Your search keyword '"Khalil, Youssef"' showing total 8 results

1. Variable clinical phenotypes of alpha‐methylacyl‐CoA racemase deficiency: Report of four cases and review of the literature.

Author

Selamioğlu, Arzu, Balcı, Mehmet Cihan, Karaca, Meryem, Khalil, Youssef, Hirachan, Rohit, Durmuş Tekçe, Hacer, Parman, Yeşim Gülşen, Gedikbaşı, Asuman, Demirkol, Mübeccel, Clayton, Peter, and Gökçay, Gülden

Published

2024

2. Elevated Bile Acid 3β,5α,6β-Trihydroxycholanoyl Glycine in a Subset of Adult Ataxias Including Niemann–Pick Type C.

Author

Motamed-Gorji, Nazgol, Khalil, Youssef, Gonzalez-Robles, Cristina, Khan, Shamsher, Mills, Philippa, Garcia-Moreno, Hector, Ging, Heather, Tariq, Ambreen, Clayton, Peter T., and Giunti, Paola

Subjects

BILE acids, FRIEDREICH'S ataxia, FARNESOID X receptor, WHOLE genome sequencing, GLYCINE, ADULTS

Abstract

Ataxia is a common neurological feature of Niemann–Pick disease type C (NPC). In this disease, unesterified cholesterol accumulates in lysosomes of the central nervous system and hepatic cells. Oxidation by reactive oxygen species produces oxysterols that can be metabolised to specific bile acids. These bile acids have been suggested as useful biomarkers to detect NPC. Concentrations of 3β,5α,6β-trihydroxycholanyl glycine (3β,5α,6β-triOH-Gly) and 3β,7β-dihydroxy-5-cholenyl glycine (3β,7β-diOH-Δ5-Gly) were measured in plasma of 184 adults with idiopathic ataxia. All patients were tested with whole genome sequencing containing hereditary ataxia panels, which include NPC1 and NPC2 mutations and other genetic causes of ataxia. Plasma 3β,5α,6β-triOH-Gly above normal (>90 nM) was found in 8 out of 184 patients. One patient was homozygous for the p.(Val1165Met) mutation in the NPC1 gene. The remaining seven included one patient with Friedreich's ataxia and three patients with autoimmune diseases. Oxidative stress is known to be increased in Friedreich's ataxia and in autoimmune diseases. Therefore, this subset of patients possibly shares a common mechanism that determines the increase of this bile acid. In a large cohort of adults with ataxia, plasma 3β,5α,6β-triOH-Gly was able to detect the one patient in the cohort with NPC1 disease, but also detected oxidation of cholesterol by ROS in other disorders. Plasma 3β,7β-diOH-Δ5-Gly is not a potential biomarker for NPC1. [ABSTRACT FROM AUTHOR]

Published

2024

3. mRNA therapy corrects defective glutathione metabolism and restores ureagenesis in preclinical argininosuccinic aciduria.

Author

Gurung, Sonam, Timmermand, Oskar Vilhelmsson, Perocheau, Dany, Gil-Martinez, Ana Luisa, Minnion, Magdalena, Touramanidou, Loukia, Fang, Sherry, Messina, Martina, Khalil, Youssef, Spiewak, Justyna, Barber, Abigail R., Edwards, Richard S., Pinto, Patricia Lipari, Finn, Patrick F., Cavedon, Alex, Siddiqui, Summar, Rice, Lisa, Martini, Paolo G. V., Ridout, Deborah, and Heywood, Wendy

Subjects

GLUTATHIONE, POSITRON emission tomography, MESSENGER RNA, METABOLISM, SYMPTOMS

Abstract

The urea cycle enzyme argininosuccinate lyase (ASL) enables the clearance of neurotoxic ammonia and the biosynthesis of arginine. Patients with ASL deficiency present with argininosuccinic aciduria, an inherited metabolic disease with hyperammonemia and a systemic phenotype coinciding with neurocognitive impairment and chronic liver disease. Here, we describe the dysregulation of glutathione biosynthesis and upstream cysteine utilization in ASL-deficient patients and mice using targeted metabolomics and in vivo positron emission tomography (PET) imaging using (S)-4-(3-18F-fluoropropyl)-l-glutamate ([18F]FSPG). Up-regulation of cysteine metabolism contrasted with glutathione depletion and down-regulated antioxidant pathways. To assess hepatic glutathione dysregulation and liver disease, we present [18F]FSPG PET as a noninvasive diagnostic tool to monitor therapeutic response in argininosuccinic aciduria. Human hASL mRNA encapsulated in lipid nanoparticles improved glutathione metabolism and chronic liver disease. In addition, hASL mRNA therapy corrected and rescued the neonatal and adult Asl-deficient mouse phenotypes, respectively, enhancing ureagenesis. These findings provide mechanistic insights in liver glutathione metabolism and support clinical translation of mRNA therapy for argininosuccinic aciduria. Editor's summary: Genetic argininosuccinate lyase (ASL) deficiency results in excess blood ammonia and downstream neurological and metabolic impairments. Gurung et al. report that ASL deficiency in patients also causes dysregulation of glutathione synthesis. Lipid nanoparticle–encapsulated human ASL mRNA corrected glutathione and urea metabolism and ameliorated liver disease symptoms in a mouse model of the disease. PET imaging of the mice further suggested that [18F]FSPG, as a readout of glutathione synthesis, may have utility in monitoring the extent of disease and treatment response. —Catherine Charneski [ABSTRACT FROM AUTHOR]

Published

2024

4. Beclin‐1‐mediated activation of autophagy improves proximal and distal urea cycle disorders.

Author

Soria, Leandro R, Gurung, Sonam, De Sabbata, Giulia, Perocheau, Dany P, De Angelis, Angela, Bruno, Gemma, Polishchuk, Elena, Paris, Debora, Cuomo, Paola, Motta, Andrea, Orford, Michael, Khalil, Youssef, Eaton, Simon, Mills, Philippa B, Waddington, Simon N, Settembre, Carmine, Muro, Andrés F, Baruteau, Julien, and Brunetti‐Pierri, Nicola

Abstract

Urea cycle disorders (UCD) are inherited defects in clearance of waste nitrogen with high morbidity and mortality. Novel and more effective therapies for UCD are needed. Studies in mice with constitutive activation of autophagy unravelled Beclin‐1 as druggable candidate for therapy of hyperammonemia. Next, we investigated efficacy of cell‐penetrating autophagy‐inducing Tat‐Beclin‐1 (TB‐1) peptide for therapy of the two most common UCD, namely ornithine transcarbamylase (OTC) and argininosuccinate lyase (ASL) deficiencies. TB‐1 reduced urinary orotic acid and improved survival under protein‐rich diet in spf‐ash mice, a model of OTC deficiency (proximal UCD). In AslNeo/Neo mice, a model of ASL deficiency (distal UCD), TB‐1 increased ureagenesis, reduced argininosuccinate, and improved survival. Moreover, it alleviated hepatocellular injury and decreased both cytoplasmic and nuclear glycogen accumulation in AslNeo/Neo mice. In conclusion, Beclin‐1‐dependent activation of autophagy improved biochemical and clinical phenotypes of proximal and distal defects of the urea cycle. Synopsis: Using mice with constitutive activation of autophagy and treating mice deficient for ornithine transcarbamylase (OTC) and argininosuccinate lyase (ASL) with the autophagy inducing Tat‐Beclin‐1 (TB‐1), this study shows that Beclin‐1‐dependent activation of autophagy improves the phenotypes of proximal and distal defects of the urea cycle. Beclin‐1 is a central player in autophagy and a knock‐in mouse model carrying a Becn1 mutation resulting in constitutively active autophagy shows enhanced ureagenesis and increased ammonia detoxification.TB‐1 improves biochemical abnormalities and increases survival of mice with OTC deficiency (proximal urea cycle disorder).TB‐1 improves biochemical abnormalities and survival of mice with ASL deficiency (distal urea cycle disorder).ASL deficient mice show cytoplasmic and nuclear glycogen accumulation that are both reduced by TB‐1. [ABSTRACT FROM AUTHOR]

Published

2021

5. Organic Solute Transporter Alpha Deficiency: A Disorder With Cholestasis, Liver Fibrosis, and Congenital Diarrhea.

Author

Gao, Emily, Cheema, Huma, Waheed, Nadia, Mushtaq, Iqra, Erden, Nihan, Nelson‐Williams, Carol, Jain, Dhanpat, Soroka, Carol J., Boyer, James L., Khalil, Youssef, Clayton, Peter T., Mistry, Pramod K., Lifton, Richard P., and Vilarinho, Sílvia

Published

2020

6. Can CSR, Market Efficiency, and Financial Rewards Interact Positively in Periods of Crisis?

Author

El-Khalil, Youssef

Published

2012

7. Tissue Proteome of 2-Hydroxyacyl-CoA Lyase Deficient Mice Reveals Peroxisome Proliferation and Activation of ω-Oxidation.

Author

Khalil, Youssef, Carrino, Sara, Lin, Fujun, Ferlin, Anna, Lad, Heena V., Mazzacuva, Francesca, Falcone, Sara, Rivers, Natalie, Banks, Gareth, Concas, Danilo, Aguilar, Carlos, Haynes, Andrew R., Blease, Andy, Nicol, Thomas, Al-Shawi, Raya, Heywood, Wendy, Potter, Paul, Mills, Kevin, Gale, Daniel P., and Clayton, Peter T.

Subjects

LIQUID chromatography-mass spectrometry, GAS chromatography/Mass spectrometry (GC-MS), OXIDATION, MICE, FATTY acids, PROTEOMICS, ARACHIDONIC acid

Abstract

Peroxisomal fatty acid α-oxidation is an essential pathway for the degradation of β-carbon methylated fatty acids such as phytanic acid. One enzyme in this pathway is 2-hydroxyacyl CoA lyase (HACL1), which is responsible for the cleavage of 2-hydroxyphytanoyl-CoA into pristanal and formyl-CoA. Hacl1 deficient mice do not present with a severe phenotype, unlike mice deficient in other α-oxidation enzymes such as phytanoyl-CoA hydroxylase deficiency (Refsum disease) in which neuropathy and ataxia are present. Tissues from wild-type and Hacl1−/− mice fed a high phytol diet were obtained for proteomic and lipidomic analysis. There was no phenotype observed in these mice. Liver, brain, and kidney tissues underwent trypsin digestion for untargeted proteomic liquid chromatography-mass spectrometry analysis, while liver tissues also underwent fatty acid hydrolysis, extraction, and derivatisation for fatty acid gas chromatography-mass spectrometry analysis. The liver fatty acid profile demonstrated an accumulation of phytanic and 2-hydroxyphytanic acid in the Hacl1−/− liver and significant decrease in heptadecanoic acid. The liver proteome showed a significant decrease in the abundance of Hacl1 and a significant increase in the abundance of proteins involved in PPAR signalling, peroxisome proliferation, and omega oxidation, particularly Cyp4a10 and Cyp4a14. In addition, the pathway associated with arachidonic acid metabolism was affected; Cyp2c55 was upregulated and Cyp4f14 and Cyp2b9 were downregulated. The kidney proteome revealed fewer significantly upregulated peroxisomal proteins and the brain proteome was not significantly different in Hacl1−/− mice. This study demonstrates the powerful insight brought by proteomic and metabolomic profiling of Hacl1−/− mice in better understanding disease mechanism in fatty acid α-oxidation disorders. [ABSTRACT FROM AUTHOR]

Published

2022

8. Urea Cycle Related Amino Acids Measured in Dried Bloodspots Enable Long-Term In Vivo Monitoring and Therapeutic Adjustment.

Author

Baruteau, Julien, Khalil, Youssef, Grunewald, Stephanie, Zancolli, Marta, Chakrapani, Anupam, Cleary, Maureen, Davison, James, Footitt, Emma, Waddington, Simon N., Gissen, Paul, and Mills, Philippa

Subjects

UREA, AMINO acids, AMINO acid analysis, LIQUID chromatography-mass spectrometry

Abstract

Background: Dried bloodspots are easy to collect and to transport to assess various metabolites, such as amino acids. Dried bloodspots are routinely used for diagnosis and monitoring of some inherited metabolic diseases. Methods: Measurement of amino acids from dried blood spots by liquid chromatography-tandem mass spectrometry. Results: We describe a novel rapid method to measure underivatised urea cycle related amino acids. Application of this method enabled accurate monitoring of these amino acids to assess the efficacy of therapies in argininosuccinate lyase deficient mice and monitoring of these metabolites in patients with urea cycle defects. Conclusion: Measuring urea cycle related amino acids in urea cycle defects from dried blood spots is a reliable tool in animal research and will be of benefit in the clinic, facilitating optimisation of protein-restricted diet and preventing amino acid deprivation. [ABSTRACT FROM AUTHOR]

Published

2019