Meta-analysis of NAD(P)(H) quantification results exhibits variability across mammalian tissues

Nicotinamide Adenine Dinucleotide (NAD + ) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD + metabolism and NAD + -boosting therapies has reinforced the necessity for accurate NAD + quantification. To examine t...

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Published in	Scientific reports Vol. 13; no. 1; pp. 2464 - 13
Main Authors	Azouaoui, Dassine, Choinière, Michael René, Khan, Momtafin, Sayfi, Shahab, Jaffer, Simran, Yousef, Selvia, Patten, David A., Green, Alexander E., Menzies, Keir J.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 11.02.2023 Nature Publishing Group Nature Portfolio
Subjects	631/45/320 692/53/2421 Animal tissues Animals Biosynthesis Dehydrogenases Energy Metabolism Enzymes Health sciences Homeostasis Humanities and Social Sciences Humans Mammals Mammals - metabolism Mass spectrometry Meta-analysis Metabolism Metabolites Mice multidisciplinary NAD NAD - metabolism Physiology Rats Science Science (multidisciplinary) Scientific imaging Signal transduction Standardization
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Abstract	Nicotinamide Adenine Dinucleotide (NAD + ) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD + metabolism and NAD + -boosting therapies has reinforced the necessity for accurate NAD + quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies.
AbstractList	Nicotinamide Adenine Dinucleotide (NAD + ) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD + metabolism and NAD + -boosting therapies has reinforced the necessity for accurate NAD + quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies. Nicotinamide Adenine Dinucleotide (NAD ) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD metabolism and NAD -boosting therapies has reinforced the necessity for accurate NAD quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies. Abstract Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD+ metabolism and NAD+-boosting therapies has reinforced the necessity for accurate NAD+ quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies. Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD+ metabolism and NAD+-boosting therapies has reinforced the necessity for accurate NAD+ quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies.Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD+ metabolism and NAD+-boosting therapies has reinforced the necessity for accurate NAD+ quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies. Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD+ metabolism and NAD+-boosting therapies has reinforced the necessity for accurate NAD+ quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies.
ArticleNumber	2464
Author	Green, Alexander E. Sayfi, Shahab Khan, Momtafin Jaffer, Simran Yousef, Selvia Azouaoui, Dassine Patten, David A. Choinière, Michael René Menzies, Keir J.
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Snippet	Nicotinamide Adenine Dinucleotide (NAD + ) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The... Nicotinamide Adenine Dinucleotide (NAD ) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The... Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The... Abstract Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions....
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SubjectTerms	631/45/320 692/53/2421 Animal tissues Animals Biosynthesis Dehydrogenases Energy Metabolism Enzymes Health sciences Homeostasis Humanities and Social Sciences Humans Mammals Mammals - metabolism Mass spectrometry Meta-analysis Metabolism Metabolites Mice multidisciplinary NAD NAD - metabolism Physiology Rats Science Science (multidisciplinary) Scientific imaging Signal transduction Standardization
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Title	Meta-analysis of NAD(P)(H) quantification results exhibits variability across mammalian tissues
URI	https://link.springer.com/article/10.1038/s41598-023-29607-8 https://www.ncbi.nlm.nih.gov/pubmed/36774401 https://www.proquest.com/docview/2775341377 https://www.proquest.com/docview/2775613664 https://pubmed.ncbi.nlm.nih.gov/PMC9922293 https://doaj.org/article/0cb6e7de8f154752b77916bf0ed276ab
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