Your search keyword '"Ardisasmita AI"' showing total 12 results

1. Human extrahepatic and intrahepatic cholangiocyte organoids show region-specific differentiation potential and model cystic fibrosis-related bile duct disease

Author

Verstegen, Monique, Roos, Floris, Burka, Kseniia, Gehart, H, Jager, M, de Wolf, M (Maaike), Bijvelds, Marcel, de Jonge, Hugo, Ardisasmita, AI, van Huizen, Nick, Roest, Henk, de Jonge, Jeroen, Koch, M, Pampaloni, F, Fuchs, SA, Schene, IF, Luider, Theo, van der Doef, HPJ, Bodewes, FAJA, de Kleine, R H J, Spee, B, Kremers, Gert-Jan, Clevers, H, IJzermans, J.N.M., Cuppen, E, van der Laan, Luc, Verstegen, Monique, Roos, Floris, Burka, Kseniia, Gehart, H, Jager, M, de Wolf, M (Maaike), Bijvelds, Marcel, de Jonge, Hugo, Ardisasmita, AI, van Huizen, Nick, Roest, Henk, de Jonge, Jeroen, Koch, M, Pampaloni, F, Fuchs, SA, Schene, IF, Luider, Theo, van der Doef, HPJ, Bodewes, FAJA, de Kleine, R H J, Spee, B, Kremers, Gert-Jan, Clevers, H, IJzermans, J.N.M., Cuppen, E, and van der Laan, Luc

Published

2020

2. The ubiquitin-specific peptidase 8 (USP8) gene is frequently mutated in adenomas causing Cushing's disease.

Author

Perez-Rivas, L, primary, Theodoropoulou, M, additional, Ferraù, F, additional, Nusser, C, additional, Kawaguchi, K, additional, Stratakis, CA, additional, Rueda Faucz, F, additional, Wildemberg, LE, additional, Assiè, G, additional, Beschorner, R, additional, Dimopoulou, C, additional, Buchfelder, M, additional, Popovic, V, additional, Berr, C, additional, Toth, MI, additional, Ardisasmita, AI, additional, Honegger, J, additional, Bertherat, J, additional, Gadelha, M, additional, Beuschlein, F, additional, Stalla, G, additional, Komada, M, additional, Korbonits, M, additional, and Reincke, M, additional

Published

2015

3. Enrichment of cell cycle pathways in progesterone-treated endometrial organoids of infertile women compared to fertile women.

Author

Bui BN, Ardisasmita AI, van de Vliert FH, Abendroth MS, van Hoesel M, Mackens S, Fuchs SA, Nieuwenhuis EES, Broekmans FJM, and Steba GS

Subjects

Humans, Female, Adult, Transcriptome genetics, Estradiol pharmacology, Cell Proliferation drug effects, Fertility genetics, Fertility drug effects, Epithelial Cells drug effects, Epithelial Cells pathology, Epithelial Cells metabolism, Cell Differentiation drug effects, Endometrium pathology, Endometrium metabolism, Endometrium drug effects, Progesterone pharmacology, Organoids drug effects, Organoids pathology, Organoids metabolism, Infertility, Female pathology, Infertility, Female genetics, Infertility, Female drug therapy, Cell Cycle drug effects, Cell Cycle genetics

Abstract

Purpose: To investigate whether the transcriptome profile differs between progesterone-treated infertile and fertile endometrial organoids., Methods: Endometrial biopsies were obtained from 14 infertile and seven fertile women, after which organoids were generated from isolated epithelial cells. To mimic the secretory phase, organoids were sequentially treated with 17β-estradiol (E2) and progesterone (P4) and subjected to RNA sequencing. Differentially expressed genes (DEGs) were identified using DESeq2 (lfcThreshold = 0, log 2 Fold Change ≥ 1.0 or ≤ -1.0), and a principal component analysis (PCA) plot was generated. Functional enrichment analysis was performed by overrepresentation analysis and Gene Set Enrichment Analysis (GSEA). To functionally assess proliferation, OrganoSeg surface measurements were performed before (T 0 ) and after (T 1 ) differentiation of organoids, and T 1 /T 0 ratios were calculated to determine the proliferation rate., Results: Although the PCA plot did not show clear clustering of the fertile and infertile samples, 363 significant DEGs (129 upregulated and 234 downregulated) were detected in infertile compared to fertile organoids. Mainly cell cycle processes were highly enriched in infertile organoids. Thus, we hypothesised that proliferative activity during differentiation may be higher in infertile organoids compared to fertile organoids. However, this could not be validated by cell surface measurements., Conclusions: This study revealed that cell cycle processes were enriched in E2/P4-treated infertile endometrial organoids as compared to fertile organoids. This could reflect persistently higher proliferative activity of the endometrial epithelial cells in differentiated infertile organoids compared to fertile organoids. To confirm this hypothesis, further studies are warranted., (© 2024. The Author(s).)

Published

2024

4. Direct Infusion Mass Spectrometry to Rapidly Map Metabolic Flux of Substrates Labeled with Stable Isotopes.

Author

Meijer NWF, Zwakenberg S, Gerrits J, Westland D, Ardisasmita AI, Fuchs SA, Verhoeven-Duif NM, Jans JJM, and Zwartkruis FJT

Abstract

Direct infusion-high-resolution mass spectrometry (DI-HRMS) allows for rapid profiling of complex mixtures of metabolites in blood, cerebrospinal fluid, tissue samples and cultured cells. Here, we present a DI-HRMS method suitable for the rapid determination of metabolic fluxes of isotopically labeled substrates in cultured cells and organoids. We adapted an automated annotation pipeline by selecting labeled adducts that best represent the majority of 13 C and/or 15 N-labeled glycolytic and tricarboxylic acid cycle intermediates as well as a number of their derivatives. Furthermore, valine, leucine and several of their degradation products were included. We show that DI-HRMS can determine anticipated and unanticipated alterations in metabolic fluxes along these pathways that result from the genetic alteration of single metabolic enzymes, including pyruvate dehydrogenase (PDHA1) and glutaminase (GLS). In addition, it can precisely pinpoint metabolic adaptations to the loss of methylmalonyl-CoA mutase in patient-derived liver organoids. Our results highlight the power of DI-HRMS in combination with stable isotopically labeled compounds as an efficient screening method for fluxomics.

Published

2024

5. Misidentification of neural cell identity in liver-derived organoid systems.

Author

Schene IF, Ardisasmita AI, and Fuchs SA

Subjects

Liver, Organoids

Abstract

Competing Interests: Declaration of interests The authors declare no competing interests.

Published

2024

6. An unbiased approach of molecular characterization of the endometrium: toward defining endometrial-based infertility.

Author

Bui BN, Ardisasmita AI, Kuijk E, Altmäe S, Steba G, Mackens S, Fuchs S, Broekmans F, and Nieuwenhuis E

Subjects

Female, Humans, Reproducibility of Results, Endometrium metabolism, Transcriptome, Treatment Outcome, Embryo Implantation physiology, Infertility, Female diagnosis, Infertility, Female genetics, Infertility, Female metabolism

Abstract

Infertility is a complex condition affecting millions of couples worldwide. The current definition of infertility, based on clinical criteria, fails to account for the molecular and cellular changes that may occur during the development of infertility. Recent advancements in sequencing technology and single-cell analysis offer new opportunities to gain a deeper understanding of these changes. The endometrium has a potential role in infertility and has been extensively studied to identify gene expression profiles associated with (impaired) endometrial receptivity. However, limited overlap among studies hampers the identification of relevant downstream pathways that could play a role in the development of endometrial-related infertility. To address these challenges, we propose sequencing the endometrial transcriptome of healthy and infertile women at the single-cell level to consistently identify molecular signatures. Establishing consensus on physiological patterns in endometrial samples can aid in identifying deviations in infertile patients. A similar strategy has been used with great success in cancer research. However, large collaborative initiatives, international uniform protocols of sample collection and processing are crucial to ensure reliability and reproducibility. Overall, the proposed approach holds promise for an objective and accurate classification of endometrial-based infertility and has the potential to improve diagnosis and treatment outcomes., (© The Author(s) 2023. Published by Oxford University Press on behalf of European Society of Human Reproduction and Embryology.)

Published

2024

7. TOP-EVs: Technology of Protein delivery through Extracellular Vesicles is a versatile platform for intracellular protein delivery.

Author

Ilahibaks NF, Ardisasmita AI, Xie S, Gunnarsson A, Brealey J, Vader P, de Jong OG, de Jager S, Dekker N, Peacock B, Schiffelers RM, Sluijter JPG, and Lei Z

Subjects

Cell Communication, Drug Delivery Systems methods, Endosomes, Technology, Extracellular Vesicles metabolism

Abstract

Extracellular vesicles (EVs) have emerged as biocompatible drug delivery vehicles due to their native ability to deliver bioactive cargo to recipient cells. However, the application of EVs as a therapeutic delivery vehicle is hampered by effective methods for endogenously loading target proteins inside EVs and unloading proteins after delivery to recipient cells. Most EV-based engineered loading methods have a limited delivery efficiency owing to their inefficient endosomal escape or cargo release from the intraluminal attachment from the EV membrane. Here, we describe the 'Technology Of Protein delivery through Extracellular Vesicles' (TOP-EVs) as a tool for efficient intracellular delivery of target proteins mediated via EVs. The vesicular stomatitis virus glycoprotein and the rapamycin-heterodimerization of the FKBP12/T82L mutant FRB proteins were both important for the effective protein delivery through TOP-EVs. We showed that TOP-EVs could efficiently deliver Cre recombinase and CRISPR/Cas9 ribonucleoprotein complex in vitro. Moreover, our results demonstrated that the capacity of TOP-EVs to deliver intracellular proteins in recipient cells was not an artifact of plasmid contamination or direct plasmid loading into EVs. Finally, we showed that TOP-EVs could successfully mediate intracellular protein delivery in the liver in vivo. Taken together, TOP-EVs are a versatile platform for efficient intracellular protein delivery in vitro and in vivo, which can be applied to advance the development of protein-based therapeutics., Competing Interests: Declaration of Competing Interest P.V. serves on the scientific advisory board of Evox Therapeutics., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

8. A comprehensive transcriptomic comparison of hepatocyte model systems improves selection of models for experimental use.

Author

Ardisasmita AI, Schene IF, Joore IP, Kok G, Hendriks D, Artegiani B, Mokry M, Nieuwenhuis EES, and Fuchs SA

Subjects

Cell Differentiation genetics, Hepatocytes metabolism, Humans, Transcriptome, Induced Pluripotent Stem Cells metabolism, Pluripotent Stem Cells

Abstract

The myriad of available hepatocyte in vitro models provides researchers the possibility to select hepatocyte-like cells (HLCs) for specific research goals. However, direct comparison of hepatocyte models is currently challenging. We systematically searched the literature and compared different HLCs, but reported functions were limited to a small subset of hepatic functions. To enable a more comprehensive comparison, we developed an algorithm to compare transcriptomic data across studies that tested HLCs derived from hepatocytes, biliary cells, fibroblasts, and pluripotent stem cells, alongside primary human hepatocytes (PHHs). This revealed that no HLC covered the complete hepatic transcriptome, highlighting the importance of HLC selection. HLCs derived from hepatocytes had the highest transcriptional resemblance to PHHs regardless of the protocol, whereas the quality of fibroblasts and PSC derived HLCs varied depending on the protocol used. Finally, we developed and validated a web application (HLCompR) enabling comparison for specific pathways and addition of new HLCs. In conclusion, our comprehensive transcriptomic comparison of HLCs allows selection of HLCs for specific research questions and can guide improvements in culturing conditions., (© 2022. The Author(s).)

Published

2022

9. The potential and limitations of intrahepatic cholangiocyte organoids to study inborn errors of metabolism.

Author

Lehmann V, Schene IF, Ardisasmita AI, Liv N, Veenendaal T, Klumperman J, van der Doef HPJ, Verkade HJ, Verstegen MMA, van der Laan LJW, Jans JJM, Verhoeven-Duif NM, van Hasselt PM, Nieuwenhuis EES, Spee B, and Fuchs SA

Subjects

Humans, Liver metabolism, Membrane Transport Proteins metabolism, Metabolic Networks and Pathways, Amino Acid Metabolism, Inborn Errors metabolism, Organoids metabolism

Abstract

Inborn errors of metabolism (IEMs) comprise a diverse group of individually rare monogenic disorders that affect metabolic pathways. Mutations lead to enzymatic deficiency or dysfunction, which results in intermediate metabolite accumulation or deficit leading to disease phenotypes. Currently, treatment options for many IEMs are insufficient. Rarity of individual IEMs hampers therapy development and phenotypic and genetic heterogeneity suggest beneficial effects of personalized approaches. Recently, cultures of patient-own liver-derived intrahepatic cholangiocyte organoids (ICOs) have been established. Since most metabolic genes are expressed in the liver, patient-derived ICOs represent exciting possibilities for in vitro modeling and personalized drug testing for IEMs. However, the exact application range of ICOs remains unclear. To address this, we examined which metabolic pathways can be studied with ICOs and what the potential and limitations of patient-derived ICOs are to model metabolic functions. We present functional assays in patient ICOs with defects in branched-chain amino acid metabolism (methylmalonic acidemia), copper metabolism (Wilson disease), and transporter defects (cystic fibrosis). We discuss the broad range of functional assays that can be applied to ICOs, but also address the limitations of these patient-specific cell models. In doing so, we aim to guide the selection of the appropriate cell model for studies of a specific disease or metabolic process., (© 2021 The Authors. Journal of Inherited Metabolic Disease published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2022

10. Recapitulating Cholangiopathy-Associated Necroptotic Cell Death In Vitro Using Human Cholangiocyte Organoids.

Author

Shi S, Verstegen MMA, Roest HP, Ardisasmita AI, Cao W, Roos FJM, de Ruiter PE, Niemeijer M, Pan Q, IJzermans JNM, and van der Laan LJW

Subjects

Apoptosis, Epithelial Cells, Humans, Liver, Necroptosis, Organoids metabolism

Abstract

Background & Aims: Liver and bile duct diseases often are associated with extensive cell death of cholangiocytes. Necroptosis represents a common mode of programmed cell death in cholangiopathy, however, detailed mechanistic knowledge is limited owing to the lack of appropriate in vitro models. To address this void, we investigated whether human intrahepatic cholangiocyte organoids (ICOs) can recapitulate cholangiopathy-associated necroptosis and whether this model can be used for drug screening., Methods: We evaluated the clinical relevance of necroptosis in end-stage liver diseases and liver transplantation by immunohistochemistry. Cholangiopathy-associated programmed cell death was evoked in ICOs derived from healthy donors or patients with primary sclerosing cholangitis or alcoholic liver diseases by the various stimuli., Results: The expression of key necroptosis mediators, receptor-interacting protein 3 and phosphorylated mixed lineage kinase domain-like, in cholangiocytes during end-stage liver diseases was confirmed. The phosphorylated mixed lineage kinase domain-like expression was etiology-dependent. Gene expression analysis confirmed that primary cholangiocytes are more prone to necroptosis compared with primary hepatocytes. Both apoptosis and necroptosis could be specifically evoked using tumor necrosis factor α and second mitochondrial-derived activator of caspases mimetic, with or without caspase inhibition in healthy and patient-derived ICOs. Necroptosis also was induced by ethanol metabolites or human bile in ICOs from donors and patients. The organoid cultures further uncovered interdonor variable and species-specific drug responses. Dabrafenib was identified as a potent necroptosis inhibitor and showed a protective effect against ethanol metabolite toxicity., Conclusions: Human ICOs recapitulate cholangiopathy-associated necroptosis and represent a useful in vitro platform for the study of biliary cytotoxicity and preclinical drug evaluation., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

11. Human extrahepatic and intrahepatic cholangiocyte organoids show region-specific differentiation potential and model cystic fibrosis-related bile duct disease.

Author

Verstegen MMA, Roos FJM, Burka K, Gehart H, Jager M, de Wolf M, Bijvelds MJC, de Jonge HR, Ardisasmita AI, van Huizen NA, Roest HP, de Jonge J, Koch M, Pampaloni F, Fuchs SA, Schene IF, Luider TM, van der Doef HPJ, Bodewes FAJA, de Kleine RHJ, Spee B, Kremers GJ, Clevers H, IJzermans JNM, Cuppen E, and van der Laan LJW

Subjects

Adolescent, Bile Duct Diseases pathology, Bile Ducts, Intrahepatic pathology, Cystic Fibrosis pathology, Humans, Male, Organoids pathology, Bile Duct Diseases metabolism, Bile Ducts, Intrahepatic metabolism, Cell Differentiation, Cystic Fibrosis metabolism, Organoids metabolism

Abstract

The development, homeostasis, and repair of intrahepatic and extrahepatic bile ducts are thought to involve distinct mechanisms including proliferation and maturation of cholangiocyte and progenitor cells. This study aimed to characterize human extrahepatic cholangiocyte organoids (ECO) using canonical Wnt-stimulated culture medium previously developed for intrahepatic cholangiocyte organoids (ICO). Paired ECO and ICO were derived from common bile duct and liver tissue, respectively. Characterization showed both organoid types were highly similar, though some differences in size and gene expression were observed. Both ECO and ICO have cholangiocyte fate differentiation capacity. However, unlike ICO, ECO lack the potential for differentiation towards a hepatocyte-like fate. Importantly, ECO derived from a cystic fibrosis patient showed no CFTR channel activity but normal chloride channel and MDR1 transporter activity. In conclusion, this study shows that ECO and ICO have distinct lineage fate and that ECO provide a competent model to study extrahepatic bile duct diseases like cystic fibrosis.

Published

2020

12. The Gene of the Ubiquitin-Specific Protease 8 Is Frequently Mutated in Adenomas Causing Cushing's Disease.

Author

Perez-Rivas LG, Theodoropoulou M, Ferraù F, Nusser C, Kawaguchi K, Stratakis CA, Faucz FR, Wildemberg LE, Assié G, Beschorner R, Dimopoulou C, Buchfelder M, Popovic V, Berr CM, Tóth M, Ardisasmita AI, Honegger J, Bertherat J, Gadelha MR, Beuschlein F, Stalla G, Komada M, Korbonits M, and Reincke M

Subjects

ACTH-Secreting Pituitary Adenoma epidemiology, Adenoma epidemiology, Adolescent, Adult, Animals, COS Cells, Child, Chlorocebus aethiops, DNA Mutational Analysis, Female, Gene Frequency, Genetic Association Studies, HeLa Cells, Humans, Male, Mice, Middle Aged, Pituitary ACTH Hypersecretion epidemiology, Retrospective Studies, Tumor Cells, Cultured, Young Adult, ACTH-Secreting Pituitary Adenoma genetics, Adenoma genetics, Endopeptidases genetics, Endosomal Sorting Complexes Required for Transport genetics, Mutation, Pituitary ACTH Hypersecretion genetics, Ubiquitin Thiolesterase genetics

Abstract

Context: We have recently reported somatic mutations in the ubiquitin-specific protease USP8 gene in a small series of adenomas of patients with Cushing's disease., Objective: To determine the prevalence of USP8 mutations and the genotype-phenotype correlation in a large series of patients diagnosed with Cushing's disease., Design: We performed a retrospective, multicentric, genetic analysis of 134 functioning and 11 silent corticotroph adenomas using Sanger sequencing. Biochemical and clinical features were collected and examined within the context of the mutational status of USP8, and new mutations were characterized by functional studies., Patients: A total of 145 patients who underwent surgery for an ACTH-producing pituitary adenoma., Main Outcomes Measures: Mutational status of USP8. Biochemical and clinical features included sex, age at diagnosis, tumor size, preoperative and postoperative hormonal levels, and comorbidities., Results: We found somatic mutations in USP8 in 48 (36%) pituitary adenomas from patients with Cushing's disease but in none of 11 silent corticotropinomas. The prevalence was higher in adults than in pediatric cases (41 vs 17%) and in females than in males (43 vs 17%). Adults having USP8-mutated adenomas were diagnosed at an earlier age than those with wild-type lesions (36 vs 44 y). Mutations were primarily found in adenomas of 10 ± 7 mm and were inversely associated with the development of postoperative adrenal insufficiency. All the mutations affected the residues Ser718 or Pro720, including five new identified alterations. Mutations reduced the interaction between USP8 and 14-3-3 and enhanced USP8 activity. USP8 mutants diminished epidermal growth factor receptor ubiquitination and induced Pomc promoter activity in immortalized AtT-20 corticotropinoma cells., Conclusions: USP8 is frequently mutated in adenomas causing Cushing's disease, especially in those from female adult patients diagnosed at a younger age.

Published

2015