Your search keyword '"Khalil, Youssef"' showing total 11 results

1. Human ultrarare genetic disorders of sulfur metabolism demonstrate redundancies in H2S homeostasis

Author

Kozich, Viktor, Schwahn, Bernd C., Sokolova, Jitka, Krizkova, Michaela, Ditroi, Tamas, Krijt, Jakub, Khalil, Youssef, Krizek, Tomas, Vaculikova-Fantlova, Tereza, Stiburkova, Blanka, Mills, Philippa, Clayton, Peter, Barvikova, Kristyna, Blessing, Holger, Sykut-Cegielska, Jolanta, Dionisi-Vici, Carlo, Gasperini, Serena, Garcia-Cazorla, Angeles, Haack, Tobias B., Honzik, Tomas, Jesina, Pavel, Kuster, Alice, Laugwitz, Lucia, Martinelli, Diego, Porta, Francesco, Santer, Rene, Schwarz, Guenter, Nagy, Peter, Kozich, Viktor, Schwahn, Bernd C., Sokolova, Jitka, Krizkova, Michaela, Ditroi, Tamas, Krijt, Jakub, Khalil, Youssef, Krizek, Tomas, Vaculikova-Fantlova, Tereza, Stiburkova, Blanka, Mills, Philippa, Clayton, Peter, Barvikova, Kristyna, Blessing, Holger, Sykut-Cegielska, Jolanta, Dionisi-Vici, Carlo, Gasperini, Serena, Garcia-Cazorla, Angeles, Haack, Tobias B., Honzik, Tomas, Jesina, Pavel, Kuster, Alice, Laugwitz, Lucia, Martinelli, Diego, Porta, Francesco, Santer, Rene, Schwarz, Guenter, and Nagy, Peter

Abstract

Regulation of H2S homeostasis in humans is poorly understood. Therefore, we assessed the importance of in-dividual enzymes in synthesis and catabolism of H2S by studying patients with respective genetic defects. We analyzed sulfur compounds (including bioavailable sulfide) in 37 untreated or insufficiently treated patients with seven ultrarare enzyme deficiencies and compared them to 63 controls. Surprisingly, we observed that patients with severe deficiency in cystathionine beta-synthase (CBS) or cystathionine gamma-lyase (CSE) -the enzymes primarily responsible for H2S synthesis -exhibited increased and normal levels of bioavailable sulfide, respectively. However, an approximately 21-fold increase of urinary homolanthionine in CBS deficiency strongly suggests that lacking CBS activity is compensated for by an increase in CSE-dependent H2S synthesis from accumulating ho-mocysteine, which suggests a control of H2S homeostasis in vivo. In deficiency of sulfide:quinone oxidoreductase -the first enzyme in mitochondrial H2S oxidation -we found normal H2S concentrations in a symptomatic patient and his asymptomatic sibling, and elevated levels in an asymptomatic sibling, challenging the requirement for this enzyme in catabolizing H2S under physiological conditions. Patients with ethylmalonic encephalopathy and sulfite oxidase/molybdenum cofactor deficiencies exhibited massive accumulation of thiosulfate and sulfite with formation of large amounts of S-sulfocysteine and S-sulfohomocysteine, increased renal losses of sulfur com-pounds and concomitant strong reduction in plasma total cysteine. Our results demonstrate the value of a comprehensive assessment of sulfur compounds in severe disorders of homocysteine/cysteine metabolism and provide evidence for redundancy and compensatory mechanisms in the maintenance of H2S homeostasis.

Published

2022

2. Deep mining of oxysterols and cholestenoic acids in human plasma and cerebrospinal fluid : Quantification using isotope dilution mass spectrometry

Author

Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., Wang, Yuqin, Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., and Wang, Yuqin

Abstract

Both plasma and cerebrospinal fluid (CSF) are rich in cholesterol and its metabolites. Here we describe in detail a methodology for the identification and quantification of multiple sterols including oxysterols and sterol-acids found in these fluids. The method is translatable to any laboratory with access to liquid chromatography – tandem mass spectrometry. The method exploits isotope-dilution mass spectrometry for absolute quantification of target metabolites. The method is applicable for semi-quantification of other sterols for which isotope labelled surrogates are not available and approximate quantification of partially identified sterols. Values are reported for non-esterified sterols in the absence of saponification and total sterols following saponification. In this way absolute quantification data is reported for 17 sterols in the NIST SRM 1950 plasma along with semi-quantitative data for 8 additional sterols and approximate quantification for one further sterol. In a pooled (CSF) sample used for internal quality control, absolute quantification was performed on 10 sterols, semi-quantification on 9 sterols and approximate quantification on a further three partially identified sterols. The value of the method is illustrated by confirming the sterol phenotype of a patient suffering from ACOX2 deficiency, a rare disorder of bile acid biosynthesis, and in a plasma sample from a patient suffering from cerebrotendinous xanthomatosis, where cholesterol 27-hydroxylase is deficient.

Published

2021

3. Deep mining of oxysterols and cholestenoic acids in human plasma and cerebrospinal fluid : Quantification using isotope dilution mass spectrometry

Author

Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., Wang, Yuqin, Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., and Wang, Yuqin

Abstract

Both plasma and cerebrospinal fluid (CSF) are rich in cholesterol and its metabolites. Here we describe in detail a methodology for the identification and quantification of multiple sterols including oxysterols and sterol-acids found in these fluids. The method is translatable to any laboratory with access to liquid chromatography – tandem mass spectrometry. The method exploits isotope-dilution mass spectrometry for absolute quantification of target metabolites. The method is applicable for semi-quantification of other sterols for which isotope labelled surrogates are not available and approximate quantification of partially identified sterols. Values are reported for non-esterified sterols in the absence of saponification and total sterols following saponification. In this way absolute quantification data is reported for 17 sterols in the NIST SRM 1950 plasma along with semi-quantitative data for 8 additional sterols and approximate quantification for one further sterol. In a pooled (CSF) sample used for internal quality control, absolute quantification was performed on 10 sterols, semi-quantification on 9 sterols and approximate quantification on a further three partially identified sterols. The value of the method is illustrated by confirming the sterol phenotype of a patient suffering from ACOX2 deficiency, a rare disorder of bile acid biosynthesis, and in a plasma sample from a patient suffering from cerebrotendinous xanthomatosis, where cholesterol 27-hydroxylase is deficient.

Published

2021

4. Deep mining of oxysterols and cholestenoic acids in human plasma and cerebrospinal fluid : Quantification using isotope dilution mass spectrometry

Author

Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., Wang, Yuqin, Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., and Wang, Yuqin

Abstract

Both plasma and cerebrospinal fluid (CSF) are rich in cholesterol and its metabolites. Here we describe in detail a methodology for the identification and quantification of multiple sterols including oxysterols and sterol-acids found in these fluids. The method is translatable to any laboratory with access to liquid chromatography – tandem mass spectrometry. The method exploits isotope-dilution mass spectrometry for absolute quantification of target metabolites. The method is applicable for semi-quantification of other sterols for which isotope labelled surrogates are not available and approximate quantification of partially identified sterols. Values are reported for non-esterified sterols in the absence of saponification and total sterols following saponification. In this way absolute quantification data is reported for 17 sterols in the NIST SRM 1950 plasma along with semi-quantitative data for 8 additional sterols and approximate quantification for one further sterol. In a pooled (CSF) sample used for internal quality control, absolute quantification was performed on 10 sterols, semi-quantification on 9 sterols and approximate quantification on a further three partially identified sterols. The value of the method is illustrated by confirming the sterol phenotype of a patient suffering from ACOX2 deficiency, a rare disorder of bile acid biosynthesis, and in a plasma sample from a patient suffering from cerebrotendinous xanthomatosis, where cholesterol 27-hydroxylase is deficient.

Published

2021

5. Deep mining of oxysterols and cholestenoic acids in human plasma and cerebrospinal fluid : Quantification using isotope dilution mass spectrometry

Author

Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., Wang, Yuqin, Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., and Wang, Yuqin

Abstract

Both plasma and cerebrospinal fluid (CSF) are rich in cholesterol and its metabolites. Here we describe in detail a methodology for the identification and quantification of multiple sterols including oxysterols and sterol-acids found in these fluids. The method is translatable to any laboratory with access to liquid chromatography – tandem mass spectrometry. The method exploits isotope-dilution mass spectrometry for absolute quantification of target metabolites. The method is applicable for semi-quantification of other sterols for which isotope labelled surrogates are not available and approximate quantification of partially identified sterols. Values are reported for non-esterified sterols in the absence of saponification and total sterols following saponification. In this way absolute quantification data is reported for 17 sterols in the NIST SRM 1950 plasma along with semi-quantitative data for 8 additional sterols and approximate quantification for one further sterol. In a pooled (CSF) sample used for internal quality control, absolute quantification was performed on 10 sterols, semi-quantification on 9 sterols and approximate quantification on a further three partially identified sterols. The value of the method is illustrated by confirming the sterol phenotype of a patient suffering from ACOX2 deficiency, a rare disorder of bile acid biosynthesis, and in a plasma sample from a patient suffering from cerebrotendinous xanthomatosis, where cholesterol 27-hydroxylase is deficient.

Published

2021

6. Deep mining of oxysterols and cholestenoic acids in human plasma and cerebrospinal fluid : Quantification using isotope dilution mass spectrometry

Author

Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., Wang, Yuqin, Yutuc, Eylan, Dickson, Alison L., Pacciarini, Manuela, Griffiths, Lauren, Baker, Paul R.S., Connell, Lisa, Öhman, Anders, Forsgren, Lars, Trupp, Miles, Vilarinho, Sílvia, Khalil, Youssef, Clayton, Peter T., Sari, Sinan, Dalgic, Buket, Höflinger, Philip, Schöls, Ludger, Griffiths, William J., and Wang, Yuqin

Abstract

Both plasma and cerebrospinal fluid (CSF) are rich in cholesterol and its metabolites. Here we describe in detail a methodology for the identification and quantification of multiple sterols including oxysterols and sterol-acids found in these fluids. The method is translatable to any laboratory with access to liquid chromatography – tandem mass spectrometry. The method exploits isotope-dilution mass spectrometry for absolute quantification of target metabolites. The method is applicable for semi-quantification of other sterols for which isotope labelled surrogates are not available and approximate quantification of partially identified sterols. Values are reported for non-esterified sterols in the absence of saponification and total sterols following saponification. In this way absolute quantification data is reported for 17 sterols in the NIST SRM 1950 plasma along with semi-quantitative data for 8 additional sterols and approximate quantification for one further sterol. In a pooled (CSF) sample used for internal quality control, absolute quantification was performed on 10 sterols, semi-quantification on 9 sterols and approximate quantification on a further three partially identified sterols. The value of the method is illustrated by confirming the sterol phenotype of a patient suffering from ACOX2 deficiency, a rare disorder of bile acid biosynthesis, and in a plasma sample from a patient suffering from cerebrotendinous xanthomatosis, where cholesterol 27-hydroxylase is deficient.

Published

2021

7. Hereditary polyneuropathy with optic atrophy due to PDXK variant leading to impaired Vitamin B6 metabolism

Author

Keller, Natalie, Mendoza-Ferreira, Natalia, Maroofian, Reza, Chelban, Viorica, Khalil, Youssef, Mills, Philippa B., Boostani, Reza, Torbati, Paria Najarzadeh, Karimiani, Ehsan Ghayoor, Thiele, Holger, Houlden, Henry, Wirth, Brunhilde, Karakaya, Mert, Keller, Natalie, Mendoza-Ferreira, Natalia, Maroofian, Reza, Chelban, Viorica, Khalil, Youssef, Mills, Philippa B., Boostani, Reza, Torbati, Paria Najarzadeh, Karimiani, Ehsan Ghayoor, Thiele, Holger, Houlden, Henry, Wirth, Brunhilde, and Karakaya, Mert

Abstract

PDXK encodes for a pyridoxal kinase, which converts inactive B6 vitamers to the active cofactor pyridoxal 5'-phosphate (PLP). Recently, biallelic pathogenic variants in PDXK were shown to cause axonal Charcot-Marie-Tooth disease with optic atrophy that responds to PLP supplementation. We present two affected siblings carrying a novel biallelic missense PDXK variant with a similar phenotype with earlier onset. After detection of a novel PDXK variant using Whole Exome Sequencing, we confirmed pathogenicity through in silico protein structure analysis, determination of pyridoxal kinase activity using liquid chromatography-tandem mass spectrometry, and measurement of plasma PLP concentrations using high performance liquid chromatography. Our in silico analysis shows a potential effect on PDXK dimer stability, as well as a putative effect on posttranslational ubiquitination that is predicted to lead to increased protein degradation. We demonstrate that the variant leads to almost complete loss of PDXK enzymatic activity and low PLP levels. Our patients' early diagnosis and prompt PLP replacement restored the PLP plasma levels, enabling long-term monitoring of clinical outcomes. We recommend that patients presenting with similar phenotype should be screened for PDXK mutations, as this is a rare opportunity for treatment. (C) 2020 Elsevier B.V. All rights reserved.

Published

2020

8. Hereditary polyneuropathy with optic atrophy due to PDXK variant leading to impaired Vitamin B6 metabolism

Author

Keller, Natalie, Mendoza-Ferreira, Natalia, Maroofian, Reza, Chelban, Viorica, Khalil, Youssef, Mills, Philippa B., Boostani, Reza, Torbati, Paria Najarzadeh, Karimiani, Ehsan Ghayoor, Thiele, Holger, Houlden, Henry, Wirth, Brunhilde, Karakaya, Mert, Keller, Natalie, Mendoza-Ferreira, Natalia, Maroofian, Reza, Chelban, Viorica, Khalil, Youssef, Mills, Philippa B., Boostani, Reza, Torbati, Paria Najarzadeh, Karimiani, Ehsan Ghayoor, Thiele, Holger, Houlden, Henry, Wirth, Brunhilde, and Karakaya, Mert

Abstract

PDXK encodes for a pyridoxal kinase, which converts inactive B6 vitamers to the active cofactor pyridoxal 5'-phosphate (PLP). Recently, biallelic pathogenic variants in PDXK were shown to cause axonal Charcot-Marie-Tooth disease with optic atrophy that responds to PLP supplementation. We present two affected siblings carrying a novel biallelic missense PDXK variant with a similar phenotype with earlier onset. After detection of a novel PDXK variant using Whole Exome Sequencing, we confirmed pathogenicity through in silico protein structure analysis, determination of pyridoxal kinase activity using liquid chromatography-tandem mass spectrometry, and measurement of plasma PLP concentrations using high performance liquid chromatography. Our in silico analysis shows a potential effect on PDXK dimer stability, as well as a putative effect on posttranslational ubiquitination that is predicted to lead to increased protein degradation. We demonstrate that the variant leads to almost complete loss of PDXK enzymatic activity and low PLP levels. Our patients' early diagnosis and prompt PLP replacement restored the PLP plasma levels, enabling long-term monitoring of clinical outcomes. We recommend that patients presenting with similar phenotype should be screened for PDXK mutations, as this is a rare opportunity for treatment. (C) 2020 Elsevier B.V. All rights reserved.

Published

2020

9. Wilson lines in AdS/dCFT

Author

Bonansea, Sara, Idiab, Khalil Youssef, Kristjansen, Charlotte Fløe, Volk, Matthias, Bonansea, Sara, Idiab, Khalil Youssef, Kristjansen, Charlotte Fløe, and Volk, Matthias

Published

2020

10. Wilson lines in AdS/dCFT

Author

Bonansea, Sara, Idiab, Khalil Youssef, Kristjansen, Charlotte Fløe, Volk, Matthias, Bonansea, Sara, Idiab, Khalil Youssef, Kristjansen, Charlotte Fløe, and Volk, Matthias

Published

2020

11. Idiab, Khalil Youssef

Author

Idiab, Khalil Youssef and Idiab, Khalil Youssef

Published

2019