scholarly journals Novel Human Podocyte Cell Model Carrying G2/G2 APOL1 High-Risk Genotype

Cells ◽  
2021 ◽  
Vol 10 (8) ◽  
pp. 1914
Author(s):  
Pepe M. Ekulu ◽  
Oyindamola C. Adebayo ◽  
Jean-Paul Decuypere ◽  
Linda Bellucci ◽  
Mohamed A. Elmonem ◽  
...  
Keyword(s):  
High Risk ◽  
Cell Lines ◽  
Cell Model ◽  
Kidney Diseases ◽  
Poly I:C ◽  
Autophagic Flux ◽  
Independent Manner ◽  
Polycytidylic Acid ◽  
Functional Features

Apolipoprotein L1 (APOL1) high-risk genotypes (HRG), G1 and G2, increase the risk of various non-diabetic kidney diseases in the African population. To date, the precise mechanisms by which APOL1 risk variants induce injury on podocytes and other kidney cells remain unclear. Trying to unravel these mechanisms, most studies have used animal or cell models created by gene editing. We developed and characterised conditionally immortalised human podocyte cell lines derived from urine of a donor carrying APOL1 HRG G2/G2. Following induction of APOL1 expression by polyinosinic-polycytidylic acid (poly(I:C)), we assessed functional features of APOL1-induced podocyte dysfunction. As control, APOL1 wild type (G0/G0) podocyte cell line previously generated from a Caucasian donor was used. Upon exposure to poly(I:C), G2/G2 and G0/G0 podocytes upregulated APOL1 expression resulting in podocytes detachment, decreased cells viability and increased apoptosis rate in a genotype-independent manner. Nevertheless, G2/G2 podocyte cell lines exhibited altered features, including upregulation of CD2AP, alteration of cytoskeleton, reduction of autophagic flux and increased permeability in an in vitro model under continuous perfusion. The human APOL1 G2/G2 podocyte cell model is a useful tool for unravelling the mechanisms of APOL1-induced podocyte injury and the cellular functions of APOL1.

Pre-clinical evaluation of PV-10 for in vitro anti-tumor activity in refractory and high-risk adult solid tumors.

2021 ◽  
Vol 39 (15_suppl) ◽  
pp. e14544-e14544
Author(s):  
Son Tran ◽  
Satbir Thakur ◽  
Mohit Jain ◽  
Chunfen Zhang ◽  
Aru Narendran
Keyword(s):  
High Risk ◽  
Tumor Cell ◽  
Solid Tumors ◽  
Cell Lines ◽  
Therapeutic Agent ◽  
Intratumoral Injection ◽  
Tumor Cell Lines ◽  
Clinical Testing ◽  
Anti Tumor Activity

e14544 Background: PV-10 (10% rose bengal disodium; 4,5,6,7-tetrachloro-2’,4’,5’,7’-tetraiodofluorescein) is a novel therapeutic agent previously shown to have potent anti-tumor activity following intratumoral injection in melanoma and refractory neuroblastoma, and currently is undergoing clinical testing as a single-agent for refractory metastatic neuroendocrine cancer (NCT02693067) and in combination with checkpoint inhibitors for metastatic melanoma (NCT02557321) and metastatic uveal melanoma (NCT00986661). Given the established clinical efficacy of PV-10 in adult melanoma and hepatic cancers via intratumoral injection, there is a need to evaluate the therapeutic potential of PV-10 in high-risk and refractory adult solid tumors via systemic administration. Our study aims to identify the clinical potential of systemically-delivered PV-10 by first generating prerequisite in vitro data for adult malignancies. Methods: Cytotoxicity assays were performed using the Alamar Blue assay to study the effects of PV-10 in vitro 96-hours post-treatment against a panel of adult solid tumor cell lines derived from breast (MCF-7, T-47D, MDA-MB-231), colorectal (HCT-116, LoVo, T-84), head and neck (CAL-27, Detroit-562, FaDu, UM-SCC-1), and testicular (NCC-IT, NTERA-2, TCAM-2) tissues. Light microscopy and Western blotting were used to investigate apoptosis induction and target modulation in tumor cells after PV-10 treatment. Results: In vitro results from our study demonstrate that PV-10 is cytotoxic at pharmacologically relevant concentrations across the indicated cell lines. Specifically, tumor cell lines originating from testicular tissues were highly sensitive to PV-10 treatment (Mean ± SD IC50: 37.5 ± 16.4 µM; n = 3) compared to breast (117.5 ± 71.0 µM; n = 3), colorectal (64.79 µM; n = 3), and head and neck (106.6 ± 29.2 µM; n = 4) cell lines. Western blot analyses showed dose- and time-dependent activation of pro-apoptotic protein markers in caspase-3 and PARP cleavage, indicating drug-induced apoptosis. Conclusions: This study provides the first pre-clinical results of PV-10 as a novel systemically-delivered therapeutic agent for a range of high-risk and refractory adult solid tumors. Data obtained from our in vitro experiments using a broad repertoire of cell lines that represent diverse molecular and phenotypic subtypes of solid tumors in adults can serve as prerequisite pre-clinical data to establish clinical testing in these populations.

scholarly journals Impact of extracellular matrix properties on neuroblastoma genomic heterogeneity

2020 ◽  
Author(s):  
Amparo López-Carrasco ◽  
Susana Martín-Vañó ◽  
Rebeca Burgos-Panadero ◽  
Ezequiel Monferrer ◽  
Ana P Berbegall ◽  
...  
Keyword(s):  
Extracellular Matrix ◽  
High Risk ◽  
Cell Lines ◽  
Neuroblastoma Cell ◽  
Chromosome 9 ◽  
Future Research ◽  
Knock Out ◽  
Specific Distribution

Abstract Background Increased tissue stiffness is a common feature of malignant solid tumors, often associated with metastasis and poor patient outcomes. Vitronectin, as an extracellular matrix anchorage glycoprotein related to a stiff matrix, is present in a particularly increased quantity and specific distribution in high-risk neuroblastoma. Furthermore, as cells can sense and transform the proprieties of the extracellular matrix into chemical signals through mechanotransduction, genotypic changes related to stiffness are possible. Methods We have applied high density SNPa and NGS techniques to in vivo and in vitro models (orthotropic xenograft vitronectin knock-out mice and 3D bioprinted hydrogels with different stiffness) using two representative neuroblastoma cell lines (the MYCN amplified SK-N-BE(2) and the ALK mutated SH-SY5Y), to discern how tumor genomics patterns and clonal heterogeneity of both cell lines are affected. Results We describe a remarkable subclonal selection of some genomic aberrations in SK-N-BE(2) cells grown in knock-out vitronectin xenograft mice that also emerged when cultured for long times in stiff hydrogels. Specially, we detected an enlarged subclonal cell population with chromosome 9 aberrations in both models. Similar abnormalities were found in human high-risk neuroblastoma with MYCN amplification. Genomics of the SH-SY5Y cell line remained stable when cultured in both models. Conclusions Focus on heterogeneous intratumor segmental chromosome aberrations and mutations, as a mirror image of tumor microenvironment, is a vital area of future research.

scholarly journals Basolateral activation with TLR agonists induces polarized cytokine release and reduces barrier function in RPE in vitro

2020 ◽  
Author(s):  
Laura Terheyden ◽  
Johann Roider ◽  
Alexa Klettner
Keyword(s):  
Cell Viability ◽  
Barrier Function ◽  
Neuronal Cell ◽  
Poly I:C ◽  
Rpe Cells ◽  
Ussing Chambers ◽  
Tlr Agonists ◽  
Danger Signals ◽  
Polycytidylic Acid

Abstract Purpose Systemic inflammation may be of importance in the development of AMD. RPE cells can recognize danger signals with toll-like receptors (TLR) and may react in a pro-inflammatory manner. In this study, we evaluated the basal and apical secretions of TNFα, IL-6, and IL-1β in primary RPE cells and RPE/choroid explant cells under basolateral stimulation of TLR2, 3, and 4; the effects on barrier function; and their influence on neuronal cell viability. Methods RPE/choroid tissue explants were prepared from porcine eyes and cultivated in modified Ussing chambers; primary porcine RPE cells on transwell plates. Cells were basally stimulated with agonists Pam2CSK4 (Pam; TLR2), polyinosinic/polycytidylic acid (Poly I:C; TLR3), and lipopolysaccharide (LPS; TLR4) for 24 h. Supernatants were evaluated with ELISA for cytokines TNFα, IL-6, and IL-1β. Apical supernatants were applied to SHSY-5Y cells, and cell viability was evaluated in MTT assay. Barrier function was tested by measuring transepithelial electrical resistance (TER) and occludin immunostaining. Results None of the tested TLR agonists was toxic on RPE cells after 24 h of exposure. Unstimulated RPE cells secreted hardly any cytokines. Pam induced IL-6, IL-1ß, and TNFα on the basal and apical sides at all concentrations tested. Poly I:C induced IL-6 and TNFα primarily at the basal side at lower but on both sides at higher concentrations. LPS induced IL-6, IL-1ß, and TNFα apically and basally at all concentrations tested. In the RPE/choroid, a strong difference between apical and basal secretions could be found. IL-6 was constitutively secreted basally, but not apically, but was induced by all agonists on both sides. IL-1ß and TNFα alpha were strongly induced on the basal side by all agonists. TER was reduced by all agonists, with Pam and LPS being effective in all concentrations tested. Occludin expression was unaltered, but the distribution was influenced by the agonists, with a less distinct localization at the cell borders after treatment. None of the agonists or supernatants of treated RPE and RPE/choroid organ cultures exerted any effect on viability of SHSY-5Y cells. Conclusions Danger signals activating TLRs can induce polarized cytokine expression and contribute to the loss of barrier function in the RPE.

scholarly journals AGE-ASSOCIATED INCREASE IN KYNURENINE INHIBITS AUTOPHAGY AND PROMOTES SENESCENCE IN BONE MARROW STEM CELLS

2019 ◽  
Vol 3 (Supplement_1) ◽  
pp. S956-S956
Author(s):  
Dmitry Kondrikov ◽  
Ahmed Elmansi ◽  
Xing-ming Shi ◽  
Sadanand Fulzele ◽  
Meghan mcGee-Lawrence ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Cell Lines ◽  
Free Radical Oxidation ◽  
Autophagic Flux ◽  
Galactosidase Activity ◽  
Activity Increase ◽  
Age Related ◽  
Old Mice

Abstract Aging is characterized by progressive decline of tissue functionality and age-related accumulation of cellular and molecular damage leading to multiple pathological conditions including osteoporosis and increased fracture rates. Bone marrow mesenchymal stem cells (BMSCs) play an essential role in bone development and regeneration with their ability to undergo differentiation into osteogenic, chondrogenic, myogenic, and adipogenic cell lines cell lines. Proliferation rate of MSC is declined with ages leading to misbalance between bone resorption and osteogenesis. A recently identified age-related change in bone and bone marrow is an accumulation of tryptophan metabolite, kynurenine (KYN), catalyzed by indoleamine-2,3-dioxygenase (IDO) or free-radical oxidation. We previously reported that KYN suppresses autophagy in BMSC. We now investigated the effect of KYN on BMSC cellular function. In vitro treatment of murine BMSC isolated from 18 month old mice with kynurenine disrupted autophagy suppressing autophagic flux. KYN treatment also induces senescence in BMSC marked by increase in SA-beta-galactosidase activity as well as, increased expression of senescence marker p21. Inhibition of Aryl Hydrocarbon Receptor (AhR) by AhR inhibitors significantly reduced β-galactosidase activity increase and blocked p21 expression elevation suggesting that KYN induces senescence in BMSC through the AhR pathway. Interestingly, KYN treatment failed to up-regulate beta-gal activity in BMSC isolated from 6 month-old mice suggesting that KYN induction of senescence maybe potentiated with aging. Together those data support the idea that KYN shifts the homeostatic balance of BMSC during prolonged stress or in aging through downregulating survival autophagic pathway in favor of driving BMSCs to senescence.

scholarly journals Combinations of TLR Ligands: A Promising Approach in Cancer Immunotherapy

2013 ◽  
Vol 2013 ◽  
pp. 1-14 ◽  
Author(s):  
Saskia Stier ◽  
Claudia Maletzki ◽  
Ulrike Klier ◽  
Michael Linnebacher
Keyword(s):  
Tumor Growth ◽  
Tumor Cells ◽  
Cell Lines ◽  
Immune Cells ◽  
Human Lymphocytes ◽  
Growth Control ◽  
Poly I:C ◽  
The Impact

Toll-like receptors (TLRs), a family of pattern recognition receptors recognizing molecules expressed by pathogens, are typically expressed by immune cells. However, several recent studies revealed functional TLR expression also on tumor cells. Their expression is a two-sided coin for tumor cells. Not only tumor-promoting effects of TLR ligands are described but also direct oncopathic and immunostimulatory effects. To clarify TLRs’ role in colorectal cancer (CRC), we tested the impact of the TLR ligands LPS, Poly I:C, R848, and Taxol on primary human CRC cell lines (HROC40, HROC60, and HROC69)in vitroandin vivo(CT26). Taxol, not only a potent tumor-apoptosis-inducing, but also TLR4-activating chemotherapeutic compound, inhibited growth and viability of all cell lines, whereas the remaining TLR ligands had only marginal effects (R848 > LPS > Poly I:C). Combinations of the substances here did not improve the results, whereas antitumoral effects were dramatically boosted when human lymphocytes were added. Here, combining the TLR ligands often diminished antitumoral effects.In vivo, best tumor growth control was achieved by the combination of Taxol and R848. However, when combined with LPS, Taxol accelerated tumor growth. These data generally prove the potential of TLR ligands to control tumor growth and activate immune cells, but they also demonstrate the importance of choosing the right combinations.

scholarly journals Prior induction of cellular antiviral pathways limits frog virus 3 replication in two permissive Xenopus laevis skin epithelial-like cell lines

2021 ◽  
Author(s):  
Maxwell P. Bui-Marinos ◽  
Lauren A. Todd ◽  
Marie-Claire D. Wasson ◽  
Brandon E. E. Morningstar ◽  
Barbara A. Katzenback
Keyword(s):  
Epithelial Cells ◽  
Xenopus Laevis ◽  
Cell Lines ◽  
Frog Skin ◽  
Poly I:C ◽  
Amphibian Skin ◽  
Amphibian Species ◽  
Frog Virus 3 ◽  
Frog Virus

Frog virus 3 (FV3) causes mortality in a range of amphibian species. Despite the importance of the skin epithelium as a first line of defence against FV3, the interaction between amphibian skin epithelial cells and FV3 remains largely uncharacterized. Here, we used newly established Xenopus laevis skin epithelial-like cell lines, Xela DS2 and Xela VS2, to study the susceptibility and permissiveness of frog skin epithelial cells to FV3, and the innate immune antiviral and proinflammatory gene regulatory responses of these cells to FV3. Both cell lines are susceptible and permissive to FV3, yet do not exhibit appreciable transcript levels of scavenger receptors recently demonstrated to be used by FV3 for cellular entry. Xela DS2 and Xela VS2 upregulate antiviral and proinflammatory cytokine transcripts in response to poly(I:C) but not to FV3 or UV-inactivated FV3. Poly(I:C) pretreatment limited FV3 replication and FV3-induced cytopathic effects in both cell lines. Thus, Xela DS2 and Xela VS2 can support FV3 propagation, represent in vitro systems to investigate antiviral responses of frog skin epithelial cells, and are novel tools for screening compounds that initiate effective antiviral programs to limit FV3 replication.

scholarly journals HPVE6-USP46 Mediated Cdt2 Stabilization Reduces Set8 Mediated H4K20-Methylation to Induce Gene Expression Changes

Cancers ◽  
2021 ◽  
Vol 14 (1) ◽  
pp. 30
Author(s):  
Shashi Kiran ◽  
Briana Wilson ◽  
Shekhar Saha ◽  
Julia Ann Graff ◽  
Anindya Dutta
Keyword(s):  
Gene Expression ◽  
Amino Acid ◽  
High Risk ◽  
Cell Lines ◽  
Deletion Mapping ◽  
Helix Loop Helix ◽  
Induced Tumors ◽  
Transformed Cell Lines ◽  
High Risk Hpv

E6 from high-risk strains of HPV is well known to transform cells by deregulating p53. We reported that in HPV transformed cell-lines E6 from high-risk HPV can recruit the USP46 deubiquitinase to substrates such as Cdt2 and stabilize the latter, and that USP46 is important for growth of HPV induced tumors in xenografts. Here we show that in cervical cancer biopsies the stabilization of Cdt2 in the HPV-induced cancers leads to the decrease of a CRL4-Cdt2 substrate, the histone H4K20 mono-methyltransferase Set8, and decrease in H4K20me1 or H4K20me3 that can be detected by immunohistochemistry. In HPV-transformed cancer cell lines in vitro, knockdown of E6 decreases Cdt2 and increases Set8. Co-knockdown of Set8 shows that some of the gene expression changes produced by E6 knockdown is due to the increase of Set8. EGFR and EGFR regulated genes were identified in this set of genes. Turning to the mechanism by which E6 stabilizes Cdt2, we find that a purified E6:USP46 complex has significantly more de-ubiquitinase activity in vitro than USP46 alone, demonstrating that E6 can directly interact with USP46 in the absence of other proteins and that it can substitute for the known activators of USP46, UAF1 and WDR20. Deletion mapping of Cdt2 shows that there are three discrete, but redundant, parts of the substrate that are essential for stabilization by E6: USP46. The helix–loop–helix region or the WD40 repeat driven beta-propeller structure of Cdt2 are dispensable for the stabilization implying that interaction with DDB1 (and the rest of the CRL4 complex) or with the substrate of the CRL4-Cdt2 E3 ligase is not necessary for E6:USP46 to interact with and stabilize Cdt2. The identification of 50 amino acid stretches in the 731 amino acid Cdt2 protein as being important for the stabilization by E6 underlines the specificity of the process. In summary, E6 activates the deubiquitinase activity of USP46, stabilizes Cdt2 utilizing multiple sites on Cdt2, and leads to degradation of Set8 and changes in gene-expression in HPV-transformed cells.

scholarly journals The Pro-Tumorigenic Vascular Niche Sustains the T-Cell Acute Lymphoblastic Leukemia Phenotype and Fosters Resistance to Therapy

Blood ◽  
2016 ◽  
Vol 128 (22) ◽  
pp. 279-279
Author(s):  
Filomena Di Giacomo ◽  
Xujun Wang ◽  
Danilo Fiore ◽  
Lorena Consolino ◽  
Jude Phillip ◽  
...  
Keyword(s):  
High Risk ◽  
Cell Lines ◽  
Ex Vivo ◽  
Lymphoblastic Leukemia ◽  
Serum Cytokine ◽  
Nsg Mice ◽  
Cell Acute Lymphoblastic Leukemia ◽  
Free Media

Abstract Introduction. T-cell acute lymphoblastic leukemia (T-ALL) is a genetically heterogeneous malignancy associated with a high risk of treatment failure. Efforts to improve outcomes have focused on underlying genetic defects. However, new evidence suggests that the microenvironment can foster drug resistance/relapses. Identification of factors that contribute to microenvironment-mediated chemo-refractoriness remains an important challenge. Here, we sought to construct an in vitro platform to dissect tumor-host interactions and to optimize drug treatments using Patient-Derived Tumor Xenograft models (PDTX) of high risk adult T-ALL and engineered human endothelial cells. Methods. T-ALL PDTX were established and serially passaged in NSG mice. Engraftment was monitored by flow cytometry of peripheral blood and/or MRI. Mice were sacrificed and leukemic cells were harvested from the spleen/bone marrow. To determine the ex vivo growing conditions, we first cultured a panel of 8 "bona fide" T-ALL cell lines and 11 PDTX cells alone in complete RPMI 20% FCS supplemented with IL2, IL12, IL15 and IL7; or co-cultured with human E4-ORF1 endothelial cells (ECs) without ILs in complete RPMI 20% FCS or serum/cytokine-free media. CDK4/6, MEK, PI3K and JAK inhibitors were used at 0.1 and 1 µM alone and in combination. Cell titer glo, cell titer blue, Annexin-V and S-cell cycle analysis were used as readouts. Total RNA from cells before and after co-culture was extracted for paired-end RNA sequencing on an Illumina HiSeq2500. Results. To study the supporting role of ECs, we first co-cultured ECs with T-ALL cell lines in vitro (serum/cytokine free co-culture) and showed that ECs could reproducibly sustain the viability of 3/8 cell lines (Loucy, KOPTK1, P12 Ichikawa) serum/cytokine-free media. A partial rescue was seen with 3 additional lines (HPB-ALL, CCRF-CEM, CUTLL1), while 2 (KE37, DND41) underwent massive cell death. We next tested whether either ILs or CXCL12 could provide anti-apoptotic signals and demonstrated that KOPTK1 and Loucy were only partially rescued by IL15 or CXCL12. Conversely, IL7, although capable of inducing a robust upregulation of pSTAT5, had no effect (CCRF-CEM and CUTLL1). We then characterized 11 PDTX from 15 high-risk adult T-ALL patients. All PDTX were serially propagated and caused T-ALL in subsequent NSG mice (massive spleen and bone marrow infiltration with extensive paravertebral mass associated with paralysis and multi-organ involvement). Genomic analysis (RNA-seq) demonstrated a high concordance between primary (pre-implant) and PDTX samples. All of them were extensively studied ex vivo, demonstratingthat T-ALL PDTX cells could only survive in ILs supplemented media, even better if enriched of growth factors and supplements for the expansion of human hematopoietic cells. However, when PDTX cells were treated with targeting compounds they all underwent massive apoptosis. Conversely, individual PDTX T-ALL could be selectively rescued by ECs, allowing the construction of individual drug response profile. To extend these data, 7 PDX T-ALL samples were screened against a 430-targeted compound library in supplemented RPMI or Stem Span media. Results indicated differential cell killing and gain (NFKB, BTK) and loss (TP-53, IGF-1R) of targets. Conclusions. These data clearly demonstrate a key role of aberrantly activated vascular niche in T-ALL cell maintenance and drug resistance. We envisage that drug screening of EC+T-ALL will lead to the identification of actionable targets in each individual patient. Our report supports the potential for future personalized curative strategies aimed at targeting both tumor cells and host tissue supporting niche elements disrupting pro-tumorigenic signals within leukemia cell niches. Disclosures Foà: Roche: Consultancy, Speakers Bureau; Genentech: Consultancy; Janssen: Consultancy, Speakers Bureau; Gilead: Consultancy, Speakers Bureau; Amgen: Consultancy, Speakers Bureau; Celgene: Consultancy, Speakers Bureau; BMS: Consultancy; Pfizer: Speakers Bureau; Ariad: Speakers Bureau. Rafii:Angiocrine Bioscience: Equity Ownership, Other: Non-paid consultant.

scholarly journals Anti-cancer agent 3-bromopyruvate reduces growth of MPNST and inhibits metabolic pathways in a representative in-vitro model

BMC Cancer ◽  
2020 ◽  
Vol 20 (1) ◽  
Author(s):  
Christian Linke ◽  
Markus Wösle ◽  
Anja Harder
Keyword(s):  
Dehydrogenase Activity ◽  
Cell Lines ◽  
Cancer Cell ◽  
Partial Resistance ◽  
Cell Model ◽  
Lactate Production ◽  
Mitochondrial Activity ◽  
Nerve Sheath Tumor ◽  
P53 Inactivation

Abstract Background Anticancer compound 3-bromopyruvate (3-BrPA) suppresses cancer cell growth via targeting glycolytic and mitochondrial metabolism. The malignant peripheral nerve sheath tumor (MPNST), a very aggressive, therapy resistant, and Neurofibromatosis type 1 associated neoplasia, shows a high metabolic activity and affected patients may therefore benefit from 3-BrPA treatment. To elucidate the specific mode of action, we used a controlled cell model overexpressing proteasome activator (PA) 28, subsequently leading to p53 inactivation and oncogenic transformation and therefore reproducing an important pathway in MPNST and overall tumor pathogenesis. Methods Viability of MPNST cell lines S462, NSF1, and T265 in response to increasing doses (0–120 μM) of 3-BrPA was analyzed by CellTiter-Blue® assay. Additionally, we investigated viability, reactive oxygen species (ROS) production (dihydroethidium assay), nicotinamide adenine dinucleotide dehydrogenase activity (NADH-TR assay) and lactate production (lactate assay) in mouse B8 fibroblasts overexpressing PA28 in response to 3-BrPA application. For all experiments normal and nutrient deficient conditions were tested. MPNST cell lines were furthermore characterized immunohistochemically for Ki67, p53, bcl2, bcl6, cyclin D1, and p21. Results MPNST significantly responded dose dependent to 3-BrPA application, whereby S462 cells were most responsive. Human control cells showed a reduced sensitivity. In PA28 overexpressing cancer cell model 3-BrPA application harmed mitochondrial NADH dehydrogenase activity mildly and significantly failed to inhibit lactate production. PA28 overexpression was associated with a functional glycolysis as well as a partial resistance to stress provoked by nutrient deprivation. 3-BrPA treatment was not associated with an increase of ROS. Starvation sensitized MPNST to treatment. Conclusions Aggressive MPNST cells are sensitive to 3-BrPA therapy in-vitro with and without starvation. In a PA28 overexpression cancer cell model leading to p53 inactivation, thereby reflecting a key molecular feature in human NF1 associated MPNST, known functions of 3-BrPA to block mitochondrial activity and glycolysis were reproduced, however oncogenic cells displayed a partial resistance. To conclude, 3-BrPA was sufficient to reduce NF1 associated MPNST viability potentially due inhibition of glycolysis which should lead to the initiation of further studies and promises a potential benefit for NF1 patients.

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