Your search keyword '"Savolainen, Otto"' showing total 9 results

1. Correlates of Plasma Citrulline, a Potential Marker of Enterocyte Mass, among Children with Stunting: A Cross-Sectional Study in Uganda

Author

Pesu, Hannah, Mbabazi, Joseph, Mutumba, Rolland, Savolainen, Otto, Olsen, Mette F, Mølgaard, Christian, Michaelsen, Kim F, Ritz, Christian, Filteau, Suzanne, Briend, André, Mupere, Ezekiel, Friis, Henrik, and Grenov, Benedikte

Published

2024

2. Exposure of Colon-Derived Epithelial Monolayers to Fecal Luminal Factors from Patients with Colon Cancer and Ulcerative Colitis Results in Distinct Gene Expression Patterns.

Author

Magnusson, Maria K., Bas Forsberg, Anna, Verveda, Alexandra, Sapnara, Maria, Lorent, Julie, Savolainen, Otto, Wettergren, Yvonne, Strid, Hans, Simrén, Magnus, and Öhman, Lena

Subjects

INFLAMMATORY bowel diseases, INTESTINAL mucosa, ULCERATIVE colitis, COLON cancer, INTESTINAL diseases

Abstract

Microbiota and luminal components may affect epithelial integrity and thus participate in the pathophysiology of colon cancer (CC) and inflammatory bowel disease (IBD). Therefore, we aimed to determine the effects of fecal luminal factors derived from patients with CC and ulcerative colitis (UC) on the colonic epithelium using a standardized colon-derived two-dimensional epithelial monolayer. The complex primary human stem cell-derived intestinal epithelium model, termed RepliGut® Planar, was expanded and passaged in a two-dimensional culture which underwent stimulation for 48 h with fecal supernatants (FS) from CC patients (n = 6), UC patients with active disease (n = 6), and healthy subjects (HS) (n = 6). mRNA sequencing of monolayers was performed and cytokine secretion in the basolateral cell culture compartment was measured. The addition of fecal supernatants did not impair the integrity of the colon-derived epithelial monolayer. However, monolayers stimulated with fecal supernatants from CC patients and UC patients presented distinct gene expression patterns. Comparing UC vs. CC, 29 genes were downregulated and 33 genes were upregulated, for CC vs. HS, 17 genes were downregulated and five genes were upregulated, and for UC vs. HS, three genes were downregulated and one gene was upregulated. The addition of FS increased secretion of IL8 with no difference between the study groups. Fecal luminal factors from CC patients and UC patients induce distinct colonic epithelial gene expression patterns, potentially reflecting the disease pathophysiology. The culture of colonic epithelial monolayers with fecal supernatants derived from patients may facilitate the exploration of IBD- and CC-related intestinal microenvironmental and barrier interactions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Probing erythrocytes as sensitive and reliable sensors of metabolic disturbances in the crosstalk between childhood obesity and insulin resistance: findings from an observational study, in vivo challenge tests, and ex vivo incubation assays.

Author

González-Domínguez, Álvaro, Savolainen, Otto, Domínguez-Riscart, Jesús, Landberg, Rikard, Lechuga-Sancho, Alfonso, and González-Domínguez, Raúl

Subjects

*METABOLIC disorders, *CHILDHOOD obesity, *AMINO acid metabolism, *GLUCOSE tolerance tests, *INSULIN resistance

Abstract

Background: Although insulin resistance (IR) is among the most frequent and pathogenically relevant complications accompanying childhood obesity, its role in modulating and exacerbating obesity pathophysiology has not yet been completely clarified. Methods: To get deeper insights into the interplay between childhood obesity and IR, we leveraged a comprehensive experimental design based on a combination of observational data, in vivo challenge tests (i.e., oral glucose tolerance test), and ex vivo assays (i.e., incubation of erythrocytes with insulin) using a population comprising children with obesity and IR, children with obesity without IR, and healthy controls, from whom plasma and erythrocyte samples were collected for subsequent metabolomics analysis. Results: Children with concomitant IR showed exacerbated metabolic disturbances in the crosstalk between endogenous, microbial, and environmental determinants, including failures in energy homeostasis, amino acid metabolism, oxidative stress, synthesis of steroid hormones and bile acids, membrane lipid composition, as well as differences in exposome-related metabolites associated with diet, exposure to endocrine disruptors, and gut microbiota. Furthermore, challenge tests and ex vivo assays revealed a deleterious impact of IR on individuals' metabolic flexibility, as reflected in blunted capacity to regulate homeostasis in response to hyperinsulinemia, at both systemic and erythroid levels. Conclusions: Thus, we have demonstrated for the first time that metabolite alterations in erythrocytes represent reliable and sensitive biomarkers to disentangle the metabolic complexity of IR and childhood obesity. This study emphasizes the crucial need of addressing inter-individual variability factors, such as the presence of comorbidities, to obtain a more accurate understanding of obesity-related molecular mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

4. Dietary biomarkers—an update on their validity and applicability in epidemiological studies.

Author

Landberg, Rikard, Karra, Prasoona, Hoobler, Rachel, Loftfield, Erikka, Huybrechts, Inge, Rattner, Jodi I, Noerman, Stefania, Claeys, Liesel, Neveu, Vanessa, Vidkjaer, Nanna Hjort, Savolainen, Otto, Playdon, Mary C, and Scalbert, Augustin

Subjects

FRUIT, PREDICTIVE tests, SEAFOOD, FOOD consumption, COFFEE, NUTRITIONAL assessment, RESEARCH evaluation, RESEARCH methodology evaluation, DAIRY products, GRAIN, MEAT, FISHES, FOOD, DOSE-response relationship in biochemistry, TEA, RESEARCH methodology, FATS & oils, VEGETABLES, WESTERN diet, ALCOHOLS (Chemical class), BIOMARKERS, EPIDEMIOLOGICAL research, LEGUMES, RELIABILITY (Personality trait)

Abstract

The aim of this literature review was to identify and provide a summary update on the validity and applicability of the most promising dietary biomarkers reflecting the intake of important foods in the Western diet for application in epidemiological studies. Many dietary biomarker candidates, reflecting intake of common foods and their specific constituents, have been discovered from intervention and observational studies in humans, but few have been validated. The literature search was targeted for biomarker candidates previously reported to reflect intakes of specific food groups or components that are of major importance in health and disease. Their validity was evaluated according to 8 predefined validation criteria and adapted to epidemiological studies; we summarized the findings and listed the most promising food intake biomarkers based on the evaluation. Biomarker candidates for alcohol, cereals, coffee, dairy, fats and oils, fruits, legumes, meat, seafood, sugar, tea, and vegetables were identified. Top candidates for all categories are specific to certain foods, have defined parent compounds, and their concentrations are unaffected by nonfood determinants. The correlations of candidate dietary biomarkers with habitual food intake were moderate to strong and their reproducibility over time ranged from low to high. For many biomarker candidates, critical information regarding dose response, correlation with habitual food intake, and reproducibility over time is yet unknown. The nutritional epidemiology field will benefit from the development of novel methods to combine single biomarkers to generate biomarker panels in combination with self-reported data. The most promising dietary biomarker candidates that reflect commonly consumed foods and food components for application in epidemiological studies were identified, and research required for their full validation was summarized. [ABSTRACT FROM AUTHOR]

Published

2024

5. Identifying metabotypes of insulin resistance severity in children with metabolic syndrome.

Author

González-Domínguez, Álvaro, Domínguez-Riscart, Jesús, Savolainen, Otto, Lechuga-Sancho, Alfonso, Landberg, Rikard, and González-Domínguez, Raúl

Subjects

INSULIN resistance, DIETARY patterns, METABOLIC syndrome, GLUCOSE tolerance tests, METABOLIC disorders

Abstract

Background: Insulin resistance is a frequent precursor of typical obesity and metabolic syndrome complications. However, accurate diagnosis remains elusive because of its pathophysiological complexity and heterogeneity. Herein, we have explored the utility of insulin secretion dynamics in response to an oral glucose tolerance test as a surrogate marker to identify distinct metabotypes of disease severity. Methods: The study population consisted of children with obesity and insulin resistance, stratified according to the post-challenge insulin peak timing (i.e., early, middle, and late peak), from whom fasting and postprandial plasma and erythrocytes were collected for metabolomics analysis. Results: Children with late insulin peak manifested worse cardiometabolic health (i.e., higher blood pressure, glycemia, and HOMA-IR scores) than early responders. These subjects also showed more pronounced changes in metabolites mirroring failures in energy homeostasis, oxidative stress, metabolism of cholesterol and phospholipids, and adherence to unhealthy dietary habits. Furthermore, delayed insulin peak was associated with impaired metabolic flexibility, as reflected in compromised capacity to regulate mitochondrial energy pathways and the antioxidant defense in response to glucose overload. Conclusions: Altogether, these findings suggest that insulin resistance could encompass several phenotypic subtypes characterized by graded disturbances in distinctive metabolic derangements occurring in childhood obesity, which serve as severity predictive markers. [ABSTRACT FROM AUTHOR]

Published

2024

6. AutonoMS: Automated Ion Mobility Metabolomic Fingerprinting

Author

Reder, Gabriel K., primary, Bjurström, Erik Y., additional, Brunnsåker, Daniel, additional, Kronström, Filip, additional, Lasin, Praphapan, additional, Tiukova, Ievgeniia, additional, Savolainen, Otto I., additional, Dodds, James N., additional, May, Jody C., additional, Wikswo, John P., additional, McLean, John A., additional, and King, Ross D., additional

Published

2024

7. Temporal stability of fecal metabolomic profiles in irritable bowel syndrome

Author

Iribarren, Cristina, primary, Savolainen, Otto, additional, Sapnara, Maria, additional, Törnblom, Hans, additional, Simrén, Magnus, additional, Magnusson, Maria K., additional, and Öhman, Lena, additional

Published

2024

8. Fecal Supernatants from Patients with Crohn's Disease Induce Inflammatory Alterations in M2 Macrophages and Fibroblasts.

Author

Gorreja, Frida, Bendix, Mia, Rush, Stephen T. A., Maasfeh, Lujain, Savolainen, Otto, Dige, Anders, Agnholt, Jorgen, Öhman, Lena, and Magnusson, Maria K.

Subjects

CROHN'S disease, FIBROBLASTS, MACROPHAGES, EXTRACELLULAR matrix, GENE expression

Abstract

Intestinal macrophages and fibroblasts act as microenvironmental sentinels mediating inflammation and disease progression in Crohn's disease (CD). We aimed to establish the effects of fecal supernatants (FSs) from patients with CD on macrophage and fibroblast phenotype and function. FS were obtained by ultracentrifugation, and the metabolites were analyzed. Monocyte-derived M2 macrophages and fibroblasts were conditioned with FS, and secreted proteins, surface proteins and gene expression were analyzed. M2 macrophage efferocytosis was evaluated. Patients with CD (n = 15) had a skewed fecal metabolite profile compared to healthy subjects (HS, n = 10). FS from CD patients (CD-FS) induced an anti-inflammatory response in M2 macrophages with higher expression of IL-10, IL1RA and CD206 as compared to healthy FS (HS-FS) while the efferocytotic capacity was unaltered. CD-FS did not affect extracellular matrix production from fibroblasts, but increased expression of the pro-inflammatory proteins IL-6 and MCP-1. Conditioned media from M2 macrophages treated with CD-FS modulated gene expression in fibroblasts for TGFβ superfamily members and reduced IL-4 expression compared to HS-FS. We show that M2 macrophages and fibroblasts react abnormally to the fecal microenvironment of CD patients, resulting in altered protein expression related to inflammation but not fibrosis. This implies that the gut microbiota and its metabolites have an important role in the generation and/or perpetuation of inflammation in CD. [ABSTRACT FROM AUTHOR]

Published

2024

9. De novo production of protoberberine and benzophenanthridine alkaloids through metabolic engineering of yeast.

Author

Jiao X, Fu X, Li Q, Bu J, Liu X, Savolainen O, Huang L, Guo J, Nielsen J, and Chen Y

Subjects

Alkaloids metabolism, Alkaloids biosynthesis, Berberine metabolism, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae genetics, Benzophenanthridines metabolism, Benzophenanthridines biosynthesis, Metabolic Engineering methods, Berberine Alkaloids metabolism

Abstract

Protoberberine alkaloids and benzophenanthridine alkaloids (BZDAs) are subgroups of benzylisoquinoline alkaloids (BIAs), which represent a diverse class of plant-specialized natural metabolites with many pharmacological properties. Microbial biosynthesis has been allowed for accessibility and scalable production of high-value BIAs. Here, we engineer Saccharomyces cerevisiae to de novo produce a series of protoberberines and BZDAs, including palmatine, berberine, chelerythrine, sanguinarine and chelirubine. An ER compartmentalization strategy is developed to improve vacuole protein berberine bridge enzyme (BBE) activity, resulting in >200% increase on the production of the key intermediate (S)-scoulerine. Another promiscuous vacuole protein dihydrobenzophenanthridine oxidase (DBOX) has been identified to catalyze two-electron oxidation on various tetrahydroprotoberberines at N7-C8 position and dihydrobenzophenanthridine alkaloids. Furthermore, cytosolically expressed DBOX can alleviate the limitation on BBE. This study highlights the potential of microbial cell factories for the biosynthesis of a diverse group of BIAs through engineering of heterologous plant enzymes., (© 2024. The Author(s).)

Published

2024