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2. Pancreatic cancer organoids recapitulate disease and allow personalized drug screening

Author

Driehuis, Else, van Hoeck, Arne, Moore, Kat, Kolders, Sigrid, Francies, Hayley E., Gulersonmez, M. Can, Stigter, Edwin C. A., Burgering, Boudewijn, Geurts, Veerle, Gracanin, Ana, Bounova, Gergana, Morsink, Folkert H., Vries, Robert, Boj, Sylvia, van Es, Johan, Offerhaus, G. Johan A., Kranenburg, Onno, Garnett, Mathew J., Wessels, Lodewyk, Cuppen, Edwin, Brosens, Lodewijk A. A., and Clevers, Hans

Published
2019

3. Dietary cystine restriction increases the proliferative capacity of the small intestine of mice

Author

de Jong, Judith C. W., primary, van Rooijen, Kristel S., additional, Stigter, Edwin C. A., additional, Gülersönmez, M. Can, additional, de Zoete, Marcel R., additional, Top, Janetta, additional, Baars, Matthijs J. D., additional, Vercoulen, Yvonne, additional, Kuipers, Folkert, additional, van Mil, Saskia W. C., additional, and Ijssennagger, Noortje, additional

Published
2024
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4. The pseudokinase TRIB3 controls adipocyte lipid homeostasis and proliferation in vitro and in vivo

Author

Cancer, CMM Groep Kalkhoven, CMM Groep Burgering, Hernández-Quiles, Miguel, Martinez Campesino, Laura, Morris, Imogen, Ilyas, Zabran, Reynolds, Steve, Soon Tan, Nguan, Sobrevals Alcaraz, Paula, Stigter, Edwin C A, Varga, Ákos, Varga, János, van Es, Robert, Vos, Harmjan, Wilson, Heather L, Kiss-Toth, Endre, Kalkhoven, Eric, Cancer, CMM Groep Kalkhoven, CMM Groep Burgering, Hernández-Quiles, Miguel, Martinez Campesino, Laura, Morris, Imogen, Ilyas, Zabran, Reynolds, Steve, Soon Tan, Nguan, Sobrevals Alcaraz, Paula, Stigter, Edwin C A, Varga, Ákos, Varga, János, van Es, Robert, Vos, Harmjan, Wilson, Heather L, Kiss-Toth, Endre, and Kalkhoven, Eric

Published
2023

5. Issue Cover

Author

de Wit, Koos, primary, Beuers, Ulrich, additional, Mukha, Anna, additional, Stigter, Edwin C. A., additional, Gulersonmez, M. Can, additional, Ramos Pittol, Jose M., additional, Middendorp, Sabine, additional, Takkenberg, R. Bart, additional, and van Mil, Saskia W. C., additional

Published
2023
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7. Rewiring glucose metabolism improves 5-FU efficacy in p53-deficient/KRASG12D glycolytic colorectal tumors

Author

Ludikhuize, Marlies C, Gevers, Sira, Nguyen, Nguyen T B, Meerlo, Maaike, Roudbari, S Khadijeh Shafiei, Gulersonmez, M Can, Stigter, Edwin C A, Drost, Jarno, Clevers, Hans, Burgering, Boudewijn M T, Rodríguez Colman, Maria J, Ludikhuize, Marlies C, Gevers, Sira, Nguyen, Nguyen T B, Meerlo, Maaike, Roudbari, S Khadijeh Shafiei, Gulersonmez, M Can, Stigter, Edwin C A, Drost, Jarno, Clevers, Hans, Burgering, Boudewijn M T, and Rodríguez Colman, Maria J

Abstract

Despite the fact that 5-fluorouracil (5-FU) is the backbone for chemotherapy in colorectal cancer (CRC), the response rates in patients is limited to 50%. The mechanisms underlying 5-FU toxicity are debated, limiting the development of strategies to improve its efficacy. How fundamental aspects of cancer, such as driver mutations and phenotypic heterogeneity, relate to the 5-FU response remains obscure. This largely relies on the limited number of studies performed in pre-clinical models able to recapitulate the key features of CRC. Here, we analyzed the 5-FU response in patient-derived organoids that reproduce the different stages of CRC. We find that 5-FU induces pyrimidine imbalance, which leads to DNA damage and cell death in the actively proliferating cancer cells deficient in p53. Importantly, p53-deficiency leads to cell death due to impaired cell cycle arrest. Moreover, we find that targeting the Warburg effect in KRASG12D glycolytic tumor organoids enhances 5-FU toxicity by further altering the nucleotide pool and, importantly, without affecting non-transformed WT cells. Thus, p53 emerges as an important factor in determining the 5-FU response, and targeting cancer metabolism in combination with replication stress-inducing chemotherapies emerges as a promising strategy for CRC treatment.

Published
2022

8. Rifaximin stimulates nitrogen detoxification by PXR‐independent mechanisms in human small intestinal organoids.

Author

de Wit, Koos, Beuers, Ulrich, Mukha, Anna, Stigter, Edwin C. A., Gulersonmez, M. Can, Ramos Pittol, Jose M., Middendorp, Sabine, Takkenberg, R. Bart, and van Mil, Saskia W. C.

Subjects
RIFAXIMIN, PREGNANE X receptor, AMINO acid metabolism, HEPATIC encephalopathy, ORGANOIDS
Abstract

Background and Aims: Recurrent hepatic encephalopathy (HE) is characterized by hyperammonaemia in combination with neuropsychiatric abnormalities and is treated with lactulose and rifaximin. Rifaximin is a pregnane X receptor (PXR) agonist with low systemic and high intestinal bioavailability. The mechanisms by which it alleviates HE are unclear. We used human small intestinal (hSI) organoids to study whether rifaximin, via PXR activation, affects the epithelial biotransformation machinery, and to gain understanding of its low systemic availability. Methods: We generated PXR knockdown hSI organoids via lentiviral delivery of short hairpin RNAs. Organoids were cultured for 24 h with rifaximin or rifampicin. RNA‐sequencing and metabolomics were performed to analyse gene expression and amino acid metabolism. Luminal rifaximin was quantified by photospectrometry. Results: Treatment of wild‐type hSI organoids with rifaximin resulted in >twofold differential expression of 131 genes compared to DMSO. These effects were largely PXR independent and related to amino acid metabolism. Rifaximin decreased expression of glutaminase‐2 and increased expression of asparagine synthetase and solute carrier 7A11, thereby increasing intracellular glutamine and asparagine concentrations, indicating active ammonia detoxification. Rifaximin was apically excreted into the lumen in an ATP binding cassette B1 (ABCB1)‐dependent manner. Conclusions: Rifaximin—after uptake into enterocytes—stimulates intracellular nitrogen detoxification by PXR‐independent mechanisms. Active apical excretion of rifaximin by ABCB1 into the intestinal lumen explains its low systemic bioavailability. Our study implies that rifaximin, next to modulation of the microbiome, has direct effects on ammonia scavenging in the human small intestinal epithelium. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Rewiring glucose metabolism improves 5-FU efficacy in p53-deficient/KRASG12D glycolytic colorectal tumors.

Author

Ludikhuize, Marlies C., Gevers, Sira, Nguyen, Nguyen T. B., Meerlo, Maaike, Roudbari, S. Khadijeh Shafiei, Gulersonmez, M. Can, Stigter, Edwin C. A., Drost, Jarno, Clevers, Hans, Burgering, Boudewijn M. T., and Rodríguez Colman, Maria J.

Subjects
COLON tumors, GLUCOSE metabolism, FLUOROURACIL, CANCER chemotherapy, GLYCOLYSIS, DNA damage, IRINOTECAN
Abstract

Despite the fact that 5-fluorouracil (5-FU) is the backbone for chemotherapy in colorectal cancer (CRC), the response rates in patients is limited to 50%. The mechanisms underlying 5-FU toxicity are debated, limiting the development of strategies to improve its efficacy. How fundamental aspects of cancer, such as driver mutations and phenotypic heterogeneity, relate to the 5-FU response remains obscure. This largely relies on the limited number of studies performed in pre-clinical models able to recapitulate the key features of CRC. Here, we analyzed the 5-FU response in patient-derived organoids that reproduce the different stages of CRC. We find that 5-FU induces pyrimidine imbalance, which leads to DNA damage and cell death in the actively proliferating cancer cells deficient in p53. Importantly, p53-deficiency leads to cell death due to impaired cell cycle arrest. Moreover, we find that targeting the Warburg effect in KRASG12D glycolytic tumor organoids enhances 5-FU toxicity by further altering the nucleotide pool and, importantly, without affecting non-transformed WT cells. Thus, p53 emerges as an important factor in determining the 5-FU response, and targeting cancer metabolism in combination with replication stress-inducing chemotherapies emerges as a promising strategy for CRC treatment. In p53-deficient colorectal cancer organoids, 5-fluorouracil induces pyrimidine imbalance, which causes DNA damage and cell death. Rewiring glucose metabolism through PDK inhibition by DCA enhances 5-FU toxicity in glycolytic p53-deficient organoids. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Intestinal failure and aberrant lipid metabolism in patients with DGAT1 deficiency

Author

van Rijn, Jorik M, Ardy, Rico Chandra, Kuloğlu, Zarife, Härter, Bettina, van Haaften-Visser, Désirée Y, van der Doef, Hubert P J, van Hoesel, Marliek, Kansu, Aydan, van Vugt, Anke H M, Ng, Marini, Kokke, Freddy T M, Krolo, Ana, Başaran, Meryem Keçeli, Kaya, Neslihan Gurcan, Ünlüsoy Aksu, Aysel, Dalgıç, Buket, Ozcay, Figen, Baris, Zeren, Kain, Renate, Stigter, Edwin C A, Lichtenbelt, Klaske D, Massink, Maarten P G, Duran, Karen J, Verheij, Joke B G M, Lugtenberg, Dorien, Nikkels, Peter G J, Brouwer, Henricus G F, Verkade, Henkjan J, Scheenstra, Rene, Spee, Bart, Nieuwenhuis, Edward E S, Coffer, Paul J, Janecke, Andreas R, van Haaften, Gijs, Houwen, Roderick H J H, Müller, Thomas, Middendorp, Sabine, Boztug, Kaan, van Rijn, Jorik M, Ardy, Rico Chandra, Kuloğlu, Zarife, Härter, Bettina, van Haaften-Visser, Désirée Y, van der Doef, Hubert P J, van Hoesel, Marliek, Kansu, Aydan, van Vugt, Anke H M, Ng, Marini, Kokke, Freddy T M, Krolo, Ana, Başaran, Meryem Keçeli, Kaya, Neslihan Gurcan, Ünlüsoy Aksu, Aysel, Dalgıç, Buket, Ozcay, Figen, Baris, Zeren, Kain, Renate, Stigter, Edwin C A, Lichtenbelt, Klaske D, Massink, Maarten P G, Duran, Karen J, Verheij, Joke B G M, Lugtenberg, Dorien, Nikkels, Peter G J, Brouwer, Henricus G F, Verkade, Henkjan J, Scheenstra, Rene, Spee, Bart, Nieuwenhuis, Edward E S, Coffer, Paul J, Janecke, Andreas R, van Haaften, Gijs, Houwen, Roderick H J H, Müller, Thomas, Middendorp, Sabine, and Boztug, Kaan

Abstract

BACKGROUND & AIMS: Congenital diarrheal disorders are rare inherited intestinal disorders characterized by intractable, sometimes life-threatening, diarrhea and nutrient malabsorption; some have been associated with mutations in diacylglycerol-acyltransferase 1 (DGAT1), which catalyzes formation of triacylglycerol from diacylglycerol and acyl-CoA. We investigated the mechanisms by which DGAT1 deficiency contributes to intestinal failure using patient-derived organoids.METHODS: We collected blood samples from 10 patients, from 6 unrelated pedigrees, who presented with early-onset severe diarrhea and/or vomiting, hypoalbuminemia, and/or (fatal) protein-losing enteropathy with intestinal failure; we performed next-generation sequence analysis of DNA from 8 patients. Organoids were generated from duodenal biopsies from 3 patients and 3 healthy individuals (controls). Caco-2 cells and patient-derived dermal fibroblasts were transfected or transduced with vectors that express full-length or mutant forms of DGAT1 or full-length DGAT2. We performed CRISPR/Cas9-guided disruption of DGAT1 in control intestinal organoids. Cells and organoids were analyzed by immunoblot, immunofluorescence, flow cytometry, chromatography, quantitative real-time PCR, and for activities of caspases 3 and 7.RESULTS: In the 10 patients, we identified 5 bi-allelic loss-of-function mutations in DGAT1. In patient-derived fibroblasts and organoids, the mutations reduced expression of DGAT1 protein and altered triacylglycerol metabolism, resulting in decreased lipid droplet formation after oleic acid addition. Expression of full-length DGAT2 in patient-derived fibroblasts restored formation of lipid droplets. Organoids derived from patients with DGAT1 mutations were more susceptible to lipid-induced cell death than control organoids.CONCLUSIONS: We identified a large cohort of patients with congenital diarrheal disorders with mutations in DGAT1 that reduced expression of its

Published
2018

13. Intestinal failure and aberrant lipid metabolism in patients with DGAT1 deficiency

Author

Onderzoek, dCSCA RMSC-1, Sub Biomolecular analysis, van Rijn, Jorik M, Ardy, Rico Chandra, Kuloğlu, Zarife, Härter, Bettina, van Haaften-Visser, Désirée Y, van der Doef, Hubert P J, van Hoesel, Marliek, Kansu, Aydan, van Vugt, Anke H M, Ng, Marini, Kokke, Freddy T M, Krolo, Ana, Başaran, Meryem Keçeli, Kaya, Neslihan Gurcan, Ünlüsoy Aksu, Aysel, Dalgıç, Buket, Ozcay, Figen, Baris, Zeren, Kain, Renate, Stigter, Edwin C A, Lichtenbelt, Klaske D, Massink, Maarten P G, Duran, Karen J, Verheij, Joke B G M, Lugtenberg, Dorien, Nikkels, Peter G J, Brouwer, Henricus G F, Verkade, Henkjan J, Scheenstra, Rene, Spee, Bart, Nieuwenhuis, Edward E S, Coffer, Paul J, Janecke, Andreas R, van Haaften, Gijs, Houwen, Roderick H J H, Müller, Thomas, Middendorp, Sabine, Boztug, Kaan, Onderzoek, dCSCA RMSC-1, Sub Biomolecular analysis, van Rijn, Jorik M, Ardy, Rico Chandra, Kuloğlu, Zarife, Härter, Bettina, van Haaften-Visser, Désirée Y, van der Doef, Hubert P J, van Hoesel, Marliek, Kansu, Aydan, van Vugt, Anke H M, Ng, Marini, Kokke, Freddy T M, Krolo, Ana, Başaran, Meryem Keçeli, Kaya, Neslihan Gurcan, Ünlüsoy Aksu, Aysel, Dalgıç, Buket, Ozcay, Figen, Baris, Zeren, Kain, Renate, Stigter, Edwin C A, Lichtenbelt, Klaske D, Massink, Maarten P G, Duran, Karen J, Verheij, Joke B G M, Lugtenberg, Dorien, Nikkels, Peter G J, Brouwer, Henricus G F, Verkade, Henkjan J, Scheenstra, Rene, Spee, Bart, Nieuwenhuis, Edward E S, Coffer, Paul J, Janecke, Andreas R, van Haaften, Gijs, Houwen, Roderick H J H, Müller, Thomas, Middendorp, Sabine, and Boztug, Kaan

Published
2018

19. Quantification of in vivo oxidative damage in Caenorhabditis elegans during aging by endogenous F3-isoprostane measurement.

Author

Labuschagne, Christiaan F., Stigter, Edwin C. A., Hendriks, Margriet M. W. B., Berger, Ruud, Rokach, Joshua, Korswagen, Hendrik C., and Brenkman, Arjan B.

Subjects
*OXIDATIVE stress, *CAENORHABDITIS elegans, *ISOPROSTANES, *DNA damage, *LIQUID chromatography-mass spectrometry, *MITOCHONDRIAL DNA, *SOMATOMEDIN C
Abstract

Oxidative damage is thought to be a major cause in development of pathologies and aging. However, quantification of oxidative damage is methodologically difficult. Here, we present a robust liquid chromatography-tandem mass spectrometry ( LC- MS/ MS) approach for accurate, sensitive, and linear in vivo quantification of endogenous oxidative damage in the nematode Caenorhabditis elegans, based on F3-isoprostanes. F3-isoprostanes are prostaglandin-like markers of oxidative damage derived from lipid peroxidation by Reactive Oxygen Species ( ROS). Oxidative damage was quantified in whole animals and in multiple cellular compartments, including mitochondria and peroxisomes. Mutants of the mitochondrial electron transport proteins mev-1 and clk-1 showed increased oxidative damage levels. Furthermore, analysis of Superoxide Dismutase ( sod) and Catalase ( ctl) mutants uncovered that oxidative damage levels cannot be inferred from the phenotype of resistance to pro-oxidants alone and revealed high oxidative damage in a small group of chemosensory neurons. Longitudinal analysis of aging nematodes revealed that oxidative damage increased specifically with postreproductive age. Remarkably, aging of the stress-resistant and long-lived daf-2 insulin/ IGF-1 receptor mutant involved distinct daf-16-dependent phases of oxidative damage including a temporal increase at young adulthood. These observations are consistent with a hormetic response to ROS. [ABSTRACT FROM AUTHOR]

Published
2013
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20. The pseudokinase TRIB3 controls adipocyte lipid homeostasis and proliferation in vitro and in vivo.

Author

Hernández-Quiles M, Martinez Campesino L, Morris I, Ilyas Z, Reynolds S, Soon Tan N, Sobrevals Alcaraz P, Stigter ECA, Varga Á, Varga J, van Es R, Vos H, Wilson HL, Kiss-Toth E, and Kalkhoven E

Subjects
Animals, Humans, Mice, Cell Cycle Proteins genetics, Cell Proliferation, Homeostasis, Lipids, Repressor Proteins, Adipocytes, Adipose Tissue, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases antagonists & inhibitors
Abstract

Objective: In vivo studies in humans and mice have implicated the pseudokinase Tribbles 3 (TRIB3) in various aspects of energy metabolism. Whilst cell-based studies indicate a role for TRIB3 in adipocyte differentiation and function, it is unclear if and how these cellular functions may contribute to overall metabolic health., Methods: We investigated the metabolic phenotype of whole-body Trib3 knockout (Trib3 KO ) mice, focusing on adipocyte and adipose tissue functions. In addition, we combined lipidomics, transcriptomics, interactomics and phosphoproteomics analyses to elucidate cell-intrinsic functions of TRIB3 in pre- and mature adipocytes., Results: Trib3 KO mice display increased adiposity, but their insulin sensitivity remains unaltered. Trib3 KO adipocytes are smaller and display higher Proliferating Cell Nuclear Antigen (PCNA) levels, indicating potential alterations in either i) proliferation-differentiation balance, ii) impaired expansion after cell division, or iii) an altered balance between lipid storage and release, or a combination thereof. Lipidome analyses suggest TRIB3 involvement in the latter two processes, as triglyceride storage is reduced and membrane composition, which can restrain cellular expansion, is altered. Integrated interactome, phosphoproteome and transcriptome analyses support a role for TRIB3 in all three cellular processes through multiple cellular pathways, including Mitogen Activated Protein Kinase- (MAPK/ERK), Protein Kinase A (PKA)-mediated signaling and Transcription Factor 7 like 2 (TCF7L2) and Beta Catenin-mediated gene expression., Conclusions: Our findings support TRIB3 playing multiple distinct regulatory roles in the cytoplasm, nucleus and mitochondria, ultimately controlling adipose tissue homeostasis, rather than affecting a single cellular pathway., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published
2023
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21. Aqueous Humor Analysis Identifies Higher Branched Chain Amino Acid Metabolism as a Marker for Human Leukocyte Antigen-B27 Acute Anterior Uveitis and Disease Activity.

Author

Verhagen FH, Stigter ECA, Pras-Raves ML, Burgering BMT, Imhof SM, Radstake TRDJ, de Boer JH, and Kuiper JJW

Subjects
Acute Disease, Adult, Aged, Ascorbic Acid metabolism, Chromatography, Liquid, Citric Acid Cycle physiology, Female, Humans, Male, Middle Aged, Tandem Mass Spectrometry, Amino Acids, Branched-Chain metabolism, Aqueous Humor metabolism, Biomarkers metabolism, HLA-B27 Antigen metabolism, Keto Acids metabolism, Uveitis, Anterior metabolism
Abstract

Purpose: Human leukocyte antigen-B27 (HLA-B27)-positive acute anterior uveitis (AAU) has a higher recurrence rate and shows more anterior chamber cell infiltration compared with HLA-B27-negative patients, suggesting distinct etiologies of these clinically overlapping conditions. To advance our understanding of the biology of AAU, we characterized the metabolic profile of aqueous humor (AqH) of patients with HLA-B27-associated AAU (B27-AAU) and noninfectious idiopathic AAU (idiopathic AAU)., Design: Experimental laboratory study., Methods: AqH samples from 2 independent cohorts totaling 30 patients with B27-AAU, 16 patients with idiopathic AAU, and 20 patients with cataracts underwent 2 individual rounds of direct infusion mass spectrometry. Features predicted by direct infusion mass spectrometry that facilitated maximum separation between the disease groups in regression models were validated by liquid chromatography/tandem mass spectrometry-based quantification with appropriate standards., Results: Partial least square-discriminant analysis revealed metabolite profiles that were able to separate patients with B27-AAU from those with iodiopathic AAU. Pathway enrichment analysis, based on metabolites on which separation of the groups in the partial least square-discriminant analysis model was based, demonstrated the involvement of branched-chain amino acid biosynthesis, ascorbate and aldarate metabolism, the tricarboxylic acid cycle, and glycolysis-diverting pathways (eg, serine biosynthesis) across all investigated cohorts. Notably, the metabolite ketoleucine was elevated in B27-AAU across all 3 runs and moderately-but robustly-correlated with anterior chamber cell count (correlation coefficient range 0.41-0.81)., Conclusions: These results illustrate metabolic heterogeneity between HLA-B27-positive and HLA-B27-negative AAU, including an increase of branched-chain amino acid biosynthesis, that reflects disease activity in AAU., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2019
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22. Intestinal Failure and Aberrant Lipid Metabolism in Patients With DGAT1 Deficiency.

Author

van Rijn JM, Ardy RC, Kuloğlu Z, Härter B, van Haaften-Visser DY, van der Doef HPJ, van Hoesel M, Kansu A, van Vugt AHM, Thian M, Kokke FTM, Krolo A, Başaran MK, Kaya NG, Aksu AÜ, Dalgıç B, Ozcay F, Baris Z, Kain R, Stigter ECA, Lichtenbelt KD, Massink MPG, Duran KJ, Verheij JBGM, Lugtenberg D, Nikkels PGJ, Brouwer HGF, Verkade HJ, Scheenstra R, Spee B, Nieuwenhuis EES, Coffer PJ, Janecke AR, van Haaften G, Houwen RHJ, Müller T, Middendorp S, and Boztug K

Subjects
Caco-2 Cells, Case-Control Studies, Caspase 3 metabolism, Caspase 7 metabolism, Child, Child, Preschool, Consanguinity, Dermis cytology, Diacylglycerol O-Acyltransferase deficiency, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Netherlands, Phorbols, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Turkey, Diacylglycerol O-Acyltransferase genetics, Duodenum metabolism, Fibroblasts metabolism, Hypoalbuminemia genetics, Lipid Metabolism Disorders genetics, Organoids metabolism, Protein-Losing Enteropathies genetics
Abstract

Background & Aims: Congenital diarrheal disorders are rare inherited intestinal disorders characterized by intractable, sometimes life-threatening, diarrhea and nutrient malabsorption; some have been associated with mutations in diacylglycerol-acyltransferase 1 (DGAT1), which catalyzes formation of triacylglycerol from diacylglycerol and acyl-CoA. We investigated the mechanisms by which DGAT1 deficiency contributes to intestinal failure using patient-derived organoids., Methods: We collected blood samples from 10 patients, from 6 unrelated pedigrees, who presented with early-onset severe diarrhea and/or vomiting, hypoalbuminemia, and/or (fatal) protein-losing enteropathy with intestinal failure; we performed next-generation sequencing analysis of DNA from 8 patients. Organoids were generated from duodenal biopsies from 3 patients and 3 healthy individuals (controls). Caco-2 cells and patient-derived dermal fibroblasts were transfected or transduced with vectors that express full-length or mutant forms of DGAT1 or full-length DGAT2. We performed CRISPR/Cas9-guided disruption of DGAT1 in control intestinal organoids. Cells and organoids were analyzed by immunoblot, immunofluorescence, flow cytometry, chromatography, quantitative real-time polymerase chain reaction, and for the activity of caspases 3 and 7., Results: In the 10 patients, we identified 5 bi-allelic loss-of-function mutations in DGAT1. In patient-derived fibroblasts and organoids, the mutations reduced expression of DGAT1 protein and altered triacylglycerol metabolism, resulting in decreased lipid droplet formation after oleic acid addition. Expression of full-length DGAT2 in patient-derived fibroblasts restored formation of lipid droplets. Organoids derived from patients with DGAT1 mutations were more susceptible to lipid-induced cell death than control organoids., Conclusions: We identified a large cohort of patients with congenital diarrheal disorders with mutations in DGAT1 that reduced expression of its product; dermal fibroblasts and intestinal organoids derived from these patients had altered lipid metabolism and were susceptible to lipid-induced cell death. Expression of full-length wildtype DGAT1 or DGAT2 restored normal lipid metabolism in these cells. These findings indicate the importance of DGAT1 in fat metabolism and lipotoxicity in the intestinal epithelium. A fat-free diet might serve as the first line of therapy for patients with reduced DGAT1 expression. It is important to identify genetic variants associated with congenital diarrheal disorders for proper diagnosis and selection of treatment strategies., (Copyright © 2018 AGA Institute. Published by Elsevier Inc. All rights reserved.)

Published
2018
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23. Bacterial surface layer proteins as a novel capillary coating material for capillary electrophoretic separations.

Author

Moreno-Gordaliza E, Stigter EC, Lindenburg PW, and Hankemeier T

Subjects
Hydrogen-Ion Concentration, Isotachophoresis, Lactobacillus acidophilus chemistry, Lipoproteins blood, Reproducibility of Results, Surface Properties, Bacterial Proteins chemistry, Electrophoresis, Capillary methods
Abstract

A novel concept for stable coating in capillary electrophoresis, based on recrystallization of surface layer proteins on hydrophobized fused silica capillaries, was demonstrated. Surface layer protein A (SlpA) from Lactobacillus acidophilus bacteria was extracted, purified and used for coating pre-silanized glass substrates presenting different surface wettabilities (either hydrophobic or hydrophilic). Contact angle determination on SlpA-coated hydrophobic silica slides showed that the surfaces turned to hydrophilic after coating (53 ± 5°), due to a protein monolayer formation by protein-surface hydrophobic interactions. Visualization by atomic force microscopy demonstrated the presence of a SlpA layer on methylated silica slides displaying a surface roughness of 0.44 ± 0.02 nm. Additionally, a protein layer was visualized by fluorescence microscopy in methylated silica capillaries coated with SlpA and fluorescein isothiocyanate-labeled. The SlpA-coating showed an outstanding stability, even after treatment with 20 mM NaOH (pH 12.3). The electroosmotic flow in coated capillaries showed a partial suppression at pH 7.50 (3.8 ± 0.5 10(-9) m(2) V(-1) s(-1)) when compared with unmodified fused silica (5.9 ± 0.1 10(-8) m(2) V(-1) s(-1)). To demonstrate the potential of this novel coating, the SlpA-coated capillaries were applied for the first time for electrophoretic separation, and proved to be very suitable for the isotachophoretic separation of lipoproteins in human serum. The separations showed a high degree of repeatability (absolute migration times with 1.1-1.8% coefficient-of-variation (CV) within a day) and 2-3% CV inter-capillary reproducibility. The capillaries were stable for more than 100 runs at pH 9.40, and showed to be an exceptional alternative for challenging electrophoretic separations at long-term use., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2016
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24. Development and validation of a quantitative LC-tandem MS assay for hexadeca-4,7,10,13-tetraenoic acid in human and mouse plasma.

Author

Stigter EC, Letsiou S, vd Broek NJ, Gerrits J, Ishihara K, Voest EE, Verhoeven-Duif NM, and Brenkman AB

Subjects
Animals, Fatty Acids, Unsaturated chemistry, Fatty Acids, Unsaturated isolation & purification, Humans, Limit of Detection, Linear Models, Liquid-Liquid Extraction, Mice, Reproducibility of Results, Solid Phase Extraction, Chromatography, Liquid methods, Fatty Acids, Unsaturated blood, Tandem Mass Spectrometry methods
Abstract

Upon exposure to platinum analogs, mesenchymal stem cells were recently found to excrete minute amounts of specific lipid mediators that induce chemotherapy resistance. One of these lipids is hexadeca-4,7,10,13-tetraenoic acid (FA(16:4)n-3). Importantly, FA(16:4)n-3 is present in high concentrations in certain fish oils and algae and oral intake of these products also potently induced chemotherapy resistance. These findings suggested that certain foods could negatively affect clinical chemotherapy treatment. In order to allow further study of the relation between FA(16:4)n-3 and clinical chemotherapy resistance, a method for the detection and quantification of FA(16:4)n-3 in plasma is required. Therefore, a quantification method for FA(16:4)n-3 in human and mouse plasma was developed consisting of a liquid-liquid extraction, solid phase clean-up and LC-MS/MS (MRM) analysis. The method was fully validated over a period of three weeks according to the standard protocols and requirements. The linearity range of the method is 1-100 nmol/L (r(2)>0.99) using deuterated FA(16:3)n-3 as an internal standard. The limits of quantification and detection are 1.0 nmol/L and 0.8 nmol/L, respectively. Recoveries for spiked concentrations range from 103 to 108%. The intra-day and inter-day mean precision amounts to 98-106% and 100-108%, respectively. No significant loss of FA(16:4)n-3 is observed upon storage at -80 °C. The developed assay for the detection and quantification of FA(16:4)n-3 in human plasma is robust and reproducible. The validation parameters are within limits of acceptance., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published
2013
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25. Mesenchymal stem cells induce resistance to chemotherapy through the release of platinum-induced fatty acids.

Author

Roodhart JM, Daenen LG, Stigter EC, Prins HJ, Gerrits J, Houthuijzen JM, Gerritsen MG, Schipper HS, Backer MJ, van Amersfoort M, Vermaat JS, Moerer P, Ishihara K, Kalkhoven E, Beijnen JH, Derksen PW, Medema RH, Martens AC, Brenkman AB, and Voest EE

Subjects
Animals, Apoptosis drug effects, Carboplatin administration & dosage, Carboplatin pharmacology, Cisplatin administration & dosage, Cisplatin pharmacology, Cyclooxygenase Inhibitors, Humans, Mass Spectrometry, Metabolomics, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Organoplatinum Compounds administration & dosage, Organoplatinum Compounds pharmacology, Oxaliplatin, Thromboxane-A Synthase antagonists & inhibitors, Tumor Cells, Cultured, Antineoplastic Agents pharmacology, Cyclooxygenase 1 metabolism, Drug Resistance, Neoplasm, Fatty Acids metabolism, Fatty Acids, Unsaturated metabolism, Mesenchymal Stem Cells metabolism, Platinum Compounds pharmacology, Thromboxane-A Synthase metabolism
Abstract

The development of resistance to chemotherapy is a major obstacle for lasting effective treatment of cancer. Here, we demonstrate that endogenous mesenchymal stem cells (MSCs) become activated during treatment with platinum analogs and secrete factors that protect tumor cells against a range of chemotherapeutics. Through a metabolomics approach, we identified two distinct platinum-induced polyunsaturated fatty acids (PIFAs), 12-oxo-5,8,10-heptadecatrienoic acid (KHT) and hexadeca-4,7,10,13-tetraenoic acid (16:4(n-3)), that in minute quantities induce resistance to a broad spectrum of chemotherapeutic agents. Interestingly, blocking central enzymes involved in the production of these PIFAs (cyclooxygenase-1 and thromboxane synthase) prevents MSC-induced resistance. Our findings show that MSCs are potent mediators of resistance to chemotherapy and reveal targets to enhance chemotherapy efficacy in patients., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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