Publications by authors named "Riekelt H Houtkooper"

Complex lipids, essential components in biological processes, exhibit conserved age-related changes that alter membrane properties and cellular functions and are implicated as biomarkers and contributors to longevity and age-related diseases. While physical activity alleviates age-related comorbidities and physical impairments, comprehensive exploration of the underlying biological mechanisms, particularly at the level of complex lipids, remains limited. However, clinical studies suggest that physical activity may counteract these age-related lipidomic changes, presenting a promising avenue for intervention.

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Here, we present a NAD/NADH detection assay for evaluating NAD, NADH, and NAD/NADH ratio across diverse biological models, including Caenorhabditis elegans, mouse muscle tissue, mouse whole blood, and human whole blood. We describe steps for sample collection and preparation from different models as well as detection and calculation of NAD and NADH levels. This protocol is applicable for quantifying cellular/tissue NAD and NADH levels across different biological models.

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NADH and NAD act as electron donors and acceptors and NAD was shown to stimulate mitochondrial biogenesis and metabolic health. We here develop a non-invasive Phosphorous Magnetic Resonance Spectroscopy (P-MRS) method to quantify these metabolites in human skeletal muscle on a clinical 3 T MRI scanner. This new MR-sequence enables NADH and NAD+ quantification by suppressing α-ATP signal, normally overlapping with NADH and NAD.

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Article Synopsis
  • Stimulation of mammalian cells with inflammatory inducers, like lipopolysaccharide (LPS), alters cellular metabolic pathways, particularly affecting enzymes in the tricarboxylic acid (TCA) cycle, which is crucial for releasing pro-inflammatory cytokines.
  • The study found that patients with certain genetic variants affecting fatty acid oxidation exhibited inadequate inflammatory responses to LPS due to issues with TLR4 expression and signaling.
  • The findings suggest that genes involved in fatty acid metabolism are essential not just for energy production but also for proper immune responses, shedding light on disease mechanisms in conditions like long-chain fatty acid oxidation disorders (lcFAODs).
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Lifespan is influenced by complex interactions between genetic and environmental factors. Studying those factors in model organisms of a single genetic background limits their translational value for humans. Here, we mapped lifespan determinants in 85 C.

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Patients with inherited disorders of the long-chain fatty acid oxidation (lcFAO) machinery present with a heterogeneous profile of disease manifestations and aggravation of symptoms is often triggered by inflammatory activation. Monocytes and macrophages are innate immune cells that play a major role in the onset and resolution of inflammation. These cells undergo metabolic rewiring upon activation including the regulation of the FAO rate.

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Background & Aims: Recent findings reveal the importance of tryptophan-initiated de novo nicotinamide adenine dinucleotide (NAD) synthesis in the liver, a process previously considered secondary to biosynthesis from nicotinamide. The enzyme α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase (ACMSD), primarily expressed in the liver and kidney, acts as a modulator of de novo NAD synthesis. Boosting NAD levels has previously demonstrated remarkable metabolic benefits in mouse models.

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  • - Gyrate atrophy of the choroid and retina (GACR) is a genetic disorder linked to mutations in the OAT gene, leading to severe vision loss and high ornithine levels due to impaired enzyme function.
  • - The study identified 14 pathogenic variants in the OAT gene, with a specific mutation (p.(Gly353Asp)) found in all Dutch patients, which was shown to result in enzyme dysfunction and prevent effective pyridoxine treatment.
  • - Researchers developed a new diagnostic approach that includes enzymatic analysis of OAT and pyridoxine response tests to improve understanding of GACR and aid in managing patient expectations regarding treatment outcomes.
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  • Hypertrophic cardiomyopathy (HCM) is a heart condition caused by gene mutations in about half of the patients, while the other half don't have these mutations.
  • Researchers studied heart tissue from patients to understand how energy use and fat processing changes in both groups of HCM patients.
  • They found different metabolic changes between the two groups that affect how the disease progresses in the heart.
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  • Gyrate atrophy of the choroid and retina (GACR) is a genetic disorder that causes progressive eye degeneration and significant vision loss, highlighting the importance of understanding its clinical characteristics for future treatments.
  • A study of 19 patients showed an early onset of eye symptoms, with many requiring cataract surgery by their late twenties, and demonstrated a link between early dietary protein restriction and improved outcomes in some cases.
  • The findings stress the severe nature of GACR, including complications like severe myopia and cystoid maculopathy, underlining the need for early diagnosis to facilitate timely interventions and improve patient quality of life.
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  • * The study focused on low-dose naltrexone (LDN), which has shown potential to extend healthspan and lifespan, particularly through SKN-1 signaling that impacts immune response and oxidative stress.
  • * With low side effects, LDN could serve as a geroprotector, highlighting the need for further research to promote healthy aging in humans.
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Lipids play pivotal roles in an extensive range of metabolic and physiological processes. In recent years, the convergence of trapped ion mobility spectrometry and MS has enabled 4D-lipidomics, a highly promising technology for comprehensive lipid analysis. 4D-lipidomics assesses lipid annotations across four distinct dimensions-retention time, collisional cross section, m/z (mass-to-charge ratio), and MS/MS spectra-providing a heightened level of confidence in lipid annotation.

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Barth syndrome (BTHS) is a rare disorder caused by mutations in the TAFAZZIN gene. Previous studies from both patients and model systems have established metabolic dysregulation as a core component of BTHS pathology. In particular, features such as lactic acidosis, pyruvate dehydrogenase (PDH) deficiency, and aberrant fatty acid and glucose oxidation have been identified.

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Studies in preclinical models suggest that complex lipids, such as phospholipids, play a role in the regulation of longevity. However, identification of universally conserved complex lipid changes that occur during aging, and how these respond to interventions, is lacking. Here, to comprehensively map how complex lipids change during aging, we profiled ten tissues in young versus aged mice using a lipidomics platform.

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Carnitine derivatives of disease-specific acyl-CoAs are the diagnostic hallmark for long-chain fatty acid β-oxidation disorders (lcFAOD), including carnitine shuttle deficiencies, very-long-chain acyl-CoA dehydrogenase deficiency (VLCADD), long-chain 3-hydroxyacyl-CoA dehydrogenase deficiency (LCHADD) and mitochondrial trifunctional protein deficiency (MPTD). The exact consequence of accumulating lcFAO-intermediates and their influence on cellular lipid homeostasis is, however, still unknown. To investigate the fate and cellular effects of the accumulating lcFAO-intermediates and to explore the presence of disease-specific markers, we used tracer-based lipidomics with deuterium-labeled oleic acid (D9-C18:1) in lcFAOD patient-derived fibroblasts.

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Barth syndrome (BTHS) is a rare disorder caused by mutations in the gene. Previous studies from both patients and model systems have established metabolic dysregulation as a core component of BTHS pathology. In particular, features such as lactic acidosis, pyruvate dehydrogenase (PDH) deficiency, and aberrant fatty acid and glucose oxidation have been identified.

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Lifespan is influenced by complex interactions between genetic and environmental factors. Studying those factors in model organisms of a single genetic background limits their translational value for humans. Here, we mapped lifespan determinants in 85 genetically diverse recombinant intercross advanced inbred lines (RIAILs).

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The antibiotic doxycycline is known to inhibit inflammation and was therefore considered as a therapeutic to prevent abdominal aortic aneurysm (AAA) growth. Yet mitochondrial dysfunction is a key-characteristic of clinical AAA disease. We hypothesize that doxycycline impairs mitochondrial function in the aorta and aortic smooth muscle cells (SMCs).

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Aging increases the risk of age-related diseases, imposing substantial healthcare and personal costs. Targeting fundamental aging mechanisms pharmacologically can promote healthy aging and reduce this disease susceptibility. In this work, we employed transcriptome-based drug screening to identify compounds emulating transcriptional signatures of long-lived genetic interventions.

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Since its discovery in 1958 in the lens of cows, ophthalmic acid (OPH) has stood in the shadow of its anti-oxidant analog: glutathione (GSH). Lacking the thiol group that gives GSH many of its important properties, ophthalmic acid's function has remained elusive, and it has been widely presumed to be an accidental product of the same enzymes. In this review, we compile evidence demonstrating that OPH is a ubiquitous metabolite found in bacteria, plants, fungi, and animals, produced through several layers of metabolic regulation.

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In the April issue of this Journal, Boffa and coworkers put forward a new therapeutic approach for Gyrate Atrophy of the Choroid and Retina (GACR; OMIM 258870) (Boffa et al, 2023). The authors propose to apply gene therapy to the liver for GACR, a metabolic disease primarily affecting eyesight due to retinal degeneration. Their vision is enthusiastically supported by a News and Views comment in the same issue (Seker Yilmaz and Gissen, 2023).

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Background: Alterations in platelet function have been implicated in the pathophysiology of COVID-19 since the beginning of the pandemic. While early reports linked hyperactivated platelets to thromboembolic events in COVID-19, subsequent investigations demonstrated hyporeactive platelets with a procoagulant phenotype. Mitochondria are important for energy metabolism and the function of platelets.

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