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4. Recommendations, guidelines, and best practice for the use of human induced pluripotent stem cells for neuropharmacological studies of neuropsychiatric disorders

Author

Dutan Polit, Lucia, Eidhof, Ilse, McNeill, Rhiannon V., Warre-Cornish, Katherine M., Yde Ohki, Cristine Marie, Walter, Natalie Monet, Sala, Carlo, Verpelli, Chiara, Radtke, Franziska, Galderisi, Silvana, Mucci, Armida, Collo, Ginetta, Edenhofer, Frank, Castrén, Maija L., Réthelyi, János M., Ejlersen, Morten, Hohmann, Sonja Simone, Ilieva, Mirolyuba S., Lukjanska, Renate, Matuleviciute, Rugile, Michel, Tanja Maria, de Vrij, Femke M.S., Kushner, Steven A., Lendemeijer, Bas, Kittel-Schneider, Sarah, Ziegler, Georg C., Gruber-Schoffnegger, Doris, Pasterkamp, R. Jeroen, Kasri, Amal, Potier, Marie-Claude, Knoblich, Jürgen A., Brüstle, Oliver, Peitz, Michael, Pich, Emilio Merlo, Harwood, Adrian J., Abranches, Elsa, Falk, Anna, Vernon, Anthony C., Grünblatt, Edna, and Srivastava, Deepak P.

Published
2023
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7. GDAP1 loss of function inhibits the mitochondrial pyruvate dehydrogenase complex by altering the actin cytoskeleton

Author

Wolf, Christina, Pouya, Alireza, Bitar, Sara, Pfeiffer, Annika, Bueno, Diones, Rojas-Charry, Liliana, Arndt, Sabine, Gomez-Zepeda, David, Tenzer, Stefan, Bello, Federica Dal, Vianello, Caterina, Ritz, Sandra, Schwirz, Jonas, Dobrindt, Kristina, Peitz, Michael, Hanschmann, Eva-Maria, Mencke, Pauline, Boussaad, Ibrahim, Silies, Marion, Brüstle, Oliver, Giacomello, Marta, Krüger, Rejko, and Methner, Axel

Published
2022
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11. Revealing Genetic Dynamics: scRNA-seq Unravels Modifications in Human PDL Cells across In Vivo and In Vitro Environments.

Author

Abdallah, Ali T., Peitz, Michael, and Konermann, Anna

Subjects
*GENETIC profile, *PERIODONTAL ligament, *CELL populations, *CELL culture, *RNA sequencing, *CELL analysis
Abstract

The periodontal ligament (PDL) is a highly specialized fibrous tissue comprising heterogeneous cell populations of an intricate nature. These complexities, along with challenges due to cell culture, impede a comprehensive understanding of periodontal pathophysiology. This study aims to address this gap, employing single-cell RNA sequencing (scRNA-seq) technology to analyze the genetic intricacies of PDL both in vivo and in vitro. Primary human PDL samples (n = 7) were split for direct in vivo analysis and cell culture under serum-containing and serum-free conditions. Cell hashing and sorting, scRNA-seq library preparation using the 10x Genomics protocol, and Illumina sequencing were conducted. Primary analysis was performed using Cellranger, with downstream analysis via the R packages Seurat and SCORPIUS. Seven distinct PDL cell clusters were identified comprising different cellular subsets, each characterized by unique genetic profiles, with some showing donor-specific patterns in representation and distribution. Formation of these cellular clusters was influenced by culture conditions, particularly serum presence. Furthermore, certain cell populations were found to be inherent to the PDL tissue, while others exhibited variability across donors. This study elucidates specific genes and cell clusters within the PDL, revealing both inherent and context-driven subpopulations. The impact of culture conditions—notably the presence of serum—on cell cluster formation highlights the critical need for refining culture protocols, as comprehending these influences can drive the creation of superior culture systems vital for advancing research in PDL biology and regenerative therapies. These discoveries not only deepen our comprehension of PDL biology but also open avenues for future investigations into uncovering underlying mechanisms. [ABSTRACT FROM AUTHOR]

Published
2024
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12. T32. IMPACT OF BIPOLAR DISORDER POLYGENIC RISK ON GENE EXPRESSION IN IPSC-DERIVED NEURAL PROGENITORS FROM GENETICALLY CHARACTERIZED PATIENTS AND CONTROLS

Author

Hünten, Karola, primary, Krutenko, Tamara, additional, David, Friederike S., additional, Beins, Eva C., additional, Sivalingam, Sugirthan, additional, Stein, Frederike, additional, Herms, Stefan, additional, Kircher, Tilo, additional, Dannlowski, Udo, additional, Witt, Stephanie, additional, Peitz, Michael, additional, Cichon, Sven, additional, Nöthen, Markus M., additional, Brüstle, Oliver, additional, and Forstner, Andreas J., additional

Published
2023
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18. A stably self-renewing adult blood-derived induced neural stem cell exhibiting patternability and epigenetic rejuvenation

Author

Sheng, Chao, Jungverdorben, Johannes, Wiethoff, Hendrik, Lin, Qiong, Flitsch, Lea J., Eckert, Daniela, Hebisch, Matthias, Fischer, Julia, Kesavan, Jaideep, Weykopf, Beatrice, Schneider, Linda, Holtkamp, Dominik, Beck, Heinz, Till, Andreas, Wüllner, Ullrich, Ziller, Michael J., Wagner, Wolfgang, Peitz, Michael, and Brüstle, Oliver

Published
2018
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19. Plastin 3 is upregulated in iPSC-derived motoneurons from asymptomatic SMN1-deleted individuals

Author

Heesen, Ludwig, Peitz, Michael, Torres-Benito, Laura, Hölker, Irmgard, Hupperich, Kristina, Dobrindt, Kristina, Jungverdorben, Johannes, Ritzenhofen, Swetlana, Weykopf, Beatrice, Eckert, Daniela, Hosseini-Barkooie, Seyyed Mohsen, Storbeck, Markus, Fusaki, Noemi, Lonigro, Renata, Heller, Raoul, Kye, Min Jeong, Brüstle, Oliver, and Wirth, Brunhilde

Published
2016
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22. Machine learning-aided multidimensional phenotyping of Parkinson’s disease patient stem cell-derived midbrain dopaminergic neurons

Author

Vuidel, Aurore, primary, Cousin, Loïc, additional, Weykopf, Beatrice, additional, Haupt, Simone, additional, Hanifehlou, Zahra, additional, Wiest-Daesslé, Nicolas, additional, Segschneider, Michaela, additional, Peitz, Michael, additional, Ogier, Arnaud, additional, Brino, Laurent, additional, Brüstle, Oliver, additional, Sommer, Peter, additional, and Wilbertz, Johannes H., additional

Published
2022
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29. GDAP1 loss of function inhibits the mitochondrial pyruvate dehydrogenase complex by altering the actin cytoskeleton 2021.03.04.433895

Author

Wolf, Christina, Pouya, Alireza, Bitar, Sara, Pfeiffer, Annika, Bueno, Diones, Arndt, Sabine, Tenzer, Stefan, Dal Bello, Federica, Vianello, Caterina, Ritz, Sandra, Schwirz, Jonas, Dobrindt, Kristina, Peitz, Michael, Hanschmann, Eva-Maria, Boussaad, Ibrahim, Brüstle, Oliver, Giacomello, Marta, Krüger, Rejko, and Methner, Axel

Subjects
mitochondria, cytoskeleton, macromolecular substances, GDAP1, Biochemistry, biophysics & molecular biology [F05] [Life sciences], Biochimie, biophysique & biologie moléculaire [F05] [Sciences du vivant]
Abstract

Charcot-Marie-Tooth (CMT) disease 4A is an autosomal-recessive polyneuropathy caused by mutations of ganglioside-induced differentiation-associated protein 1 (GDAP1), a putative glutathione transferase, which affects mitochondrial shape and alters cellular Ca2+ homeostasis. Here, we identify the underlying mechanism. We found that patient-derived motoneurons and GDAP1 knockdown SH-SY5Y cells display two phenotypes: more tubular mitochondria and a metabolism characterized by glutamine dependence and fewer cytosolic lipid droplets. GDAP1 interacts with the actin-depolymerizing protein Cofilin-1 in a redoxdependent manner, suggesting a role for actin signaling. Consistently, GDAP1 loss causes less F-actin close to mitochondria, which restricts mitochondrial localization of the fission factor dynamin-related protein 1, instigating tubularity. Changes in the actin cytoskeleton also disrupt mitochondria-ER contact sites. This results in lower mitochondrial Ca2+ levels and inhibition of the pyruvate dehydrogenase complex, explaining the metabolic changes upon GDAP1 loss of function. Together, these findings reconcile GDAP1-associated phenotypes and implicate disrupted actin signaling in CMT4A pathophysiology.

Published
2021

30. Generation of a set of isogenic iPSC lines carrying all APOE genetic variants (epsilon 2/epsilon 3/epsilon 4) and knock-out for the study of APOE biology in health and disease

Author

Schmid, Benjamin, Holst, Bjorn, Clausen, Christian, Bahnassawy, Lamiaa, Reinhardt, Peter, Bakker, Margot H. M., Diaz-Guerra, Eva, Vicario, Carlos, Martino-Adami, Pamela, V, Thoenes, Michaela, Ramirez, Alfredo, Flissbach, Klaus, Grezella, Clara, Bruestle, Oliver, Peitz, Michael, Ebneth, Andreas, Cabrera-Socorro, Alfredo, Schmid, Benjamin, Holst, Bjorn, Clausen, Christian, Bahnassawy, Lamiaa, Reinhardt, Peter, Bakker, Margot H. M., Diaz-Guerra, Eva, Vicario, Carlos, Martino-Adami, Pamela, V, Thoenes, Michaela, Ramirez, Alfredo, Flissbach, Klaus, Grezella, Clara, Bruestle, Oliver, Peitz, Michael, Ebneth, Andreas, and Cabrera-Socorro, Alfredo

Abstract

APOE genotype is the strongest genetic risk factor for Alzheimer's Disease (AD). The low degree of homology between mouse and human APOE is a concerning issue in preclinical models currently used to study the role of this gene in AD pathophysiology. A key objective of ADAPTED (Alzheimer's Disease Apolipoprotein Pathology for Treatment Elucidation and Development) project was to generate in vitro models that better recapitulate human APOE biology. We describe a new set of induced pluripotent stem cells (iPSC) lines carrying common APOE variants (epsilon 2,epsilon 3, and epsilon 3/epsilon 4) and a knock-out isogenic to the parental APOE epsilon 4/epsilon 4 line (UKBi011-A).

Published
2021

31. High Density Bioprocessing of Human Pluripotent Stem Cells by Metabolic Control and in Silico Modeling

Author

Manstein, Felix, Ullmann, Kevin, Kropp, Christina, Halloin, Caroline, Triebert, Wiebke, Franke, Annika, Farr, Clara-Milena, Sahabian, Anais, Haase, Alexandra, Breitkreuz, Yannik, Peitz, Michael, Brüstle, Oliver, Kalies, Stefan, Martin, Ulrich, Olmer, Ruth, Zweigerdt, Robert, Manstein, Felix, Ullmann, Kevin, Kropp, Christina, Halloin, Caroline, Triebert, Wiebke, Franke, Annika, Farr, Clara-Milena, Sahabian, Anais, Haase, Alexandra, Breitkreuz, Yannik, Peitz, Michael, Brüstle, Oliver, Kalies, Stefan, Martin, Ulrich, Olmer, Ruth, and Zweigerdt, Robert

Abstract

To harness the full potential of human pluripotent stem cells (hPSCs) we combined instrumented stirred tank bioreactor (STBR) technology with the power of in silico process modeling to overcome substantial, hPSC-specific hurdles toward their mass production. Perfused suspension culture (3D) of matrix-free hPSC aggregates in STBRs was applied to identify and control process-limiting parameters including pH, dissolved oxygen, glucose and lactate levels, and the obviation of osmolality peaks provoked by high density culture. Media supplements promoted single cell-based process inoculation and hydrodynamic aggregate size control. Wet lab-derived process characteristics enabled predictive in silico modeling as a new rational for hPSC cultivation. Consequently, hPSC line-independent maintenance of exponential cell proliferation was achieved. The strategy yielded 70-fold cell expansion in 7 days achieving an unmatched density of 35 × 106 cells/mL equivalent to 5.25 billion hPSC in 150 mL scale while pluripotency, differentiation potential, and karyotype stability was maintained. In parallel, media requirements were reduced by 75% demonstrating the outstanding increase in efficiency. Minimal input to our in silico model accurately predicts all main process parameters; combined with calculation-controlled hPSC aggregation kinetics, linear process upscaling is also enabled and demonstrated for up to 500 mL scale in an independent bioreactor system. Thus, by merging applied stem cell research with recent knowhow from industrial cell fermentation, a new level of hPSC bioprocessing is revealed fueling their automated production for industrial and therapeutic applications.

Published
2021

33. Excitation-induced ataxin-3 aggregation in neurons from patients with Machado-Joseph disease

Author

Koch, Philipp, Breuer, Peter, Peitz, Michael, Jungverdorben, Johannes, Kesavan, Jaideep, Poppe, Daniel, Doerr, Jonas, Ladewig, Julia, Mertens, Jerome, Tilting, Thomas, Hoffmann, Per, Klockgether, Thomas, Evert, Bernd O., Wullner, Ullrich, and Brustle, Oliver

Subjects
Genetic engineering -- Research, Cerebellar ataxia -- Physiological aspects -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Machado-Joseph disease (MJD; also called spinocerebellar ataxia type 3) is a dominantly inherited late-onset neurodegenerative disorder caused by expansion of polyglutamine (polyQ)-encoding CAG repeats in the MJD1 gene (also known [...]

Published
2011

35. Copy number variation and selection during reprogramming to pluripotency

Author

Hussein, Samer M., Batada, Nizar N., Vuoristo, Sanna, Ching, Reagan W., Autio, Reija, Narva, Elisa, Ng, Siemon, Sourour, Michel, Hamalainen, Riikka, Olsson, Cia, Lundin, Karolina, Mikkola, Milla, Trokovic, Ras, Peitz, Michael, Brustle, Oliver, Bazett-Jones, David P., Alitalo, Kari, Lahesmaa, Riitta, Nagy, Andras, and Otonkoski, Timo

Subjects
Stem cells -- Models -- Methods -- Genetic aspects, Cell differentiation -- Methods -- Models -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The mechanisms underlying the low efficiency of reprogramming somatic cells into induced pluripotent stem (iPS) cells are poorly understood. There is a clear need to study whether the reprogramming process itself compromises genomic integrity and, through this, the efficiency of iPS cell establishment. Using a high-resolution single nucleotide polymorphism array, we compared copy number variations (CNVs) of different passages of human iPS cells with their fibroblast cell origins and with human embryonic stem (ES) cells. Here we show that significantly more CNVs are present in early-passage human iPS cells than intermediate passage human iPS cells, fibroblasts or human ES cells. Most CNVs are formed de novo and generate genetic mosaicism in early-passage human iPS cells. Most of these novel CNVs rendered the affected cells at a selective disadvantage. Remarkably, expansion of human iPS cells in culture selects rapidly against mutated cells, driving the lines towards a genetic state resembling human ES cells., Reprogramming somatic cells to pluripotency can be achieved by forced expression of a defined set of factors (1,2). Several methods have been developed for generating human iPS cells, such as [...]

Published
2011
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36. Generation of a set of isogenic iPSC lines carrying all APOE genetic variants (Ɛ2/Ɛ3/Ɛ4) and knock-out for the study of APOE biology in health and disease

Author

Schmid, Benjamin, primary, Holst, Bjørn, additional, Clausen, Christian, additional, Bahnassawy, Lamiaa, additional, Reinhardt, Peter, additional, Bakker, Margot H.M., additional, Díaz-Guerra, Eva, additional, Vicario, Carlos, additional, Martino-Adami, Pamela V., additional, Thoenes, Michaela, additional, Ramirez, Alfredo, additional, Fliessbach, Klaus, additional, Grezella, Clara, additional, Brüstle, Oliver, additional, Peitz, Michael, additional, Ebneth, Andreas, additional, and Cabrera-Socorro, Alfredo, additional

Published
2021
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37. GDAP1 loss of function inhibits the mitochondrial pyruvate dehydrogenase complex by altering the actin cytoskeleton

Author

Wolf, Christina, primary, Pouya, Alireza, additional, Bitar, Sara, additional, Pfeiffer, Annika, additional, Bueno, Diones Caeran, additional, Arndt, Sabine, additional, Tenzer, Stefan, additional, Ritz, Sandra, additional, Schwirz, Jonas, additional, Dobrindt, Kristina, additional, Peitz, Michael, additional, Brustle, Oliver, additional, Bello, Federica Dal, additional, Vianello, Caterina, additional, Giacomello, Marta, additional, Hanschmannn, Eva-Maria, additional, Boussaad, Ibrahim, additional, Krüger, Rejko, additional, and Methner, Axel, additional

Published
2021
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38. High Density Bioprocessing of Human Pluripotent Stem Cells by Metabolic Control and in Silico Modeling

Author

Manstein, Felix, primary, Ullmann, Kevin, additional, Kropp, Christina, additional, Halloin, Caroline, additional, Triebert, Wiebke, additional, Franke, Annika, additional, Farr, Clara-Milena, additional, Sahabian, Anais, additional, Haase, Alexandra, additional, Breitkreuz, Yannik, additional, Peitz, Michael, additional, Brüstle, Oliver, additional, Kalies, Stefan, additional, Martin, Ulrich, additional, Olmer, Ruth, additional, and Zweigerdt, Robert, additional

Published
2021
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40. Comparative profiling of N-respirasomes predicts aberrant mitochondrial bioenergetics at single-cell resolution

Author

Bertan, Fabio, primary, Wischhof, Lena, additional, Scifo, Enzo, additional, Guranda, Mihaela, additional, Jackson, Joshua, additional, Marsal-Cots, Anais, additional, Piazzesi, Antonia, additional, Stork, Miriam, additional, Peitz, Michael, additional, Prehn, Jochen H.M., additional, Ehninger, Dan, additional, Nicotera, Pierluigi, additional, and Bano, Daniele, additional

Published
2020
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41. Identification of APOE phenotypes in microglia and neurons derived from isogenic hips cells: A study of the IMI ADAPTED consortium

Author

Bahnassawy, Lamiaa, primary, Buchheit, Johanna, additional, Curado, Marco Rocha, additional, Ried, Janina S., additional, Sáez, María Eugenia, additional, Nicolas, Armel, additional, Rao, Francesco, additional, Kaplan, Charlotte, additional, Mohler, Eric G., additional, Lee, Heyne, additional, Untucht, Christopher, additional, Korffmann, Juergen, additional, Lakics, Viktor, additional, Cik, Miroslav, additional, Grezella, Clara, additional, Brustle, Oliver, additional, Peitz, Michael, additional, Mañes, Santos, additional, Ramaswamy, Gayathri, additional, Socorro, Alfredo Cabrera, additional, Bakker, Margot H.M., additional, and Reinhardt, Peter, additional

Published
2020
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42. Modelling AD‐relevant pathophysiology in neurons, astrocytes and microglia from two complete sets of isogenic iPSC lines generated by the ADAPTED project

Author

Socorro, Alfredo Cabrera, primary, Schmid, Benjamin, additional, Clausen, Christian, additional, Holst, Bjørn, additional, Peitz, Michael, additional, Grezella, Clara, additional, Brustle, Oliver, additional, Bahnassawy, Lamiaa, additional, Bennett, Keiryn, additional, Ried, Janina S., additional, Sáez, María Eugenia, additional, Ramaswamy, Gayathri, additional, Ruiz, Agustin, additional, Bakker, Margot H.M., additional, Vicario, Carlos, additional, Lourenco, Teresa Silva, additional, and Reinhardt, Peter, additional

Published
2020
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43. The StemCellFactory: A Modular System Integration for Automated Generation and Expansion of Human Induced Pluripotent Stem Cells

Author

Elanzew, Andreas, primary, Nießing, Bastian, additional, Langendoerfer, Daniel, additional, Rippel, Oliver, additional, Piotrowski, Tobias, additional, Schenk, Friedrich, additional, Kulik, Michael, additional, Peitz, Michael, additional, Breitkreuz, Yannik, additional, Jung, Sven, additional, Wanek, Paul, additional, Stappert, Laura, additional, Schmitt, Robert H., additional, Haupt, Simone, additional, Zenke, Martin, additional, König, Niels, additional, and Brüstle, Oliver, additional

Published
2020
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46. Impact of Zika Virus Infection on Human Neural Stem Cell MicroRNA Signatures

Author

Tabari, Denna, primary, Scholl, Catharina, additional, Steffens, Michael, additional, Weickhardt, Sandra, additional, Elgner, Fabian, additional, Bender, Daniela, additional, Herrlein, Marie-Luise, additional, Sabino, Catarina, additional, Semkova, Vesselina, additional, Peitz, Michael, additional, Till, Andreas, additional, Brüstle, Oliver, additional, Hildt, Eberhard, additional, and Stingl, Julia, additional

Published
2020
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50. Investigating the Role of APOE Genotype in Human Microglia.

Author

Ulm, Brittany, Amin, Najaf, Bahnassawy, Lamiaa, Reinhardt, Peter, Curado, Marco Rocha, Peitz, Michael, Fliessbach, Klaus, Ramirez, Alfredo, Ruiz, Agustin, Ried, Janina S, Bakker, Margot H.M., and Van Duijn, Cornelia M

Abstract

Background: Although the pivotal role of apolipoprotein E () in AD has been recognized for three decades, its function in different brain cells is far from understood. Knockout studies of the APOE gene may shed light of the function of ApoE. The aim of the present study was to unravel its function in induced pluripotent stem cell (iPSC) derived microglia. Method: We studied two human iPSC‐derived microglia cell cultures, one derived from a healthy control (Bioni010‐C – endogenous genotype apolipoprotein E34 (APOE34)) and one from an AD patient (UKBi011‐A – endogenous genotype APOE44) and their edited isogenic cell‐lines (for UKBi011‐A, APOE22 and APOE33 and for Bioni010‐C, hemizygous due to gene editing, APOE2‐ and APOE3‐ (32971461, 29753274)). Additionally, APOE KO lines were generated from both backgrounds. We performed whole genome transcriptomic (IlluminaTruSequencing) and proteomic (TMT‐labelled Nano‐LC peptidomic MS) analysis (n = six per genotype). For transcriptomic data, log2‐normalized intensities were analysed with (in R); there were 13115 unique transcripts. For proteomics analysis, after global normalization, the data were locally normalized (by protein), the limma package was used to calculate FDR‐corrected p‐values (1% cut off); there were 3975 (Bioni010 samples) and 4349 (UKBi011 samples) proteins. In the quality control analysis for the proteomics, we excluded one outlier of the six per line based on principle component/Euclidean distance analysis. We extracted pairwise comparisons to APOE KO in transcriptomic (|logFC|>0.5, FDR <0.05) and proteomic (|logFC|>0 and FDR <0.05) data. Result: Twenty transcripts (including APOE) were concordantly differentially expressed across all comparisons between APOE‐expressing and KO. These are broadly involved in processes related to mitochondrial function/organization, apoptosis, transcriptional regulation, immune functions, extracellular matrix, and energy metabolism among others. Seven proteins were concordantly differentially expressed across all pairwise comparisons with APOE KO, involved in extracellular matrix, immune signalling, energy metabolism, and cytoskeletal structure. Conclusion: Our study finds APOE knockout leads to a number of changes related to immune, mitochondrial, and extracellular matrix genes, suggesting that APOE in human iPSC‐derived microglia cells influences immune and mitochondrial functions. [ABSTRACT FROM AUTHOR]

Published
2023
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