Your search keyword '"Konstanti, Prokopis"' showing total 14 results

1. Faecal microbiota composition and impulsivity in a cohort of older adults with metabolic syndrome

Author

Konstanti, Prokopis, Gómez-Martínez, Carlos, Muralidharan, Jananee, Vioque, Jesús, Corella, Dolores, Fitó, Montserrat, Vidal, Josep, Tinahones, Francisco J., Torres-Collado, Laura, Coltell, Oscar, Castañer, Olga, Moreno-Indias, Isabel, Atzeni, Alessandro, Ruiz-Canela, Miguel, Salas-Salvadó, Jordi, and Belzer, Clara

Published

2024

2. Technical challenges regarding the use of formalin-fixed paraffin embedded (FFPE) tissue specimens for the detection of bacterial alterations in colorectal cancer

Author

Lam, Suk Yee, Ioannou, Athanasia, Konstanti, Prokopis, Visseren, Thijmen, Doukas, Michail, Peppelenbosch, Maikel Petrus, Belzer, Clara, and Fuhler, Gwenny Manel

Published

2021

3. Combined dietary supplementation of long chain inulin and Lactobacillus acidophilus W37 supports oral vaccination efficacy against Salmonella Typhimurium in piglets

Author

Lépine, Alexia F. P., Konstanti, Prokopis, Borewicz, Klaudyna, Resink, Jan-Willem, de Wit, Nicole J., Vos, Paul de, Smidt, Hauke, and Mes, Jurriaan J.

Published

2019

4. Physiology of γ-aminobutyric acid production by Akkermansia muciniphila.

Author

Konstanti, Prokopis, Ligthart, Kate, Fryganas, Christos, Constantinos, Patinios, Smidt, Hauke, de Vos, Willem M., and Belzer, Clara

Subjects

*GLUTAMATE decarboxylase, *CENTRAL nervous system, *GLUTAMINE, *GABA, *PHYSIOLOGY

Abstract

Gut bacteria hold the potential to produce a broad range of metabolites that can modulate human functions, including molecules with neuroactive potential. One such molecule is γ-aminobutyric acid (GABA), the main inhibitory neurotransmitter of the central nervous system in animals. Metagenomic analyses suggest that the genomes of many gut bacteria encode glutamate decarboxylase (GAD), the enzyme that catalyzes GABA production. The genome of Akkermansia muciniphila, a mucin specialist and potential next-generation probiotic from the human gut, is predicted to encode GAD, suggesting a contributing role in GABA production in the human gut. In this study, A. muciniphila was grown in batch cultures with and without pH control. In both experiments, A. muciniphila was found to produce GABA as a response to acid (pH <5.5), although only when GABA precursors, either glutamate or glutamine, were present in the medium. Proteomic analysis comparing A. muciniphila grown with and without precursors at pH 4 did not show a difference in GAD expression, suggesting that it is expressed regardless of the presence of GABA precursors. To further investigate the function of A. muciniphila GAD, we heterologously expressed the gad gene (encoded by locus tag Amuc_0372) with a His tag in Escherichia coli and purified the GAD protein. Enzyme assays showed GAD activity in a pH range between 4 and 6, with the highest specific activity at pH 5 of 144 ± 16 µM GABA/min/mg. Overall, our results demonstrate the ability of A. muciniphila to produce GABA as an acid response and unravel the conditions under which GABA production in A. muciniphila occurs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Carbohydrate quality, fecal microbiota and cardiometabolic health in older adults: a cohort study.

Author

Atzeni, Alessandro, Nishi, Stephanie K., Babio, Nancy, Belzer, Clara, Konstanti, Prokopis, Vioque, Jesús, Corella, Dolores, Castañer, Olga, Vidal, Josep, Moreno-Indias, Isabel, Torres-Collado, Laura, Asensio, Eva M., Fitó, Montserrat, Gomez-Perez, Ana Maria, Arias, Alejandro, Ruiz-Canela, Miguel, Hu, Frank B., Tinahones, Francisco J., and Salas-Salvadó, Jordi

Published

2023

6. Non-invasive continuous real-time in vivo analysis of microbial hydrogen production shows adaptation to fermentable carbohydrates in mice

Author

Fernández-Calleja, José M. S., Konstanti, Prokopis, Swarts, Hans J. M., Bouwman, Lianne M. S., Garcia-Campayo, Vicenta, Billecke, Nils, Oosting, Annemarie, Smidt, Hauke, Keijer, Jaap, and van Schothorst, Evert M.

Published

2018

7. The Effect of Nutritional Intervention with Lactoferrin, Galactooligosacharides and Vitamin D on the Gut Microbiota Composition of Healthy Elderly Women.

Author

Konstanti, Prokopis, van Splunter, Marloes, van den Brink, Erik, Belzer, Clara, Nauta, Arjen, van Neerven, R. J. Joost, and Smidt, Hauke

Abstract

Background: Nutritional supplements, such as bovine lactoferrin (bLF), have been studied for their immunomodulatory properties, but little is known of their effect on the gut microbiota composition of the elderly when supplemented alone or combined with other nutritional supplements such as prebiotics and micronutrients. In the present study, fecal samples from a double-blind, placebo-controlled nutritional intervention study were analysed. At baseline (T1), 25 elderly women were distributed into two groups receiving dietary intervention (n = 12) or placebo treatment (n = 13) for 9 weeks. During the first 3 weeks of the study (T2), the intervention group consumed 1 g/day bLF, followed by 3 weeks (T3) of 1 g/day bLF and 2.64 g/day active galactooligosaccharides (GOS), and 3 weeks (T4) of 1 g/day bLF, 2.64 g/day GOS and 20 μg/day of vitamin D. The placebo group received maltodextrin, in dosages matching those of the intervention group. Fecal bacterial composition was profiled using partial 16S rRNA gene amplicon sequencing. Short-chain fatty acids (SCFA) were determined in fecal water as were levels of calprotectin, zonulin, and alpha-1-antitrypsin, as markers of gastrointestinal barrier and inflammation. Results: A significant increase was observed in the relative abundance of the genus Holdemanella (p < 0.01) in the intervention group compared to the placebo at T1. During T2, Bifidobacterium relative abundance increased significantly (p < 0.01) in the intervention group compared to the placebo, and remained significantly higher until the end of the study. No other effect was reported during T3. Furthermore, concentrations of SCFAs and calprotectin, zonulin and alpha-1-antitrypsin did not change during the intervention, although zonulin levels increased significantly within the placebo group by the end of the intervention. Conclusions: We conclude that supplementation of bLF enhanced the relative abundance of Holdemanella in the fecal microbiota of healthy elderly women, and further addition of GOS enhanced the relative abundance of Bifidobacterium. [ABSTRACT FROM AUTHOR]

Published

2022

8. Eight‐week exercise training in humans with obesity: Marked improvements in insulin sensitivity and modest changes in gut microbiome.

Author

Verheggen, Rebecca J. H. M., Konstanti, Prokopis, Smidt, Hauke, Hermus, Ad R. M. M., Thijssen, Dick H. J., and Hopman, Maria T. E.

Subjects

INSULIN sensitivity, OBESITY, AEROBIC capacity, GUT microbiome, BODY composition, EXERCISE therapy

Abstract

Objective: Obesity is associated with impaired gut microbiota diversity, which has been linked to the development of type 2 diabetes. This study aims to examine the effects of an 8‐week aerobic exercise intervention on insulin sensitivity, visceral adiposity, and gut microbiota diversity and composition in participants with obesity. Methods: Fourteen participants (mean [SD], age 51 [11] years; BMI 34.9 [4.9] kg/m2) performed an 8‐week exercise intervention (2 to 4 times/week on 65% to 85% of heart rate reserve). Insulin sensitivity (hyperinsulemic euglycemic clamp), cardiorespiratory fitness (maximal oxygen uptake), visceral adiposity (dual‐energy X‐ray absorptiometry scan) and gut microbiota composition (16S rRNA gene sequencing) were measured before and after the intervention. Results: Insulin sensitivity showed a significant increase (pre: 3.8 [1.9] mg/min/kg; post: 4.5 [1.7] mg/min/kg; p = 0.007) after training, whereas visceral adiposity decreased (pre: 959 [361] cm3; post: 897 [364] cm3; p = 0.02). No change in gut microbiota α‐ or β‐diversity was found. At the genus level, the abundance of Ruminococcus gauvreauii (p = 0.02); Lachnospiraceae FCS020 group (p = 0.04), and Anaerostipes (p = 0.04) significantly increased after exercise training. Significant positive correlations were present for M‐value (R. gauvreauii) and VO2 max (R. gauvreauii and Anaerostipes). Conclusions: Eight‐week exercise training in humans with obesity leads to marked improvements in insulin sensitivity and body composition and is accompanied by modest changes in 3 gut microbiome genera, all belonging to the Firmicutes phylum. [ABSTRACT FROM AUTHOR]

Published

2021

9. No interplay between gut microbiota composition and the lipopolysaccharide‐induced innate immune response in humans in vivo.

Author

Habes, Quirine LM, Konstanti, Prokopis, Kiers, Harmke D, Koch, Rebecca M, Stolk, Roeland F, Belzer, Clara, Kox, Matthijs, and Pickkers, Peter

Subjects

*GUT microbiome, *IMMUNE response, *RANDOM forest algorithms, *CRITICALLY ill, *HUMAN beings

Abstract

Objective: Animal studies have demonstrated the extensive interplay between the gut microbiota and immunity. Moreover, in critically ill patients, who almost invariably suffer from a pronounced immune response, a shift in gut microbiota composition is associated with infectious complications and mortality. We examined the relationship between interindividual differences in gut microbiota composition and variation in the in vivo cytokine response induced by bacterial lipopolysaccharide (LPS). Furthermore, we evaluated whether an LPS challenge alters the composition of the gut microbiota. Methods: Healthy male volunteers received an intravenous bolus of 2 ng kg−1 LPS (n = 70) or placebo (n = 8). Serial plasma concentrations of tumor necrosis factor‐α, interleukin (IL)‐6, IL‐8 and IL‐10 were measured, and subjects were divided into high and low cytokine responders. Gut microbiota composition was determined using 16s RNA gene sequencing of faecal samples obtained 1 day before (baseline) and 1 day and 7 days following the LPS challenge. Results: Baseline microbiota composition, analysed by principal coordinate analysis and random forest analysis, did not differ between high and low responders for any of the four measured cytokines. Furthermore, baseline microbiota diversity (Shannon and Chao indices) was similar in high and low responders. No changes in microbiota composition or diversity were observed at 1 and 7 days following the LPS challenge. Conclusion: Our results indicate that existing variation in gut microbiota composition does not explain the observed variability in the LPS‐induced innate immune response. These findings strongly argue against the interplay between the gut microbiota composition and the innate immune response in humans. [ABSTRACT FROM AUTHOR]

Published

2021

10. Associations between phenotypic characteristics and clinical parameters of broilers and intestinal microbial development throughout a production cycle: A field study.

Author

Kers, Jannigje G., Oliveira, Jean E., Fischer, Egil A. J., Tersteeg‐Zijderveld, Monique H. G., Konstanti, Prokopis, Stegeman, Jan Arend (Arjan), Smidt, Hauke, and Velkers, Francisca C.

Published

2020

11. Donor Fecal Microbiota Transplantation Alters Gut Microbiota and Metabolites in Obese Individuals With Steatohepatitis.

Author

Witjes, Julia J., Smits, Loek P., Pekmez, Ceyda T., Prodan, Andrei, Meijnikman, Abraham S., Troelstra, Marian A., Bouter, Kristien E.C., Herrema, Hilde, Levin, Evgeni, Holleboom, Adriaan G., Winkelmeijer, Maaike, Beuers, Ulrich H., Lienden, Krijn, Aron‐Wisnewky, Judith, Mannisto, Ville, Bergman, Jacques J., Runge, Jurgen H., Nederveen, Aart J., Dragsted, Lars O., and Konstanti, Prokopis

Subjects

FECAL microbiota transplantation, METABOLITES, FATTY liver

Abstract

The intestinal microbiota has been linked to the development and prevalence of steatohepatitis in humans. Interestingly, steatohepatitis is significantly lower in individuals taking a plant‐based, low‐animal‐protein diet, which is thought to be mediated by gut microbiota. However, data on causality between these observations in humans is scarce. In this regard, fecal microbiota transplantation (FMT) using healthy donors is safe and is capable of changing microbial composition in human disease. We therefore performed a double‐blind randomized controlled proof‐of‐principle study in which individuals with hepatic steatosis on ultrasound were randomized to two study arms: lean vegan donor (allogenic n = 10) or own (autologous n = 11) FMT. Both were performed three times at 8‐week intervals. A liver biopsy was performed at baseline and after 24 weeks in every subject to determine histopathology (Nonalcoholic Steatohepatitis Clinical Research Network) classification and changes in hepatic gene expression based on RNA sequencing. Secondary outcome parameters were changes in intestinal microbiota composition and fasting plasma metabolomics. We observed a trend toward improved necro‐inflammatory histology, and found significant changes in expression of hepatic genes involved in inflammation and lipid metabolism following allogenic FMT. Intestinal microbial community structure changed following allogenic FMT, which was associated with changes in plasma metabolites as well as markers of. Conclusion: Allogenic FMT using lean vegan donors in individuals with hepatic steatosis shows an effect on intestinal microbiota composition, which is associated with beneficial changes in plasma metabolites and markers of steatohepatitis. [ABSTRACT FROM AUTHOR]

Published

2020

12. Association between duration of intravenous antibiotic administration and early-life microbiota development in late-preterm infants.

Author

Zwittink, Romy D, Renes, Ingrid B, van Lingen, Richard A, van Zoeren-Grobben, Diny, Konstanti, Prokopis, Norbruis, Obbe F, Martin, Rocio, Groot Jebbink, Liesbeth J M, Knol, Jan, and Belzer, Clara

Subjects

PREMATURE infant diseases, PREMATURE infant disease prevention, POLYMERASE chain reaction, BIFIDOBACTERIUM, GUT microbiome, THERAPEUTICS

Abstract

Antibiotic treatment is common practice in the neonatal ward for the prevention and treatment of sepsis, which is one of the leading causes of mortality and morbidity in preterm infants. Although the effect of antibiotic treatment on microbiota development is well recognised, little attention has been paid to treatment duration. We studied the effect of short and long intravenous antibiotic administration on intestinal microbiota development in preterm infants. Faecal samples from 15 preterm infants (35 ± 1 weeks gestation and 2871 ± 260 g birth weight) exposed to no, short (≤ 3 days) or long (≥ 5 days) treatment with amoxicillin/ceftazidime were collected during the first six postnatal weeks. Microbiota composition was determined through 16S rRNA gene sequencing and by quantitative polymerase chain reaction (qPCR). Short and long antibiotic treat ment significantly lowered the abundance of Bifidobacterium right after treatment (p = 0.027) till postnatal week three (p = 0.028). Long treatment caused Bifidobacterium abundance to remain decreased till postnatal week six (p = 0.009). Antibiotic treatment was effective against members of the Enterobacteriaceae family, but allowed Enterococcus to thrive and remain dominant for up to two weeks after antibiotic treatment discontinuation. Community richness and diversity were not affected by antibiotic treatment, but were positively associated with postnatal age (p < 0.023) and with abundance of Bifidobacterium (p = 0.003). Intravenous antibiotic administration during the first postnatal week greatly affects the infant’s gastrointestinal microbiota. However, quick antibiotic treatment cessation allows for its recovery. Disturbances in microbiota development caused by short and, more extensively, by long antibiotic treatment could affect healthy development of the infant via interference with maturation of the immune system and gastrointestinal tract. [ABSTRACT FROM AUTHOR]

Published

2018

13. Investigating the Gut Microbiota Composition of Individuals with Attention-Deficit/Hyperactivity Disorder and Association with Symptoms.

Author

Szopinska-Tokov, Joanna, Dam, Sarita, Naaijen, Jilly, Konstanti, Prokopis, Rommelse, Nanda, Belzer, Clara, Buitelaar, Jan, Franke, Barbara, Aarts, Esther, and Arias Vasquez, Alejandro

Subjects

GUT microbiome, ATTENTION-deficit hyperactivity disorder, BODY mass index, RIBOSOMAL RNA

Abstract

Attention-deficit/hyperactivity disorder (ADHD) is a common neurodevelopmental disorder. Given the growing evidence of gut microbiota being involved in psychiatric (including neurodevelopmental) disorders, we aimed to identify differences in gut microbiota composition between participants with ADHD and controls and to investigate the role of the microbiota in inattention and hyperactivity/impulsivity. Fecal samples were collected from 107 participants (NADHD = 42; Ncontrols = 50; NsubthreholdADHD = 15; range age: 13–29 years). The relative quantification of bacterial taxa was done using 16S ribosomal RNA gene amplicon sequencing. Beta-diversity revealed significant differences in bacterial composition between participants with ADHD and healthy controls, which was also significant for inattention, but showing a trend in case of hyperactivity/impulsivity only. Ten genera showed nominal differences (p < 0.05) between both groups, of which seven genera were tested for their association with ADHD symptom scores (adjusting for age, sex, body mass index, time delay between feces collection and symptoms assessment, medication use, and family relatedness). Our results show that variation of a genus from the Ruminococcaceae family (Ruminococcaceae_UCG_004) is associated (after multiple testing correction) with inattention symptoms and support the potential role of gut microbiota in ADHD pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2020

14. Toll-Like Receptor-Dependent Immunomodulatory Activity of Pycnogenol®.

Author

Verlaet, Annelies, van der Bolt, Nieke, Meijer, Ben, Breynaert, Annelies, Naessens, Tania, Konstanti, Prokopis, Smidt, Hauke, Hermans, Nina, Savelkoul, Huub F.J., and Teodorowicz, Malgorzata

Abstract

Background: Pycnogenol® (PYC), an extract of French maritime pine bark, is widely used as a dietary supplement. PYC has been shown to exert anti-inflammatory actions via inhibiting the Toll-like receptor 4 (TLR4) pathway. However, the role of the other receptors from the TLR family in the immunomodulatory activity of PYC has not been described so far. Aim: The aim of this study was to investigate whether PYC might exert its immunomodulatory properties through cell membrane TLRs (TLR1/2, TLR5, and TLR2/6) other than TLR4. Moreover, the effect of gastrointestinal metabolism on the immunomodulatory effects of PYC was investigated. Findings: We showed that intact non-metabolized PYC dose-dependently acts as an agonist of TLR1/2 and TLR2/6 and as a partial agonist of TLR5. PYC on its own does not agonize or antagonize TLR4. However, after the formation of complexes with lipopolysaccharides (LPS), it is a potent activator of TLR4 signaling. Gastrointestinal metabolism of PYC revealed the immunosuppressive potential of the retentate fraction against TLR1/2 and TLR2/6 when compared to the control fraction containing microbiota and enzymes only. The dialyzed fraction containing PYC metabolites revealed the capacity to induce anti-inflammatory IL-10 secretion. Finally, microbially metabolized PYC affected the colonic microbiota composition during in vitro gastrointestinal digestion. Conclusions: This study showed that gastrointestinal metabolism of PYC reveals its biological activity as a potential inhibitor of TLRs signaling. The results suggest that metabolized PYC acts as a partial agonist of TLR1/2 and TLR2/6 in the presence of the microbiota-derived TLR agonists (retentate fraction) and that it possesses anti-inflammatory potential reflected by the induction of IL-10 from THP-1 macrophages (dialysate fraction). [ABSTRACT FROM AUTHOR]

Published

2019