Biomarkers for respiratory diseases: Present applications and future discoveries

Liu, Xiaojing; Cui, Bo; Wang, Qian; Li, Li; Chen, Zhi Hong

doi:10.1002/ctd2.11

Cited by 6 publications

(3 citation statements)

References 113 publications

(216 reference statements)

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“…COPD is a highly heterogeneous disease characterised by systemic and local metabolic alterations compared to other lung diseases 16,24,29,30 . Metabolomics and lipidomics are increasingly employed to investigate the pathogenesis of COPD, unravel the complexity of chronic lung diseases, and discover disease‐specific biomarkers of prognosis and subtyping COPD patients 31–33 . Metabolic disorders were correlated with the severity of lung dysfunction in acute exacerbation of COPD patients, of which perturbations of alanine, aspartate, and glutamate in airway epithelial cells were modelled as the critical pathway in experimental chronic lung inflammation and injury 34 .…”

Section: Discussionmentioning

confidence: 99%

“… 16 , 24 , 29 , 30 Metabolomics and lipidomics are increasingly employed to investigate the pathogenesis of COPD, unravel the complexity of chronic lung diseases, and discover disease‐specific biomarkers of prognosis and subtyping COPD patients. 31 , 32 , 33 Metabolic disorders were correlated with the severity of lung dysfunction in acute exacerbation of COPD patients, of which perturbations of alanine, aspartate, and glutamate in airway epithelial cells were modelled as the critical pathway in experimental chronic lung inflammation and injury. 34 Our data showed smoking per se altered the metabolic pathways of alanine, aspartate, and glutamate in airway epithelial cells.…”

Section: Discussionmentioning

confidence: 99%

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Roles of glutamic pyruvate transaminase 2 in reprogramming of airway epithelial lipidomic and metabolomic profiles after smoking

Yan,

Zhang,

Duan

et al. 2024

Clinical & Translational Med

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Metabolic abnormalities represent one of the pathological features of chronic obstructive pulmonary disease (COPD). Glutamic pyruvate transaminase 2 (GPT2) is involved in glutamate metabolism and lipid synthesis pathways, whilst the exact roles of GPT2 in the occurrence and development of COPD remains uncertain. This study aims at investigating how GPT2 and the associated genes modulate smoking‐induced airway epithelial metabolism and damage by reprogramming lipid synthesis. The circulating or human airway epithelial metabolomic and lipidomic profiles of COPD patients or cell‐lines explored with smoking were assessed to elucidate the pivotal roles of GPT2 in reprogramming processes. We found that GPT2 regulate the reprogramming of lipid metabolisms caused by smoking, especially phosphatidylcholine (PC) and triacylglycerol (TAG), along with changes in the expression of lipid metabolism‐associated genes. GPT2 modulated cell sensitivities and survival in response to smoking by enhancing mitochondrial functions and maintaining lipid and energy homeostasis. Our findings provide evidence for the involvement of GPT2 in the reprogramming of airway epithelial lipids following smoking, as well as the molecular mechanisms underlying GPT2‐mediated regulation, which may offer an alternative of therapeutic strategies for chronic lung diseases.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Roles of glutamic pyruvate transaminase 2 in reprogramming of airway epithelial lipidomic and metabolomic profiles after smoking

Yan,

Zhang,

Duan

et al. 2024

Clinical & Translational Med

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“…Induced sputum has been widely acknowledged to be a noninvasive and repeatable sampling method to evaluate the patterns of inflammatory cells and the concentrations of various inflammatory mediators, which would assess local airway inflammation more accurately. [25][26][27] The aim of this study was to determine whether different inflammatory biomarkers are associated with lung function and inflammatory phenotypes in COPD patients and which inflammatory biomarkers play a vital role. Based on previous studies, we measured the expression of several inflammatory biomarkers in the induced sputum of COPD patients.…”

Section: Introductionmentioning

confidence: 99%

CC16 as an Inflammatory Biomarker in Induced Sputum Reflects Chronic Obstructive Pulmonary Disease (COPD) Severity

Chen¹,

Xu²,

He³

et al. 2023

COPD

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The progression of an abnormal inflammatory response plays a crucial role in the lung function decline of chronic obstructive pulmonary disease (COPD) patients. Compared to serum biomarkers, inflammatory biomarkers in induced sputum would be a more reliable reflection of inflammatory processes in the airways. Patients and Methods: A total of 102 COPD participants were divided into a mild-to-moderate group (FEV1%pred≥ 50%, n=57) and a severe-to-very-severe group (FEV1%pred<50%, n=45). We measured a series of inflammatory biomarkers in induced sputum and analyzed their association with lung function and SGRQ in COPD patients. To evaluate the relationship between inflammatory biomarkers and the inflammatory phenotype, we also analyzed the correlation between biomarkers and airway eosinophilic phenotype. Results: We found increased mRNA levels of MMP9, LTB4R, and A1AR and decreased levels of CC16 mRNA in induced sputum in the severe-to-very-severe group. After adjustment for age, sex and other biomarkers, CC16 mRNA expression was positively associated with FEV1%pred (r=0.516, p=0.004) and negatively correlated with SGRQ scores (r=−0.3538, p=0.043). As previously known, decreased CC16 was related to the migration and aggregation of eosinophils in airway. It was also found that CC16 had a moderate negative correlation with the eosinophilic inflammation in airway (r=−0.363, p=0.045) in our COPD patients. Conclusion: Low CC16 mRNA expression levels in induced sputum were associated with low FEV1%pred and a high SGRQ score in COPD patients. Sputum CC16 as a potential biomarker for predicting COPD severity in clinical practice might attribute to the involvement of CC16 in airway eosinophilic inflammation.

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Introduction to Pulmonary Diseases and OMICS Approaches

Saha,

Majumdar,

Bhattacharyya

2023

Pulmonomics: Omics Approaches for Understanding Pulmonary Diseases

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Biomarkers for respiratory diseases: Present applications and future discoveries

Cited by 6 publications

References 113 publications

Roles of glutamic pyruvate transaminase 2 in reprogramming of airway epithelial lipidomic and metabolomic profiles after smoking

Roles of glutamic pyruvate transaminase 2 in reprogramming of airway epithelial lipidomic and metabolomic profiles after smoking

CC16 as an Inflammatory Biomarker in Induced Sputum Reflects Chronic Obstructive Pulmonary Disease (COPD) Severity

Introduction to Pulmonary Diseases and OMICS Approaches

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