Annalaura Mastrangelo scite author profile

Summary Production of interleukin-17 (IL-17) and IL-22 by T helper 17 (Th17) cells and group 3 innate lymphoid cells (ILC3s) in response to the gut microbiota ensures maintenance of intestinal barrier function. Here, we examined the mechanisms whereby the immune system detects microbiota in the steady state. A Syk-kinase-coupled signaling pathway in dendritic cells (DCs) was critical for commensal-dependent production of IL-17 and IL-22 by CD4 + T cells. The Syk-coupled C-type lectin receptor Mincle detected mucosal-resident commensals in the Peyer’s patches (PPs), triggered IL-6 and IL-23p19 expression, and thereby regulated function of intestinal Th17- and IL-17-secreting ILCs. Mice deficient in Mincle or with selective depletion of Syk in CD11c + cells had impaired production of intestinal RegIIIγ and IgA and increased systemic translocation of gut microbiota. Consequently, Mincle deficiency led to liver inflammation and deregulated lipid metabolism. Thus, sensing of commensals by Mincle and Syk signaling in CD11c + cells reinforces intestinal immune barrier and promotes host-microbiota mutualism, preventing systemic inflammation.

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Metabolism of tissue macrophages in homeostasis and pathology

Wculek

et al. 2021

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Cellular metabolism orchestrates the intricate use of tissue fuels for catabolism and anabolism to generate cellular energy and structural components. The emerging field of immunometabolism highlights the importance of cellular metabolism for the maintenance and activities of immune cells. Macrophages are embryo- or adult bone marrow-derived leukocytes that are key for healthy tissue homeostasis but can also contribute to pathologies such as metabolic syndrome, atherosclerosis, fibrosis or cancer. Macrophage metabolism has largely been studied in vitro. However, different organs contain diverse macrophage populations that specialize in distinct and often tissue-specific functions. This context specificity creates diverging metabolic challenges for tissue macrophage populations to fulfill their homeostatic roles in their particular microenvironment and conditions their response in pathological conditions. Here, we outline current knowledge on the metabolic requirements and adaptations of macrophages located in tissues during homeostasis and selected diseases.

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From sample treatment to biomarker discovery: A tutorial for untargeted metabolomics based on GC-(EI)-Q-MS

Mastrangelo

Ferrarini

Rey-Stolle

et al. 2015

Analytica Chimica Acta

139

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Altered Metabolic and Stemness Capacity of Adipose Tissue-Derived Stem Cells from Obese Mouse and Human

et al. 2015

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Adipose stem cells (ASCs) are an appealing source of cells for therapeutic intervention; however, the environment from which ASCs are isolated may impact their usefulness. Using a range of functional assays, we have evaluated whether ASCs isolated from an obese environment are comparable to cells from non-obese adipose tissue. Results showed that ASCs isolated from obese tissue have a reduced proliferative ability and a loss of viability together with changes in telomerase activity and DNA telomere length, suggesting a decreased self-renewal capacity. Metabolic analysis demonstrated that mitochondrial content and function was impaired in obese-derived ASCs resulting in changes in favored oxidative substrates. These findings highlight the impact of obesity on adult stem properties. Hence, caution should be exercised when considering the source of ASCs for cellular therapies since their therapeutic potential may be impaired.

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Insulin resistance in prepubertal obese children correlates with sex-dependent early onset metabolomic alterations

et al. 2016

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Background:Insulin resistance (IR) is usually the first metabolic alteration diagnosed in obese children and the key risk factor for development of comorbidities. The factors determining whether or not IR develops as a result of excess body mass index (BMI) are still not completely understood.Objectives:This study aimed to elucidate the mechanisms underpinning the predisposition toward hyperinsulinemia-related complications in obese children by using a metabolomic strategy that allows a profound interpretation of metabolic profiles potentially affected by IR.Methods:Serum from 60 prepubertal obese children (30 girls/30 boys, 50% IR and 50% non-IR in each group, but with similar BMIs) were analyzed by using liquid chromatography–mass spectrometry, gas chromatography–mass spectrometry and capillary electrophoresis–mass spectrometry following an untargeted metabolomics approach. Validation was then performed on a group of 100 additional children with the same characteristics.Results:When obese children with and without IR were compared, 47 metabolites out of 818 compounds (P<0.05) obtained after data pre-processing were found to be significantly different. Bile acids exhibit the greatest changes (that is, approximately a 90% increase in IR). The majority of metabolites differing between groups were lysophospholipids (15) and amino acids (17), indicating inflammation and central carbon metabolism as the most altered processes in impaired insulin signaling. Multivariate analysis (OPLS-DA models) showed subtle differences between groups that were magnified when females were analyzed alone.Conclusions:Inflammation and central carbon metabolism, together with the contribution of the gut microbiota, are the most altered processes in obese children with impaired insulin signaling in a sex-specific fashion despite their prepubertal status.

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Oxidative phosphorylation selectively orchestrates tissue macrophage homeostasis

Wculek¹,

Heras-Murillo²,

Mastrangelo³

et al. 2023

Immunity

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Prevention of Trauma/Hemorrhagic Shock‐Induced Lung Apoptosis by IL‐6‐Mediated Activation of Stat3

Moran¹,

Tsimelzon

Mastrangelo³

et al. 2009

Clinical Translational Sci

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Acute lung injury (ALI) occurs in up to 37% of patients following trauma/hemorrhagic shock (T/HS) and, in other settings, is due to alveolar epithelial cell (AEC) apoptosis. To determine if AEC apoptosis is a key contributor to ALI following T/HS and whether or not signal transducer and activator of translation (Stat)3 activation can prevent it, rats were pretreated with a Stat3 inhibitor or placebo and subjected to T/HS or sham protocol and resuscitated without or with interleukin (IL)-6. T/HS induced apoptosis in up to 15% of lung cells, 82% of which were AEC. Apoptosis increased with increasing duration of shock and required resuscitation. IL-6 treatment stimulated lung Stat3 activation and prevented AEC apoptosis. Pretreatment of rats with a Stat3 inhibitor blocked the antiapoptotic effect of IL-6. Mice deficient in Stat3β, a naturally occurring dominant negative isoform of Stat3, were resistant to T/HS-induced lung apoptosis. T/HS altered the expression of 87% of apoptosis-related genes. IL-6 treatment normalized expression of 75% of the genes altered by T/HS; Stat3 inhibition prevented normalization of 65% of the gene whose expression was normalized by IL-6. Thus, T/HS-induced AEC apoptosis, which depended on the duration of hypotension, required resuscitation and was prevented by IL-6-mediated activation of Stat3, which acted to normalize the apoptosis transcriptome.

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Metabolomics as a Tool for Drug Discovery and Personalised Medicine. A Review

Mastrangelo¹,

Armitage²,

Garcı́a³

et al. 2015

CTMC

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Studying the effects of drugs on the metabolome constitutes a huge part of the metabolomics discipline. Whether the approach is associated with drug discovery (altered pathways due to the disease that provide future targets and information into the mechanism of action or resistance, etc.) or pharmacometabolomics (studying the outcome of treatment), there have been many aspiring published articles in this area. With specific experimental design, including fingerprinting analysis with different analytical platforms in a non-targeted way, the approach is advancing towards the discovery of markers for the implication of personalised medicine, while also providing information that could help to improve the efficacy and reduce the side effects associated with a treatment. In this review, the evolution of pharmacometabolomics from other areas of drug efficacy metabolomics studies is explored.

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