Metabolism of Choline and Deuterated Choline Detected by 1H–14N 2D Heteronuclear Single-Quantum Coherence (HSQC) NMR

Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (1H) MR spectroscopy (MRS) in vivo, whereas active (dynamic) choline metabolism can be studied with deuterated choline and 2H MRS. The detected 1H and 2H choline signals represent th...

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Published inAnalytical chemistry (Washington) Vol. 97; no. 12; pp. 6586 - 6593
Main Authors de Graaf, Robin A., Thomas, Monique A., De Feyter, Henk M.
Format Journal Article
LanguageEnglish
Published Washington American Chemical Society 01.04.2025
Subjects
analytical chemistry
Blood plasma
Brain
Brain cancer
brain neoplasms
Brain tumors
Chemical equilibrium
Choline
Coherence
detection limit
Deuteration
Magnetic resonance spectroscopy
Metabolism
NMR
Nuclear magnetic resonance
Phosphocholine
phosphorylcholine
Quantum phenomena
rats
Sensitivity
spectroscopy
Tumors
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Abstract Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (1H) MR spectroscopy (MRS) in vivo, whereas active (dynamic) choline metabolism can be studied with deuterated choline and 2H MRS. The detected 1H and 2H choline signals represent the sum of choline, phosphocholine (PC) and glycerophosphocholine (GPC), preventing a detailed characterization of choline metabolism. Here we have developed a two-dimensional (2D) NMR method that allows the simultaneous detection of all protonated and deuterated choline-related compounds in excised tissue. The methodology relies on the high 1H detection sensitivity and chemical shift dispersion to distinguish between choline types, the sensitivity of the 14N chemical shift toward deuteration of nearby methyl groups and the presence of a 1H–14N scalar coupling between 14N and CH2 groups. With optimized sequence parameters, the utility of the method is demonstrated on extracts from cultured cancer cells, blood plasma and rat brain and brain tumor tissues.
AbstractList Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (1H) MR spectroscopy (MRS) in vivo, whereas active (dynamic) choline metabolism can be studied with deuterated choline and 2H MRS. The detected 1H and 2H choline signals represent the sum of choline, phosphocholine (PC) and glycerophosphocholine (GPC), preventing a detailed characterization of choline metabolism. Here we have developed a two-dimensional (2D) NMR method that allows the simultaneous detection of all protonated and deuterated choline-related compounds in excised tissue. The methodology relies on the high 1H detection sensitivity and chemical shift dispersion to distinguish between choline types, the sensitivity of the 14N chemical shift toward deuteration of nearby methyl groups and the presence of a 1H–14N scalar coupling between 14N and CH2 groups. With optimized sequence parameters, the utility of the method is demonstrated on extracts from cultured cancer cells, blood plasma and rat brain and brain tumor tissues.
Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (1H) MR spectroscopy (MRS) in vivo, whereas active (dynamic) choline metabolism can be studied with deuterated choline and 2H MRS. The detected 1H and 2H choline signals represent the sum of choline, phosphocholine (PC) and glycerophosphocholine (GPC), preventing a detailed characterization of choline metabolism. Here we have developed a two-dimensional (2D) NMR method that allows the simultaneous detection of all protonated and deuterated choline-related compounds in excised tissue. The methodology relies on the high 1H detection sensitivity and chemical shift dispersion to distinguish between choline types, the sensitivity of the 14N chemical shift toward deuteration of nearby methyl groups and the presence of a 1H-14N scalar coupling between 14N and CH2 groups. With optimized sequence parameters, the utility of the method is demonstrated on extracts from cultured cancer cells, blood plasma and rat brain and brain tumor tissues.Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (1H) MR spectroscopy (MRS) in vivo, whereas active (dynamic) choline metabolism can be studied with deuterated choline and 2H MRS. The detected 1H and 2H choline signals represent the sum of choline, phosphocholine (PC) and glycerophosphocholine (GPC), preventing a detailed characterization of choline metabolism. Here we have developed a two-dimensional (2D) NMR method that allows the simultaneous detection of all protonated and deuterated choline-related compounds in excised tissue. The methodology relies on the high 1H detection sensitivity and chemical shift dispersion to distinguish between choline types, the sensitivity of the 14N chemical shift toward deuteration of nearby methyl groups and the presence of a 1H-14N scalar coupling between 14N and CH2 groups. With optimized sequence parameters, the utility of the method is demonstrated on extracts from cultured cancer cells, blood plasma and rat brain and brain tumor tissues.
Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (¹H) MR spectroscopy (MRS) in vivo, whereas active (dynamic) choline metabolism can be studied with deuterated choline and ²H MRS. The detected ¹H and ²H choline signals represent the sum of choline, phosphocholine (PC) and glycerophosphocholine (GPC), preventing a detailed characterization of choline metabolism. Here we have developed a two-dimensional (2D) NMR method that allows the simultaneous detection of all protonated and deuterated choline-related compounds in excised tissue. The methodology relies on the high ¹H detection sensitivity and chemical shift dispersion to distinguish between choline types, the sensitivity of the ¹⁴N chemical shift toward deuteration of nearby methyl groups and the presence of a ¹H–¹⁴N scalar coupling between ¹⁴N and CH₂ groups. With optimized sequence parameters, the utility of the method is demonstrated on extracts from cultured cancer cells, blood plasma and rat brain and brain tumor tissues.
Author De Feyter, Henk M.
Thomas, Monique A.
de Graaf, Robin A.
AuthorAffiliation Department of Biomedical Engineering
Yale University
Magnetic Resonance Research Center (MRRC), Department of Radiology and Biomedical Imaging
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Snippet Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (1H) MR spectroscopy (MRS) in vivo,...
Choline is an essential nutrient that plays a critical role in tumor growth. Choline levels can be detected by proton (¹H) MR spectroscopy (MRS) in vivo,...
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SubjectTerms analytical chemistry
Blood plasma
Brain
Brain cancer
brain neoplasms
Brain tumors
Chemical equilibrium
Choline
Coherence
detection limit
Deuteration
Magnetic resonance spectroscopy
Metabolism
NMR
Nuclear magnetic resonance
Phosphocholine
phosphorylcholine
Quantum phenomena
rats
Sensitivity
spectroscopy
Tumors
Title Metabolism of Choline and Deuterated Choline Detected by 1H–14N 2D Heteronuclear Single-Quantum Coherence (HSQC) NMR
URI http://dx.doi.org/10.1021/acs.analchem.4c06235
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Volume 97
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