their high sensitivity and accuracy, mass spectrometry (MS)‐based methods are widely used for rapidly identifying and quantifying of thousands of lipid species present in a small amount of sample. To enhance the capabilities of MS for the qualitative and quantitative analysis of lipids, different platforms have been combined to cover a wide range of lipidomes with high sensitivity, specificity, and accuracy. Currently, MS‐based technologies are being established as efficient methods for discovering potential diagnostic biomarkers for COVID‐19 and related diseases. As the lipidome of the host cell is drastically affected by the viral replication process, investigating lipid profile alterations in patients with COVID‐19 and targeting lipid metabolism pathways are considered to be crucial steps in host‐directed drug targeting to develop better therapeutic strategies. This review summarizes various MS‐based strategies that have been developed for lipidomic analyzes and biomarker discoveries to combat COVID‐19 by integrating various other potential approaches using different human samples. Furthermore, this review discusses the challenges in using MS technologies and future perspectives in terms of drug discovery and diagnosis of COVID‐19.

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Lipidomic Profiling of Plasma and Erythrocytes From Septic Patients Reveals Potential Biomarker Candidates

Cited by 30 publications

References 52 publications

Metabolomic Insights Into the Synergistic Effect of Biapenem in Combination With Xuebijing Injection Against Sepsis

Metabolomic Insights Into the Synergistic Effect of Biapenem in Combination With Xuebijing Injection Against Sepsis

Lipidomic profile and candidate biomarkers in septic patients

Mass spectrometric approaches in discovering lipid biomarkers for COVID‐19 by lipidomics: Future challenges and perspectives

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