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1. Classical Chemometrics Methods Applied for Clinical Data Analysis

Author

Bleiziffer, R., Culea, M., Sarbu, C., Podea, P., Suvar, S., Iordache, A., Mesaros, C., Magjarevic, Ratko, Editor-in-chief, Ładyżyński, Piotr, Series editor, Ibrahim, Fatimah, Series editor, Lacković, Igor, Series editor, Rock, Emilio Sacristan, Series editor, Vlad, Simona, editor, and Roman, Nicolae Marius, editor

Published
2017
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3. Gene-environment interactions increase the risk of paediatric-onset multiple sclerosis associated with household chemical exposures

Author

Nasr, Z, Schoeps, VA, Ziaei, A, Virupakshaiah, A, Adams, C, Casper, TC, Waltz, M, Rose, J, Rodriguez, M, Tillema, J-M, Chitnis, T, Graves, JS, Benson, L, Rensel, M, Krupp, L, Waldman, AT, Weinstock-Guttman, B, Lotze, T, Greenberg, B, Aaen, G, Mar, S, Schreiner, T, Hart, J, Simpson-Yap, S, Mesaros, C, Barcellos, LF, Waubant, E, Nasr, Z, Schoeps, VA, Ziaei, A, Virupakshaiah, A, Adams, C, Casper, TC, Waltz, M, Rose, J, Rodriguez, M, Tillema, J-M, Chitnis, T, Graves, JS, Benson, L, Rensel, M, Krupp, L, Waldman, AT, Weinstock-Guttman, B, Lotze, T, Greenberg, B, Aaen, G, Mar, S, Schreiner, T, Hart, J, Simpson-Yap, S, Mesaros, C, Barcellos, LF, and Waubant, E

Abstract

BACKGROUND: We previously reported an association between household chemical exposures and an increased risk of paediatric-onset multiple sclerosis. METHODS: Using a case-control paediatric multiple sclerosis study, gene-environment interaction between exposure to household chemicals and genotypes for risk of paediatric-onset multiple sclerosis was estimated.Genetic risk factors of interest included the two major HLA multiple sclerosis risk factors, the presence of DRB1*15 and the absence of A*02, and multiple sclerosis risk variants within the metabolic pathways of common household toxic chemicals, including IL-6 (rs2069852), BCL-2 (rs2187163) and NFKB1 (rs7665090). RESULTS: 490 paediatric-onset multiple sclerosis cases and 716 controls were included in the analyses. Exposures to insect repellent for ticks or mosquitos (OR 1.47, 95% CI 1.06 to 2.04, p=0.019), weed control products (OR 2.15, 95% CI 1.51 to 3.07, p<0.001) and plant/tree insect or disease control products (OR 3.25, 95% CI 1.92 to 5.49, p<0.001) were associated with increased odds of paediatric-onset multiple sclerosis. There was significant additive interaction between exposure to weed control products and NFKB1 SNP GG (attributable proportions (AP) 0.48, 95% CI 0.10 to 0.87), and exposure to plant or disease control products and absence of HLA-A*02 (AP 0.56; 95% CI 0.03 to 1.08). There was a multiplicative interaction between exposure to weed control products and NFKB1 SNP GG genotype (OR 2.30, 95% CI 1.00 to 5.30) but not for other exposures and risk variants. No interactions were found with IL-6 and BCL-2 SNP GG genotypes. CONCLUSIONS: The presence of gene-environment interactions with household toxins supports their possible causal role in paediatric-onset multiple sclerosis.

Published
2023

7. Sphingolipidome Quantification by Liquid Chromatography- High Resolution Mass Spectrometry: Whole Blood vs. Plasma

Author

Xu P, Mesaros C, and Wang D

Subjects
analytical_chemistry, Chromatography, Chemistry, Plasma, Whole blood
Abstract

Plasma and serum are the most widely used blood-derived biofluids for metabolomics and lipidomics assays, but the isolation of these products from blood may introduce additional bias as indicated by the fact that many analytes that are present at high concentrations in blood cells cannot be measured and evaluated in those samples. Of particular concern, variable hemolysis during the pre-processing of blood products could compromise accurate and reproducible quantification. Compared with plasma or serum, whole blood may be a better alternative due to simplicity of processing. In this study, we provide a comprehensive method for quantification of the whole blood sphingolipidome and the concentrations were compared with those from plasma. Combining a single-phase extraction method with liquid-chromatography high resolution mass spectrometry (R=120, 000), assisted by alkaline hydrolysis, we were able to identify and simultaneously quantify more than 150 sphingolipids. Furthermore, most of sphingolipids remained stable after a freeze/thaw cycle. Whole blood contained a higher concentration of most sphingolipids than corresponding plasma. Moreover, individual variations in the levels of sphingolipids were lower for whole blood than plasma. These findings demonstrate that whole blood could be a better alternative to plasma, and potentially guide the evaluation of sphinglipidome for biomarker discovery.

Published
2021

9. Safety, pharmacodynamics, and potential benefit of omaveloxolone in Friedreich ataxia

Author

Lynch, DR, Farmer, J, Hauser, L, Blair, IA, Wang, QQ, Mesaros, C, Snyder, N, Boesch, S, Chin, M, Delatycki, MB, Giunti, P, Goldsberry, A, Hoyle, C, McBride, MG, Nachbauer, W, O'Grady, M, Perlman, S, Subramony, SH, Wilmot, GR, Zesiewicz, T, Meyer, C, Lynch, DR, Farmer, J, Hauser, L, Blair, IA, Wang, QQ, Mesaros, C, Snyder, N, Boesch, S, Chin, M, Delatycki, MB, Giunti, P, Goldsberry, A, Hoyle, C, McBride, MG, Nachbauer, W, O'Grady, M, Perlman, S, Subramony, SH, Wilmot, GR, Zesiewicz, T, and Meyer, C

Abstract

OBJECTIVE: Previous studies have demonstrated that suppression of Nrf2 in Friedreich ataxia tissues contributes to excess oxidative stress, mitochondrial dysfunction, and reduced ATP production. Omaveloxolone, an Nrf2 activator and NF-kB suppressor, targets dysfunctional inflammatory, metabolic, and bioenergetic pathways. The dose-ranging portion of this Phase 2 study assessed the safety, pharmacodynamics, and potential benefit of omaveloxolone in Friedreich ataxia patients (NCT02255435). METHODS: Sixty-nine Friedreich ataxia patients were randomized 3:1 to either omaveloxolone or placebo administered once daily for 12 weeks. Patients were randomized in cohorts of eight patients, at dose levels of 2.5-300 mg/day. RESULTS: Omaveloxolone was well tolerated, and adverse events were generally mild. Optimal pharmacodynamic changes (noted by changes in ferritin and GGT) were observed at doses of 80 and 160 mg/day. No significant changes were observed in the primary outcome, peak work load in maximal exercise testing (0.9 ± 2.9 W, placebo corrected). At the 160 mg/day dose, omaveloxolone improved the secondary outcome of the mFARS by 3.8 points versus baseline (P = 0.0001) and by 2.3 points versus placebo (P = 0.06). Omaveloxolone produced greater improvements in mFARS in patients that did not have musculoskeletal foot deformity (pes cavus). In patients without this foot deformity, omaveloxolone improved mFARS by 6.0 points from baseline (P < 0.0001) and by 4.4 points versus placebo (P = 0.01) at the 160 mg/day. INTERPRETATION: Treatment of Friedreich ataxia patients with omaveloxolone at the optimal dose level of 160 mg/day appears to improve neurological function. Therefore, omaveloxolone treatment is being examined in greater detail at 150 mg/day for Friedreich ataxia.

Published
2019

10. Abstract P4-10-14: Impact of route of administration of estradiol (oral vs. transdermal) on genotoxic estrogens concentrations in girls with ovarian failure due to Turner syndrome: Potential implications for breast cancer prevention

Author

Colon-Otero, G, primary, Torres-Santiago, L, additional, Santen, R, additional, Mericq, V, additional, Ross, J, additional, Damaso, L, additional, Hossain, J, additional, Wang, Q, additional, Mesaros, C, additional, Blair, IA, additional, and Mauras, N, additional

Published
2019
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16. Amino Acids Profiles in Biological Media

Author

Iordache, A., primary, Horj, E., additional, Ani, A. R., additional, Mesaros, C., additional, Morar, S., additional, Cozar, O., additional, Culea, M., additional, Bunoiu, Madalin, additional, and Malaescu, Iosif, additional

Published
2010
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17. GC-MS Characterization of the Compounds in Some Essential Oils.

Author

Mesaros, C., Culea, M., Iordache, A., and Cozar, O.

Subjects
ESSENTIAL oils, ATTAR of roses, LAVENDER oil, BASIL oil, CHROMATOGRAPHIC analysis, MONOTERPENES, ALIPHATIC compounds, FRAGRANCE of flowers, PSYCHOLOGY
Abstract

The composition of different essential oils (menthe, basil, lavender, rose) was investigated by gas chromatographic-mass spectrometry (GC-MS) method to identify those compounds responsible for the characteristic, pleasant floral or aroma odour or taste of some valuable oils. Three different rose oils presented monoterpenes as fragrance target compounds and some aliphatic hydrocarbons with fixative effects responsible for a longer-lasting odour impression. Chromatography was performed on a 5% phenyl methylpolysiloxane column (15 or 30 m x 0.25 mm I.D., 0.25 μm) operated in suitable temperature programs. [ABSTRACT FROM AUTHOR]

Published
2009

18. Iso[7]LGD<INF>2</INF>−Protein Adducts Are Abundant in Vivo and Free Radical-Induced Oxidation of an Arachidonyl Phospholipid Generates This D Series Isolevuglandin in Vitro

Author

Poliakov, E., Meer, S. G., Roy, S. C., Mesaros, C., and Salomon, R. G.

Abstract

Isolevuglandins (isoLGs) are a family of γ-ketoaldehydes, aka isoketals or neuroketals, that are generated by free radical-induced oxidation of polyunsaturated fatty acid-containing lipids. Because of their high reactivity toward ε-amino groups of lysyl residues, isoLGs are found as protein adducts in vivo. Plasma levels of isoLG-derived protein modifications are orders of magnitude higher than levels of the corresponding isoprostane. This suggests that while isoprostanes are rapidly cleared from the circulation, isoLG−protein adducts accumulate over the lifetime of the protein, which can be weeks, and this may provide a dosimeter for oxidant stress. We now confirm the postulated formation of the first D series isoLG, iso[7]LGD2, by free radical-induced oxidation of 1-palmitoyl-2-arachidonyl-sn-glycero-3-phosphocholine in vitro. We also show that iso[7]LGD2−protein adduct levels in blood are the highest known for an isoLG-derived epitope. They average 30-fold higher than isoLGE2−protein and 3-fold higher than iso[4]LGE2−protein levels. Similarly, iso[7]LGD2-derived epitope levels in oxidized low density lipoprotein are 20 times higher than isoLGE2−protein and five times higher than iso[4]LGE2−protein levels. Previous studies showed that plasma levels of protein-bound E series isoLGs, i.e., isoLGE2 and iso[4]LGE2, are elevated in individuals with atherosclerosis as compared with age-matched controls. Plasma iso[7]LGD2−protein immunoreactivity in individuals with atherosclerosis averages 8.5 ± 3.1 nmol/mL, significantly higher (P = 0.01) than the 3.5 ± 0.1 nmol/mL in healthy controls. Plasma levels of iso[7]LGD2−protein adducts are strongly correlated with iso[4]LGE2− (r = 0.933) and isoLGE2−protein adducts (r = 0.877). This supports the hypothesis that isoLGs are generated in vivo by parallel competing radical-induced pathways.

Published
2004

21. Secondhand smoke inhibits both Cl- and K+ conductances in normal human bronchial epithelial cells

Author

Cohen Noam A, Blair Ian A, Mesaros Clementina, Savitski Amy N, and Kreindler James L

Subjects
Diseases of the respiratory system, RC705-779
Abstract

Abstract Secondhand smoke (SHS) exposure is an independent risk factor for asthma, rhinosinusitis, and more severe respiratory tract infections in children and adults. Impaired mucociliary clearance with subsequent mucus retention contributes to the pathophysiology of each of these diseases, suggesting that altered epithelial salt and water transport may play an etiological role. To test the hypothesis that SHS would alter epithelial ion transport, we designed a system for in vitro exposure of mature, well-differentiated human bronchial epithelial cells to SHS. We show that SHS exposure inhibits cAMP-stimulated, bumetanide-sensitive anion secretion by 25 to 40% in a time-dependent fashion in these cells. Increasing the amount of carbon monoxide to 100 ppm from 5 ppm did not increase the amount of inhibition, and filtering SHS reduced inhibition significantly. It was determined that SHS inhibited cAMP-dependent apical membrane chloride conductance by 25% and Ba2+-sensitive basolateral membrane potassium conductance by 50%. These data confirm previous findings that cigarette smoke inhibits chloride secretion in a novel model of smoke exposure designed to mimic SHS exposure. They also extend previous findings to demonstrate an effect on basolateral K+ conductance. Therefore, pharmacological agents that increase either apical membrane chloride conductance or basolateral membrane potassium conductance might be of therapeutic benefit in patients with diseases related to SHS exposure.

Published
2009
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23. FATTY ACIDS PROFILE IN FISH PLASMA.

Author

Iordache, A., Horj, E., Ani, A. R., Mesaros, C., Morar, S., and Culea, M.

Subjects
*FATTY acids, *EICOSAPENTAENOIC acid, *DOCOSAHEXAENOIC acid, *FISHES, *ALGAE, *PHYTOPLANKTON, *DERIVATIZATION, *CHLOROFORM, *FISH oils
Abstract

Eicosapentaenoic acid (EPA) and docosapentaenoic acid (DHA) are the major fatty acids found in fish. These fatty acids are produced by unicellular algae and phytoplankton which are consumed and then accumulate in fish. [1-3]. The aim of this work was to establish the extraction procedure, the derivatization method, the separation temperature program and the identification of the fatty acids from fish plasma. The extraction of the fatty acids was perfonned by mixing plasma and chloroform:methanol (2:1) during 30 seconds, at room temperature. The identification of fatty acids was obtained by comparison of FAME mass spectra with the mass spectra of fatty acids methyl esters (FAME) kits and of NIST library. [ABSTRACT FROM AUTHOR]

Published
2010

24. HMGB2-induced calreticulin translocation required for immunogenic cell death and ferroptosis of cancer cells are controlled by the nuclear exporter XPO1.

Author

Fan J, Gillespie KP, Mesaros C, and Blair IA

Subjects
Humans, Antineoplastic Agents pharmacology, Cell Line, Tumor, Protein Transport, Calreticulin metabolism, Calreticulin genetics, Exportin 1 Protein, Ferroptosis, HMGB1 Protein metabolism, HMGB1 Protein genetics, HMGB2 Protein metabolism, HMGB2 Protein genetics, Immunogenic Cell Death drug effects, Karyopherins metabolism, Karyopherins genetics, Oxaliplatin pharmacology, Receptors, Cytoplasmic and Nuclear metabolism, Receptors, Cytoplasmic and Nuclear genetics
Abstract

Cisplatin and oxaliplatin cause the secretion of high mobility group box 1 (HMGB1) protein from cancer cells, which is necessary for initiation of immunogenic cell death (ICD). Calreticulin (CRT) translocation from the endoplasmic reticulum to the plasma membrane is also required; oxaliplatin induces this translocation but cisplatin does not. We have discovered that oxaliplatin causes the secretion of both HMGB1 and HMGB2 from the cell nucleus into the extracellular milieu. We previously showed that cisplatin-mediated secretion of HMGB1 is controlled by the nuclear exporter XPO1 (chromosomal maintenance 1; CRM1). We now find that XPO1 regulates oxaliplatin-mediated secretion of both HMGB1 and HMGB2. XPO1 inhibition causes nuclear accumulation of both proteins, inhibition of oxaliplatin-mediated ferroptosis of colon cancer cells, and inhibition of CRT translocation to the plasma membrane of lung and colon cancer cells. Incubation of cancer cells with cell targeted (CT)-HMGB2 confirmed that HMGB2 is required for the CRT translocation. Furthermore, CT-HMGB2 is three orders of magnitude more potent at inducing CRT translocation than oxaliplatin., (© 2024. The Author(s).)

Published
2024
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25. Advances and challenges in liquid chromatography-spectrometry (LC-MS) methodology for quantifying androgens and estrogens in human serum and plasma.

Author

Wang Q and Mesaros C

Abstract

Accurate quantification of androgens and estrogens is critical for elucidating their roles in endocrine disorders and advancing research on their functions in human biology and pathophysiology. This review highlights recent advances and ongoing challenges in liquid chromatography- mass spectrometry (LC- MS) methodology for quantifying androgens and estrogens in human serum and plasma. We summarized current approaches for analyzing the different forms of androgens and estrogens, along with their reported levels in publications from 2010 to the present. These published levels pointed out the inconsistencies in reference intervals across studies. To address these issues, advances in derivatization methods and chromatographic separation techniques are reviewed. Future perspectives for improving the accuracy and consistency of hormone quantification in clinical and research settings were also proposed., Competing Interests: Declaration of Competing Interest Wang and Mesaros have no conflict of interes., (Copyright © 2024. Published by Elsevier Ltd.)

Published
2024
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26. Hypermetabolic state is associated with circadian rhythm disruption in mouse and human cancer cells.

Author

Iascone DM, Zhang X, Brafford P, Mesaros C, Sela Y, Hofbauer S, Zhang SL, Madhwal S, Cook K, Pivarshev P, Stanger BZ, Anderson S, Dang CV, and Sehgal A

Subjects
Animals, Humans, Mice, Cell Line, Tumor, Fibroblasts metabolism, Adenosine Triphosphate metabolism, Circadian Rhythm physiology, Oxidative Phosphorylation, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Pancreatic Neoplasms genetics, Glycolysis
Abstract

Crosstalk between metabolism and circadian rhythms is a fundamental building block of multicellular life, and disruption of this reciprocal communication could be relevant to disease. Here, we investigated whether maintenance of circadian rhythms depends on specific metabolic pathways, particularly in the context of cancer. We found that in adult mouse fibroblasts, ATP levels were a major contributor to signal from a clock gene luciferase reporter, although not necessarily to the strength of circadian cycling. In contrast, we identified significant metabolic control of circadian function across a series of pancreatic adenocarcinoma cell lines. Metabolic profiling of congenic tumor cell clones revealed substantial diversity among these lines that we used to identify clones to generate circadian reporter lines. We observed diverse circadian profiles among these lines that varied with their metabolic phenotype: The most hypometabolic line [exhibiting low levels of oxidative phosphorylation (OxPhos) and glycolysis] had the strongest rhythms, while the most hypermetabolic line had the weakest rhythms. Pharmacological enhancement of OxPhos decreased the amplitude of circadian oscillation in a subset of tumor cell lines. Strikingly, inhibition of OxPhos enhanced circadian rhythms only in the tumor cell line in which glycolysis was also low, thereby establishing a hypometabolic state. We further analyzed metabolic and circadian phenotypes across a panel of human patient-derived melanoma cell lines and observed a significant negative association between metabolic activity and circadian cycling strength. Together, these findings suggest that metabolic heterogeneity in cancer directly contributes to circadian function and that high levels of glycolysis or OxPhos independently disrupt circadian rhythms in these cells., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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27. Bile Acid Metabolism Mediates Cholesterol Homeostasis and Promotes Tumorigenesis in Clear Cell Renal Cell Carcinoma.

Author

Riscal R, Gardner SM, Coffey NJ, Carens M, Mesaros C, Xu JP, Xue Y, Davis L, Demczyszyn S, Vogt A, Olia A, Finan JM, Godfrey J, Schultz DC, Blair IA, Keith B, Marmorstein R, Skuli N, and Simon MC

Subjects
Humans, Animals, Mice, Pentacyclic Triterpenes, Cell Line, Tumor, Apoptosis, Cell Proliferation, Triterpenes pharmacology, Carcinogenesis metabolism, Xenograft Model Antitumor Assays, Carcinoma, Renal Cell metabolism, Carcinoma, Renal Cell pathology, Carcinoma, Renal Cell genetics, Bile Acids and Salts metabolism, Cholesterol metabolism, Kidney Neoplasms metabolism, Kidney Neoplasms pathology, Kidney Neoplasms genetics, Homeostasis
Abstract

Clear cell renal cell carcinoma (ccRCC) incidence has risen steadily over the last decade. Elevated lipid uptake and storage is required for ccRCC cell viability. As stored cholesterol is the most abundant component in ccRCC intracellular lipid droplets, it may also play an important role in ccRCC cellular homeostasis. In support of this hypothesis, ccRCC cells acquire exogenous cholesterol through the high-density lipoprotein receptor SCARB1, inhibition or suppression of which induces apoptosis. Here, we showed that elevated expression of 3 beta-hydroxy steroid dehydrogenase type 7 (HSD3B7), which metabolizes cholesterol-derived oxysterols in the bile acid biosynthetic pathway, is also essential for ccRCC cell survival. Development of an HSD3B7 enzymatic assay and screening for small-molecule inhibitors uncovered the compound celastrol as a potent HSD3B7 inhibitor with low micromolar activity. Repressing HSD3B7 expression genetically or treating ccRCC cells with celastrol resulted in toxic oxysterol accumulation, impaired proliferation, and increased apoptosis in vitro and in vivo. These data demonstrate that bile acid synthesis regulates cholesterol homeostasis in ccRCC and identifies HSD3B7 as a plausible therapeutic target., Significance: The bile acid biosynthetic enzyme HSD3B7 is essential for ccRCC cell survival and can be targeted to induce accumulation of cholesterol-derived oxysterols and apoptotic cell death., (©2024 American Association for Cancer Research.)

Published
2024
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28. Altered lipid homeostasis is associated with cerebellar neurodegeneration in SNX14 deficiency.

Author

Zhou Y, Sanchez VB, Xu P, Roule T, Flores-Mendez M, Ciesielski B, Yoo D, Teshome H, Jimenez T, Liu S, Henne M, O'Brien T, He Y, Mesaros C, and Akizu N

Subjects
Animals, Humans, Male, Mice, Cerebellum metabolism, Cerebellum pathology, Disease Models, Animal, Homeostasis, Lipid Droplets metabolism, Mice, Knockout, Lipid Metabolism, Neurodegenerative Diseases metabolism, Neurodegenerative Diseases pathology, Neurodegenerative Diseases genetics, Purkinje Cells metabolism, Purkinje Cells pathology, Sorting Nexins metabolism, Sorting Nexins genetics
Abstract

Dysregulated lipid homeostasis is emerging as a potential cause of neurodegenerative disorders. However, evidence of errors in lipid homeostasis as a pathogenic mechanism of neurodegeneration remains limited. Here, we show that cerebellar neurodegeneration caused by Sorting Nexin 14 (SNX14) deficiency is associated with lipid homeostasis defects. Recent studies indicate that SNX14 is an interorganelle lipid transfer protein that regulates lipid transport, lipid droplet (LD) biogenesis, and fatty acid desaturation, suggesting that human SNX14 deficiency belongs to an expanding class of cerebellar neurodegenerative disorders caused by altered cellular lipid homeostasis. To test this hypothesis, we generated a mouse model that recapitulates human SNX14 deficiency at a genetic and phenotypic level. We demonstrate that cerebellar Purkinje cells (PCs) are selectively vulnerable to SNX14 deficiency while forebrain regions preserve their neuronal content. Ultrastructure and lipidomic studies reveal widespread lipid storage and metabolism defects in SNX14-deficient mice. However, predegenerating SNX14-deficient cerebella show a unique accumulation of acylcarnitines and depletion of triglycerides. Furthermore, defects in LD content and telolysosome enlargement in predegenerating PCs suggest lipotoxicity as a pathogenic mechanism of SNX14 deficiency. Our work shows a selective cerebellar vulnerability to altered lipid homeostasis and provides a mouse model for future therapeutic studies.

Published
2024
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29. Expression and processing of mature human frataxin after gene therapy in mice.

Author

Rojsajjakul T, Selvan N, De B, Rosenberg JB, Kaminsky SM, Sondhi D, Janki P, Crystal RG, Mesaros C, Khanna R, and Blair IA

Subjects
Humans, Animals, Mice, Heart, Protein Processing, Post-Translational, Liver metabolism, Genetic Therapy, Iron-Binding Proteins metabolism, Frataxin, Friedreich Ataxia therapy, Friedreich Ataxia drug therapy
Abstract

Friedreich's ataxia is a degenerative and progressive multisystem disorder caused by mutations in the highly conserved frataxin (FXN) gene that results in FXN protein deficiency and mitochondrial dysfunction. While gene therapy approaches are promising, consistent induction of therapeutic FXN protein expression that is sub-toxic has proven challenging, and numerous therapeutic approaches are being tested in animal models. FXN (hFXN in humans, mFXN in mice) is proteolytically modified in mitochondria to produce mature FXN. However, unlike endogenous hFXN, endogenous mFXN is further processed into N-terminally truncated, extra-mitochondrial mFXN forms of unknown function. This study assessed mature exogenous hFXN expression levels in the heart and liver of C57Bl/6 mice 7-10 months after intravenous administration of a recombinant adeno-associated virus encoding hFXN (AAVrh.10hFXN) and examined the potential for hFXN truncation in mice. AAVrh.10hFXN induced dose-dependent expression of hFXN in the heart and liver. Interestingly, hFXN was processed into truncated forms, but found at lower levels than mature hFXN. However, the truncations were at different positions than mFXN. AAVrh.10hFXN induced mature hFXN expression in mouse heart and liver at levels that approximated endogenous mFXN levels. These results suggest that AAVrh.10hFXN can likely induce expression of therapeutic levels of mature hFXN in mice., (© 2024. The Author(s).)

Published
2024
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30. Ferroptosis and HMGB2 induced calreticulin translocation required for immunogenic cell death are controlled by the nuclear exporter XPO1.

Author

Blair I, Fan J, Gillespie K, and Mesaros C

Abstract

Cisplatin and oxaliplatin cause the secretion of high mobility group box 1 (HMGB1) from cancer cells, which is necessary for initiation of immunogenic cell death (ICD). Calreticulin (CRT) translocation from the endoplasmic reticulum to the plasma membrane is also required; oxaliplatin induces this translocation but cisplatin does not. We have discovered that oxaliplatin causes the secretion of both HMGB1 and HMGB2 from the nucleus into the extracellular milieu. We previously showed that cisplatin mediated secretion of HMGB1 is controlled by the nuclear exporter XPO1 (chromosomal maintenance 1; CRM1). We now find that XPO1 regulates oxaliplatin mediated secretion of both HMGB1 and HMGB2. XPO1 inhibition causes nuclear accumulation of both proteins, inhibition of oxaliplatin-mediated ferroptosis of colon cancer cells, and inhibition of CRT translocation to the plasma membrane of lung and colon cancer cells. Incubation of cancer cells with cell targeted (CT)-HMGB2 confirmed that HMGB2 is responsible for translocation of CRT to the plasma membrane. CT-HMGB2 is three orders of magnitude more potent than oxaliplatin at inducing CRT translocation. Inhibition of HMGB1 and HMGB2 secretion and/or their activation of nuclear factor-kappa B (NF-kB) has potential utility for treating cardiovascular, and neurodegenerative diseases; whereas CT-HMGB2 could augment therapeutic approaches to cancer treatment., Competing Interests: Conflicts of Interest: I.A.B. has sponsored research agreements with Lexeo Therapeutics and Design Therapeutics. A provisional patent is pending for CT-HMGB2 and its analogs,

Published
2024
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31. Low-dose biliatresone treatment of pregnant mice causes subclinical biliary disease in their offspring: Evidence for a spectrum of neonatal injury.

Author

Gupta K, Xu JP, Diamond T, de Jong IEM, Glass A, Llewellyn J, Theise ND, Waisbourd-Zinman O, Winkler JD, Behrens EM, Mesaros C, and Wells RG

Subjects
Pregnancy, Female, Animals, Mice, Liver metabolism, Bile Ducts pathology, Inflammation pathology, Fibrosis, Bile Acids and Salts, Biliary Atresia metabolism, Gallbladder Diseases complications, Benzodioxoles
Abstract

Biliary atresia is a neonatal disease characterized by damage, inflammation, and fibrosis of the liver and bile ducts and by abnormal bile metabolism. It likely results from a prenatal environmental exposure that spares the mother and affects the fetus. Our aim was to develop a model of fetal injury by exposing pregnant mice to low-dose biliatresone, a plant toxin implicated in biliary atresia in livestock, and then to determine whether there was a hepatobiliary phenotype in their pups. Pregnant mice were treated orally with 15 mg/kg/d biliatresone for 2 days. Histology of the liver and bile ducts, serum bile acids, and liver immune cells of pups from treated mothers were analyzed at P5 and P21. Pups had no evidence of histological liver or bile duct injury or fibrosis at either timepoint. In addition, growth was normal. However, serum levels of glycocholic acid were elevated at P5, suggesting altered bile metabolism, and the serum bile acid profile became increasingly abnormal through P21, with enhanced glycine conjugation of bile acids. There was also immune cell activation observed in the liver at P21. These results suggest that prenatal exposure to low doses of an environmental toxin can cause subclinical disease including liver inflammation and aberrant bile metabolism even in the absence of histological changes. This finding suggests a wide potential spectrum of disease after fetal biliary injury., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Gupta et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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32. Frataxin analysis using triple quadrupole mass spectrometry: application to a large heterogeneous clinical cohort.

Author

Lynch DR, Rojsajjakul T, Subramony SH, Perlman SL, Keita M, Mesaros C, and Blair IA

Subjects
Humans, Mitochondrial Proteins genetics, Mass Spectrometry, Iron-Binding Proteins genetics, Iron-Binding Proteins metabolism, Frataxin, Friedreich Ataxia genetics
Abstract

Background: Friedreich ataxia is a progressive multisystem disorder caused by deficiency of the protein frataxin; a small mitochondrial protein involved in iron sulfur cluster synthesis. Two types of frataxin exist: FXN-M, found in most cells, and FXN-E, found almost exclusively in red blood cells. Treatments in clinical trials include frataxin restoration by gene therapy, protein replacement, and epigenetic therapies, all of which necessitate sensitive assays for assessing frataxin levels., Methods: In the present study, we have used a triple quadrupole mass spectrometry-based assay to examine the features of both types of frataxin levels in blood in a large heterogenous cohort of 106 patients with FRDA., Results: Frataxin levels (FXN-E and FXN M) were predicted by GAA repeat length in regression models (R 2 values = 0.51 and 0.27, respectively), and conversely frataxin levels predicted clinical status as determined by modified Friedreich Ataxia Rating scale scores and by disability status (R 2 values = 0.13-0.16). There was no significant change in frataxin levels in individual subjects over time, and apart from start codon mutations, FXN-E and FXN-M levels were roughly equal. Accounting for hemoglobin levels in a smaller sub-cohort improved prediction of both FXN-E and FXN-M levels from R 2 values of (0.3-0.38 to 0.20-0.51)., Conclusion: The present data show that assay of FXN-M and FXN-E levels in blood provides an appropriate biofluid for assessing their repletion in particular clinical contexts., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.)

Published
2024
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33. Single-cell NAD(H) levels predict clonal lymphocyte expansion dynamics.

Author

Turner L, Van Le TN, Cross E, Queriault C, Knight M, Trihemasava K, Davis J, Schaefer P, Nguyen J, Xu J, Goldspiel B, Hall E, Rome K, Scaglione M, Eggert J, Au-Yeung B, Wallace DC, Mesaros C, Baur JA, and Bailis W

Subjects
Metabolome, Signal Transduction, NAD, Lymphocytes metabolism
Abstract

Adaptive immunity requires the expansion of high-affinity lymphocytes from a heterogeneous pool. Whereas current models explain this through signal transduction, we hypothesized that antigen affinity tunes discrete metabolic pathways to license clonal lymphocyte dynamics. Here, we identify nicotinamide adenine dinucleotide (NAD) biosynthesis as a biochemical hub for the T cell receptor affinity-dependent metabolome. Through this central anabolic role, we found that NAD biosynthesis governs a quiescence exit checkpoint, thereby pacing proliferation. Normalizing cellular NAD(H) likewise normalizes proliferation across affinities, and enhancing NAD biosynthesis permits the expansion of lower affinity clones. Furthermore, single-cell differences in NAD(H) could predict division potential for both T and B cells, before the first division, unmixing proliferative heterogeneity. We believe that this supports a broader paradigm in which complex signaling networks converge on metabolic pathways to control single-cell behavior.

Published
2024
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34. Expression and processing of mature human frataxin after gene therapy in mice.

Author

Rojsajjakul T, Selvan N, De B, Rosenberg JB, Kaminsky SM, Sondhi D, Janki P, Crystal RG, Mesaros C, Khanna R, and Blair IA

Abstract

Friedreich's ataxia is a degenerative and progressive multisystem disorder caused by mutations in the highly conserved frataxin (FXN) gene that results in FXN protein deficiency and mitochondrial dysfunction. While gene therapy approaches are promising, consistent induction of therapeutic FXN protein expression that is sub-toxic has proven challenging, and numerous therapeutic approaches are being tested in animal models. FXN (hFXN in humans, mFXN in mice) is proteolytically modified in mitochondria to produce mature FXN. However, unlike endogenous hFXN, endogenous mFXN is further processed into N-terminally truncated, extra-mitochondrial mFXN forms of unknown function. This study assessed mature exogenous hFXN expression levels in the heart and liver of C57Bl/6 mice 7-10 months after intravenous administration of a recombinant adeno-associated virus encoding hFXN (AAVrh.10hFXN) and examined the potential for hFXN truncation in mice. AAVrh.10hFXN induced dose-dependent expression of hFXN in the heart and liver. Interestingly, hFXN was processed into truncated forms, but found at lower levels than mature hFXN. However, the truncations were at different positions than mFXN. AAVrh.10hFXN induced mature hFXN expression in mouse heart and liver at levels that approximated endogenous mFXN levels. These results demonstrate that AAVrh.10hFXN may induce expression of therapeutic levels of mature hFXN in mice., Competing Interests: Competing interests N.S., P.J., and R.K. are full-time employees of LEXEO Therapeutics, Inc, S.M.K. and D.S. have equity in LEXEO Therapeutics, Inc, and R.G.C. has equity in and is a consultant for LEXEO Therapeutics, Inc. I.A.B. has paid service/sponsored research agreements with LEXEO Therapeutics, Inc and Design Therapeutics, Inc. The other authors declare no competing interests.

Published
2023
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35. Neutral sphingomyelinase blockade enhances hematopoietic stem cell fitness through an integrated stress response.

Author

Hurwitz SN, Jung SK, Kobulsky DR, Fazelinia H, Spruce LA, Pérez EB, Groen N, Mesaros C, and Kurre P

Subjects
Animals, Humans, Mice, Hematopoietic Stem Cells metabolism, Sphingolipids metabolism, Sphingomyelin Phosphodiesterase genetics, Sphingomyelin Phosphodiesterase metabolism, Hematopoietic Stem Cell Transplantation
Abstract

Hematopoietic stem and progenitor cell (HSPC) transplantation serves as a curative therapy for many benign and malignant hematopoietic disorders and as a platform for gene therapy. However, growing needs for ex vivo manipulation of HSPC-graft products are limited by barriers in maintaining critical self-renewal and quiescence properties. The role of sphingolipid metabolism in safeguarding these essential cellular properties has been recently recognized, but not yet widely explored. Here, we demonstrate that pharmacologic and genetic inhibition of neutral sphingomyelinase 2 (nSMase-2) leads to sustained improvements in long-term competitive transplantation efficiency after ex vivo culture. Mechanistically, nSMase-2 blockade activates a canonical integrated stress response (ISR) and promotes metabolic quiescence in human and murine HSPCs. These adaptations result in part from disruption in sphingolipid metabolism that impairs the release of nSMase-2-dependent extracellular vesicles (EVs). The aggregate findings link EV trafficking and the ISR as a regulatory dyad guarding HSPC homeostasis and long-term fitness. Translationally, transient nSMase-2 inhibition enables ex vivo graft manipulation with enhanced HSPC potency., (© 2023 by The American Society of Hematology.)

Published
2023
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36. Hypermetabolic state is associated with circadian rhythm disruption in mouse and human cancer cells.

Author

Iascone DM, Zhang X, Bafford P, Mesaros C, Sela Y, Hofbauer S, Zhang SL, Cook K, Pivarshev P, Stanger BZ, Anderson S, Dang CV, and Sehgal A

Abstract

Crosstalk between cellular metabolism and circadian rhythms is a fundamental building block of multicellular life, and disruption of this reciprocal communication could be relevant to degenerative disease, including cancer. Here, we investigated whether maintenance of circadian rhythms depends upon specific metabolic pathways, particularly in the context of cancer. We found that in adult mouse fibroblasts, ATP levels were a major contributor to overall levels of a clock gene luciferase reporter, although not necessarily to the strength of circadian cycling. In contrast, we identified significant metabolic control of circadian function in an in vitro mouse model of pancreatic adenocarcinoma. Metabolic profiling of a library of congenic tumor cell clones revealed significant differences in levels of lactate, pyruvate, ATP, and other crucial metabolites that we used to identify candidate clones with which to generate circadian reporter lines. Despite the shared genetic background of the clones, we observed diverse circadian profiles among these lines that varied with their metabolic phenotype: the most hypometabolic line had the strongest circadian rhythms while the most hypermetabolic line had the weakest rhythms. Treatment of these tumor cell lines with bezafibrate, a peroxisome proliferator-activated receptor (PPAR) agonist shown to increase OxPhos, decreased the amplitude of circadian oscillation in a subset of tumor cell lines. Strikingly, treatment with the Complex I antagonist rotenone enhanced circadian rhythms only in the tumor cell line in which glycolysis was also low, thereby establishing a hypometabolic state. We further analyzed metabolic and circadian phenotypes across a panel of human patient-derived melanoma cell lines and observed a significant negative association between metabolic activity and circadian cycling strength. Together, these findings suggest that metabolic heterogeneity in cancer directly contributes to circadian function, and that high levels of glycolysis or OxPhos independently disrupt circadian rhythms in these cells.

Published
2023
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37. Quantification of human mature frataxin protein expression in nonhuman primate hearts after gene therapy.

Author

Rojsajjakul T, Hordeaux JJ, Choudhury GR, Hinderer CJ, Mesaros C, Wilson JM, and Blair IA

Subjects
Animals, Humans, Macaca mulatta, Heart, Genetic Therapy, Frataxin, Iron-Binding Proteins genetics, Friedreich Ataxia genetics, Friedreich Ataxia therapy, Friedreich Ataxia metabolism
Abstract

Deficiency in human mature frataxin (hFXN-M) protein is responsible for the devastating neurodegenerative and cardiodegenerative disease of Friedreich's ataxia (FRDA). It results primarily through epigenetic silencing of the FXN gene by GAA triplet repeats on intron 1 of both alleles. GAA repeat lengths are most commonly between 600 and 1200 but can reach 1700. A subset of approximately 3% of FRDA patients have GAA repeats on one allele and a mutation on the other. FRDA patients die most commonly in their 30s from heart disease. Therefore, increasing expression of heart hFXN-M using gene therapy offers a way to prevent early mortality in FRDA. We used rhesus macaque monkeys to test the pharmacology of an adeno-associated virus (AAV)hu68.CB7.hFXN therapy. The advantage of using non-human primates for hFXN-M gene therapy studies is that hFXN-M and monkey FXN-M (mFXN-M) are 98.5% identical, which limits potential immunologic side-effects. However, this presented a formidable bioanalytical challenge in quantification of proteins with almost identical sequences. This could be overcome by the development of a species-specific quantitative mass spectrometry-based method, which has revealed for the first time, robust transgene-specific human protein expression in monkey heart tissue. The dose response is non-linear resulting in a ten-fold increase in monkey heart hFXN-M protein expression with only a three-fold increase in dose of the vector., (© 2023. The Author(s).)

Published
2023
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38. Cell-Free DNA as a Biomarker in a Rodent Model of Chlorpyrifos Poisoning Causing Mitochondrial Dysfunction.

Author

Kao SH, Shofer FS, Greenwood JC, Alomaja O, Ranganathan A, Piel S, Mesaros C, Shin SS, Ehinger JK, Kilbaugh TJ, and Jang DH

Subjects
Animals, Acetylcholinesterase metabolism, Biomarkers, Cholinesterase Inhibitors toxicity, Mitochondria metabolism, Rodentia metabolism, Chlorpyrifos toxicity
Abstract

Introduction: Organophosphates (OPs) are a major public health problem worldwide due to ease of access and high toxicity lacking effective biomarkers and treatment. Cholinergic agents such as OPs and carbamates are responsible for many pesticide-related deaths. While the inhibition of AChE is thought to be the main mechanism of injury, there are other important pathways that contribute to the overall toxicity of OPs such as mitochondrial dysfunction. An existing gap in OP poisoning are biomarkers to gauge severity and prognosis. Cell-free DNA (cfDNA) are novel biomarkers that have gained increased attention as a sensitive biomarker of disease with novel use in acute poisoning. This study investigates alterations in cerebral mitochondrial function in a rodent model of chlorpyrifos poisoning with the use of cfDNA as a potential biomarker., Methods: Twenty rodents were divided into two groups: Control (n = 10) and Chlorpyrifos (n = 10). Chlorpyrifos was administered through the venous femoral line with a Harvard Apparatus 11 Elite Syringe pump (Holliston, MA, USA) at 2 mg/kg. Animals were randomized to receive chlorpyrifos versus the vehicle (10% DMSO) for 60 min which would realistically present an acute exposure with continued absorption. At the end of the exposure (60 min), isolated mitochondria were measured for mitochondrial respiration along with measures of acetylcholinesterase activity, cfDNA, cytokines and western blot., Results: The Chlorpyrifos group showed a significant decrease in heart rate but no change in the blood pressure. There was a significant increase in bulk cfDNA concentrations and overall decrease in mitochondrial respiration from brain tissue obtained from animals in the Chlorpyrifos group when compared to the Control group with no difference in acetylcholinesterase activity. In addition, there was a significant increase in both IL-2 and IL-12 in the Chlorpyrifos group., Conclusions: In our study, we found that the total cfDNA concentration may serve as a more accurate biomarker of OP exposure compared to acetylcholinesterase activity. In addition, there was an overall decrease in cerebral mitochondrial function in the Chlorpyrifos group when compared to the Control group., (© 2023. American College of Medical Toxicology.)

Published
2023
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39. Cisplatin Dependent Secretion of Immunomodulatory High Mobility Group Box 1 (HMGB1) Protein from Lung Cancer Cells.

Author

Gillespie KP, Pirnie R, Mesaros C, and Blair IA

Subjects
Humans, Cisplatin, Immunity, Lung Neoplasms drug therapy, Lung Neoplasms pathology, Carcinoma, Non-Small-Cell Lung pathology, HMGB1 Protein metabolism
Abstract

High mobility group box 1 (HMGB1) is secreted from activated immune cells, necrotic cells, and certain cancers. Previous studies have reported that different patterns of post-translational modification, particularly acetylation and oxidation, mediate HMGB1 release and confer distinct extracellular HMGB1 signaling activity. Here we report that cisplatin but not carboplatin induces secretion of HMGB1 from human A549 non-small cell lung cancer (NSCLC) cells. Cisplatin-mediated HMGB1 secretion was dose-dependent and was regulated by nuclear exportin 1 (XPO1) also known as chromosomal maintenance 1 (CRM1) rather than adenosine diphosphate (ADP)-ribosylation, acetylation, or oxidation. HMGB1, as well as lysine acetylation and cysteine disulfide oxidation of secreted HMGB1, were monitored by sensitive and specific assays using immunoprecipitation, stable isotope dilution, differential alkylation, and nano liquid chromatography parallel reaction monitoring/high-resolution mass spectrometry (nano-LC-PRM/HRMS). A major fraction of the HMGB1 secreted by low-dose cisplatin treatment of A549 NSCLC cells was found to be in the fully reduced form. In contrast, mainly oxidized forms of HMGB1 were secreted by dimethyl sulfoxide (DMSO)-mediated apoptosis. These findings suggest that inhibition of XPO1 could potentiate the anti-tumor activity of cisplatin by increasing the nuclear accumulation of HMGB1 protein, an inhibitor of cisplatin DNA-adduct repair. Furthermore, low-dose cisplatin therapy could modulate the immune response in NSCLC through the established chemokine activity of extracellular reduced HMGB1. This could potentially enhance the efficacy of subsequent immunotherapy treatment.

Published
2023
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40. Susceptibility to Low Vitamin B6 Diet-induced Gestational Diabetes Is Modulated by Strain Differences in Mice.

Author

Spinelli P, Fields AM, Falcone S, Mesaros C, and Susiarjo M

Subjects
Humans, Child, Female, Pregnancy, Animals, Mice, Mice, Inbred C57BL, Vitamin B 6 pharmacology, Mice, Inbred DBA, Serotonin, Diet adverse effects, Diabetes, Gestational, Glucose Intolerance etiology
Abstract

Gestational diabetes is a common pregnancy complication that adversely influences the health and survival of mother and child. Pancreatic islet serotonin signaling plays an important role in β-cell proliferation in pregnancy, and environmental and genetic factors that disrupt serotonin signaling are associated with gestational diabetes in mice. Our previous studies show that pregnant C57BL/6J mice fed a diet that is low in vitamin B6, a critical co-factor in serotonin synthesis, develop hyperglycemia and glucose intolerance, phenotypes that are consistent with gestational diabetes in humans. The current study shows that, unlike in the C57BL/6J mice, low vitamin B6 diet does not alter glucose tolerance and insulin secretion in pregnant DBA/2J mice. The hypothesis to be tested in the current study is that pregnant DBA/2J mice are protected against low vitamin B6-induced gestational diabetes due to their higher expression and enzymatic activities of tissue nonspecific alkaline phosphatase (ALPL) relative to C57BL/6J. ALPL is a rate-limiting enzyme that regulates vitamin B6 bioavailability. Interestingly, treating pregnant DBA/2J mice with 7.5 mg/kg/day of the ALPL inhibitor SBI-425 is associated with glucose intolerance in low vitamin B6-fed mice, implying that inhibition of ALPL activity is sufficient to modulate resilience to low vitamin B6-induced metabolic impairment., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Endocrine Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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41. Gene-environment interactions increase the risk of paediatric-onset multiple sclerosis associated with household chemical exposures.

Author

Nasr Z, Schoeps VA, Ziaei A, Virupakshaiah A, Adams C, Casper TC, Waltz M, Rose J, Rodriguez M, Tillema JM, Chitnis T, Graves JS, Benson L, Rensel M, Krupp L, Waldman AT, Weinstock-Guttman B, Lotze T, Greenberg B, Aaen G, Mar S, Schreiner T, Hart J, Simpson-Yap S, Mesaros C, Barcellos LF, and Waubant E

Subjects
Child, Humans, Genetic Predisposition to Disease genetics, Interleukin-6, HLA-DRB1 Chains genetics, Risk Factors, Genotype, HLA Antigens, Case-Control Studies, Proto-Oncogene Proteins c-bcl-2 genetics, Gene-Environment Interaction, Multiple Sclerosis chemically induced, Multiple Sclerosis epidemiology, Multiple Sclerosis genetics
Abstract

Background: We previously reported an association between household chemical exposures and an increased risk of paediatric-onset multiple sclerosis., Methods: Using a case-control paediatric multiple sclerosis study, gene-environment interaction between exposure to household chemicals and genotypes for risk of paediatric-onset multiple sclerosis was estimated.Genetic risk factors of interest included the two major HLA multiple sclerosis risk factors, the presence of DRB1*15 and the absence of A*02, and multiple sclerosis risk variants within the metabolic pathways of common household toxic chemicals, including IL-6 (rs2069852), BCL-2 (rs2187163) and NFKB1 (rs7665090)., Results: 490 paediatric-onset multiple sclerosis cases and 716 controls were included in the analyses. Exposures to insect repellent for ticks or mosquitos (OR 1.47, 95% CI 1.06 to 2.04, p=0.019), weed control products (OR 2.15, 95% CI 1.51 to 3.07, p<0.001) and plant/tree insect or disease control products (OR 3.25, 95% CI 1.92 to 5.49, p<0.001) were associated with increased odds of paediatric-onset multiple sclerosis. There was significant additive interaction between exposure to weed control products and NFKB1 SNP GG (attributable proportions (AP) 0.48, 95% CI 0.10 to 0.87), and exposure to plant or disease control products and absence of HLA-A*02 (AP 0.56; 95% CI 0.03 to 1.08). There was a multiplicative interaction between exposure to weed control products and NFKB1 SNP GG genotype (OR 2.30, 95% CI 1.00 to 5.30) but not for other exposures and risk variants. No interactions were found with IL-6 and BCL-2 SNP GG genotypes., Conclusions: The presence of gene-environment interactions with household toxins supports their possible causal role in paediatric-onset multiple sclerosis., Competing Interests: Competing interests: EW has current support from the NIH, NMSS, PCORI, CMSC and Race to Erase MS., (© Author(s) (or their employer(s)) 2023. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2023
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42. Quantification of human mature frataxin protein expression in nonhuman primate hearts after gene therapy.

Author

Blair I, Rojsajjakul T, Hordeaux J, Chaudhary G, Hinderer C, Mesaros C, and Wilson J

Abstract

Deficiency in human mature frataxin (hFXN-M) protein is responsible for the devastating neurodegenerative and cardiodegenerative disease of Friedreich's ataxia (FRDA). It results primarily by epigenetic silencing the FXN gene due to up to 1400 GAA triplet repeats in intron 1 of both alleles of the gene; a subset of approximately 3% of FRDA patients have a mutation on one allele. FRDA patients die most commonly in their 30s from heart disease. Therefore, increasing expression of heart hFXN-M using gene therapy offers a way to prevent early mortality in FRDA. We used rhesus macaque monkeys to test the pharmacology of an adeno-associated virus (AAV)hu68.CB7.hFXN therapy. The advantage of using non-human primates for hFXN-M gene therapy studies is that hFXN-M and monkey FXN-M (mFXN-M) are 98.5% identical, which limits potential immunologic side-effects. However, this presented a formidable bioanalytical challenge in quantification of proteins with almost identical sequences. This was overcome by development of a species-specific quantitative mass spectrometry-based method, which revealed for the first time, robust transgene-specific human protein expression in monkey heart tissue. The dose response was non-linear resulting in a ten-fold increase in monkey heart hFXN-M protein expression with only a three-fold increase in dose of the vector., Competing Interests: Conflicts of Interest J.M.W is a paid advisor to and holds equity in iECURE, Scout Bio, Passage Bio, and the Center for Breakthrough Medicines (CBM). He also holds equity in the former G2 Bio asset companies. He has sponsored research agreements with Amicus Therapeutics, CBM, Elaaj Bio, FA212, former G2 Bio asset companies, iECURE, Passage Bio, and Scout Bio, which are licensees of Penn technology. C.J.H. holds equity in Scout Bio and a former G2 Bio asset company. J.M.W., C.J.H, and J.J.H, are inventors on patents that have been licensed to various biopharmaceutical companies and for which they may receive payments. I.A.B. has sponsored research agreements with Lexeo Therapeutics and Design Therapeutics.

Published
2023
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43. Acyl-CoA thioesterase-2 facilitates β-oxidation in glycolytic skeletal muscle in a lipid supply dependent manner.

Author

Bekeova C, Han JI, Xu H, Kerr E, Blackburne B, Lynch SC, Mesaros C, Murgia M, Vadigepalli R, Beld J, Leonardi R, Snyder NW, and Seifert EL

Abstract

Acyl-Coenzyme A (acyl-CoA) thioesters are compartmentalized intermediates that participate in in multiple metabolic reactions within the mitochondrial matrix. The limited availability of free CoA (CoASH) in the matrix raises the question of how the local acyl-CoA concentration is regulated to prevent trapping of CoASH from overload of any specific substrate. Acyl-CoA thioesterase-2 (ACOT2) hydrolyzes long-chain acyl-CoAs to their constituent fatty acids and CoASH, and is the only mitochondrial matrix ACOT refractory to inhibition by CoASH. Thus, we reasoned that ACOT2 may constitutively regulate matrix acyl-CoA levels. Acot2 deletion in murine skeletal muscle (SM) resulted in acyl-CoA build-up when lipid supply and energy demands were modest. When energy demand and pyruvate availability were elevated, lack of ACOT2 activity promoted glucose oxidation. This preference for glucose over fatty acid oxidation was recapitulated in C2C12 myotubes with acute depletion of Acot2 , and overt inhibition of β-oxidation was demonstrated in isolated mitochondria from Acot2 -depleted glycolytic SM. In mice fed a high fat diet, ACOT2 enabled the accretion of acyl-CoAs and ceramide derivatives in glycolytic SM, and this was associated with worse glucose homeostasis compared to when ACOT2 was absent. These observations suggest that ACOT2 supports CoASH availability to facilitate β-oxidation in glycolytic SM when lipid supply is modest. However, when lipid supply is high, ACOT2 enables acyl-CoA and lipid accumulation, CoASH sequestration, and poor glucose homeostasis. Thus, ACOT2 regulates matrix acyl-CoA concentration in glycolytic muscle, and its impact depends on lipid supply.

Published
2023
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44. Adeno-associated virus-mediated gene therapy in a patient with Canavan disease using dual routes of administration and immune modulation.

Author

Corti M, Byrne BJ, Gessler DJ, Thompson G, Norman S, Lammers J, Coleman KE, Liberati C, Elder ME, Escolar ML, Tuna IS, Mesaros C, Kleiner GI, Barbouth DS, Gray-Edwards HL, Clement N, Cleaver BD, and Gao G

Abstract

Gene replacement therapy is a rational therapeutic strategy and clinical intervention for neurodegenerative disorders like Canavan disease, a leukodystrophy caused by biallelic mutations in the aspartoacylase ( ASPA ) gene. We aimed to investigate whether simultaneous intravenous (i.v.) and intracerebroventricular (i.c.v.) administration of rAAV9-CB6-ASPA provides a safe and effective therapeutic strategy in an open-label, individual-patient, expanded-access trial for Canavan disease. Immunomodulation was given prophylactically prior to adeno-associated virus (AAV) treatment to prevent an immune response to ASPA or the vector capsid. The patient served as his own control, and change from baseline was assessed by clinical pathology tests, vector genomes in the blood, antibodies against ASPA and AAV capsids, levels of cerebrospinal fluid (CSF) N -acetylaspartate (NAA), brain water content and morphology, clinical status, and motor function tests. Two years post treatment, the patient's white matter myelination had increased, motor function was improved, and he remained free of typical severe epilepsy. NAA level was reduced at 3 months and remained stable up to 4 years post treatment. Immunomodulation prior to AAV exposure enables repeat dosing and has prevented an anti-transgene immune response. Dual-route administration of gene therapy may improve treatment outcomes., Competing Interests: G.G. and D.J.G. are co-founders of ASPA Therapeutics., (© 2023.)

Published
2023
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45. Alteration in Cerebral Metabolism in a Rodent Model of Acute Sub-lethal Cyanide Poisoning.

Author

Alomaja O, Shofer FS, Greenwood JC, Piel S, Clayman C, Mesaros C, Kao SH, Shin SS, Ehinger JK, Kilbaugh TJ, and Jang DH

Subjects
Animals, Electron Transport Complex IV, Lactates, Adenosine Triphosphate, Coenzyme A, Rodentia, Cyanides
Abstract

Introduction: Cyanide exposure can occur in various settings such as industry and metallurgy. The primary mechanism of injury is cellular hypoxia from Complex IV (CIV) inhibition. This leads to decreased ATP production and increased reactive oxygen species production. The brain and the heart are the organs most affected due to their high metabolic demand. While the cardiac effects of cyanide are well known, the cerebral effects on cellular function are less well described. We investigated cerebral metabolism with a combination of brain respirometry, microdialysis, and western blotting using a rodent model of sub-lethal cyanide poisoning., Methods: Twenty rodents were divided into two groups: control (n = 10) and sub-lethal cyanide (n = 10). Cerebral microdialysis was performed during a 2 mg/kg/h cyanide exposure to obtain real-time measurements of cerebral metabolic status. At the end of the exposure (90 min), brain-isolated mitochondria were measured for mitochondrial respiration. Brain tissue ATP concentrations, acyl-Coenzyme A thioesters, and mitochondrial content were also measured., Results: The cyanide group showed significantly increased lactate and decreased hypotension with decreased cerebral CIV-linked mitochondrial respiration. There was also a significant decrease in cerebral ATP concentration in the cyanide group and a significantly higher cerebral lactate-to-pyruvate ratio (LPR). In addition, we also found decreased expression of Complex III and IV protein expression in brain tissue from the cyanide group. Finally, there was no change in acyl-coenzyme A thioesters between the two groups., Conclusions: The key finding demonstrates mitochondrial dysfunction in brain tissue that corresponds with a decrease in mitochondrial function, ATP concentrations, and an elevated LPR indicating brain dysfunction at a sub-lethal dose of cyanide., (© 2023. American College of Medical Toxicology.)

Published
2023
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46. Liquid Chromatography-Mass Spectrometry Analysis of Frataxin Proteoforms in Whole Blood as Biomarkers of the Genetic Disease Friedreich's Ataxia.

Author

Rojsajjakul T, Wu L, Grady CB, Hwang WT, Mesaros C, Lynch DR, and Blair IA

Subjects
Animals, Humans, Biomarkers, Chromatography, Liquid, Mass Spectrometry, Swine, Frataxin, Friedreich Ataxia diagnosis, Friedreich Ataxia genetics
Abstract

Friedreich's ataxia (FRDA) is caused primarily by expanded GAA repeats in intron 1 of both alleles of the FXN gene, which causes transcriptional silencing and reduced expression of frataxin mRNA and protein. FRDA is characterized by slowly progressive ataxia and cardiomyopathy. Symptoms generally appear during adolescence, and patients slowly progress to wheelchair dependency usually in the late teens or early twenties with death on average in the 4th decade. There are two known mature proteoforms of frataxin. Mitochondrial frataxin (frataxin-M) is a 130-amino acid protein with a molecular weight of 14,268 Da, and there is an alternatively spliced N-terminally acetylated 135-amino acid form (frataxin-E) with a molecular weight of 14,953 Da found in erythrocytes. There is reduced expression of frataxin in the heart and brain, but frataxin is not secreted into the systemic circulation, so it cannot be analyzed in serum or plasma. Blood is a readily accessible biofluid that contains numerous different cell types that express frataxin. We have found that pig blood can serve as an excellent surrogate matrix to validate an assay for frataxin proteoforms because pig frataxin is lost during the immunoprecipitation step used to isolate human frataxin. Frataxin-M is expressed in blood cells that contain mitochondria, whereas extra-mitochondrial frataxin-E is found in erythrocytes. This means that the analysis of frataxin in whole blood provides information on the concentration of both proteoforms without having to isolate the individual cell types. In the current study, we observed that the distributions of frataxin levels for a sample of 25 healthy controls and 50 FRDA patients were completely separated from each other, suggesting 100% specificity and 100% sensitivity for distinguishing healthy controls from FRDA cases, a very unusual finding for a biomarker assay. Additionally, frataxin levels were significantly correlated with the GAA repeat length and age of onset with higher correlations for extra-mitochondrial frataxin-E than those for mitochondrial frataxin-M. These findings auger well for using frataxin levels measured by the validated stable isotope dilution ultrahigh-performance liquid chromatography-multiple reaction monitoring/mass spectrometry assay to monitor therapeutic interventions and the natural history of FRDA. Our study also illustrates the utility of using whole blood for protein disease biomarker discovery and validation.

Published
2023
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47. Reappraisal of oxidized HMGB1 as a mediator and biomarker.

Author

Pirnie R, P Gillespie K, Mesaros C, and Blair IA

Abstract

HMGB1 is a dual-function protein that acts as a chromatin-binding protein and as a danger-associated molecular pattern (DAMP) when released from activated immune cells or injured tissue. In much of the HMGB1 literature, immunomodulatory effects of extracellular HMGB1 are proposed to depend on its oxidation state. However, many of the foundational studies for this model have been retracted or flagged with expressions of concern. The literature on HMGB1 oxidation reveals a diversity of redox proteoforms of HMGB1 that are inconsistent with current models of redox modulation regulating HMGB1 secretion. A recent study of acetaminophen toxicity has identified previously unrecognized HMGB1 oxidized proteoforms. HMGB1 undergoes oxidative modifications that could serve as pathology-specific biomarkers and drug targets., Competing Interests: The authors have no other relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript apart from those disclosed, (© 2023 Ian A. Blair.)

Published
2023
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48. PAQR8 promotes breast cancer recurrence and confers resistance to multiple therapies.

Author

Chen S, Paul MR, Sterner CJ, Belka GK, Wang D, Xu P, Sreekumar A, Pan TC, Pant DK, Makhlin I, DeMichele A, Mesaros C, and Chodosh LA

Subjects
Animals, Mice, Lapatinib, Fulvestrant, Receptor, ErbB-2 metabolism, Estrogens, Receptors, Progesterone, Drug Resistance, Neoplasm genetics, Neoplasm Recurrence, Local genetics, Neoplasm Recurrence, Local pathology
Abstract

Background: Breast cancer mortality is principally due to recurrent disease that becomes resistant to therapy. We recently identified copy number (CN) gain of the putative membrane progesterone receptor PAQR8 as one of four focal CN alterations that preferentially occurred in recurrent metastatic tumors compared to primary tumors in breast cancer patients. Whether PAQR8 plays a functional role in cancer is unknown. Notably, PAQR8 CN gain in recurrent tumors was mutually exclusive with activating ESR1 mutations in patients treated with anti-estrogen therapies and occurred in > 50% of both patients treated with anti-estrogen therapies and those treated with chemotherapy or anti-Her2 agents., Methods: We used orthotopic mouse models to determine whether PAQR8 overexpression or deletion alters breast cancer dormancy or recurrence following therapy. In vitro studies, including assays for colony formation, cell viability, and relative cell fitness, were employed to identify effects of PAQR8 in the context of therapy. Cell survival and proliferation were quantified by immunofluorescence staining for markers of apoptosis and proliferation. Sphingolipids were quantified by liquid chromatography-high resolution mass spectrometry., Results: We show that PAQR8 is necessary and sufficient for efficient mammary tumor recurrence in mice, spontaneously upregulated and CN gained in recurrent tumors that arise following therapy in multiple mouse models, and associated with poor survival following recurrence as well as poor overall survival in breast cancer patients. PAQR8 promoted resistance to therapy by enhancing tumor cell survival following estrogen receptor pathway inhibition by fulvestrant or estrogen deprivation, Her2 pathway blockade by lapatinib or Her2 downregulation, and treatment with chemotherapeutic agents. Pro-survival effects of PAQR8 were mediated by a G i protein-dependent reduction in cAMP levels, did not require progesterone, and involved a PAQR8-dependent decrease in ceramide levels and increase in sphingosine-1-phosphate levels, suggesting that PAQR8 may possess ceramidase activity., Conclusions: Our data provide in vivo evidence that PAQR8 plays a functional role in cancer, implicate PAQR8, cAMP, and ceramide metabolism in breast cancer recurrence, and identify a novel mechanism that may commonly contribute to the acquisition of treatment resistance in breast cancer patients., (© 2022. The Author(s).)

Published
2023
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49. Ultrasensitive quantification of estrogens in serum and plasma by liquid chromatography-tandem mass spectrometry.

Author

Wang Q, Xu PJ, and Mesaros C

Subjects
Chromatography, Liquid methods, Immunologic Factors, Estrogens analysis, Estrogens metabolism, Tandem Mass Spectrometry methods
Abstract

Stable isotope dilution (SID) methodology coupled with liquid chromatography-tandem mass spectrometry (LC-MS) is rapidly becoming the gold standard for measuring estrogens in serum and plasma due to improved specificity, high accuracy, and the ability to conduct a more comprehensive analysis. A general consideration of the problems associated with measuring estrogens and two detailed derivatization methods are described in this chapter. These methods quantify estrogens and their metabolites in serum and plasma samples using this state-of-art technology, which is applicable to the routine clinical laboratory., (Copyright © 2023. Published by Elsevier Inc.)

Published
2023
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