Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome

Germline heterozygous PTEN mutations cause subsets of Cowden syndrome (CS) and Bannayan-Riley-Ruvalcaba syndrome (BRRS); these subsets are characterized by high risks of breast, thyroid, and other cancers and, in one subset, autism spectrum disorder (ASD). Up to 10% of individuals with PTEN(MUT) CS,...

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Autores principales: Yehia, Lamis, Ni, Ying, Feng, Fang, Seyfi, Marilyn, Sadler, Tammy, Frazier, Thomas W., Eng, Charis
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2019
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6817552/
https://www.ncbi.nlm.nih.gov/pubmed/31564436
http://dx.doi.org/10.1016/j.ajhg.2019.09.004
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author Yehia, Lamis
Ni, Ying
Feng, Fang
Seyfi, Marilyn
Sadler, Tammy
Frazier, Thomas W.
Eng, Charis
author_facet Yehia, Lamis
Ni, Ying
Feng, Fang
Seyfi, Marilyn
Sadler, Tammy
Frazier, Thomas W.
Eng, Charis
author_sort Yehia, Lamis
collection PubMed
description Germline heterozygous PTEN mutations cause subsets of Cowden syndrome (CS) and Bannayan-Riley-Ruvalcaba syndrome (BRRS); these subsets are characterized by high risks of breast, thyroid, and other cancers and, in one subset, autism spectrum disorder (ASD). Up to 10% of individuals with PTEN(MUT) CS, CS-like syndrome, or BRRS have germline SDHx (succinate dehydrogenase, mitochondrial complex II) variants, which modify cancer risk. PTEN contributes to metabolic reprogramming; this is a well-established role in a cancer context. Relatedly, SDH sits at the crossroad of the electron transport chain and tricarboxylic acid (TCA) cycle, two central bioenergetic pathways. Intriguingly, PTEN(MUT) and SDH(MUT) individuals have reduced SDH catalytic activity, resulting in succinate accumulation; this indicates a common genotype-independent biochemical alteration. Here, we conducted a TCA targeted metabolomics study on 511 individuals with CS, CS-like syndrome, or BRRS with various genotypes (PTEN or SDHx, mutant or wild type [WT]) and phenotypes (cancer or ASD) and a series of 187 population controls. We found consistent TCA cycle metabolite alterations in cases with various genotypes and phenotypes compared to controls, and we found unique correlations of individual metabolites with particular genotype-phenotype combinations. Notably, increased isocitrate (p = 1.2 × 10(−3)), but reduced citrate (p = 5.0 × 10(−4)), were found to be associated with breast cancer in individuals with PTEN(MUT)/SDHx(WT). Conversely, increased lactate was associated with neurodevelopmental disorders regardless of genotype (p = 9.7 × 10(−3)); this finding was replicated in an independent validation series (n = 171) enriched for idiopathic ASD (PTEN(WT), p = 5.6 × 10(−4)). Importantly, we identified fumarate (p = 1.9 × 10(−2)) as a pertinent metabolite, distinguishing individuals who develop ASD from those who develop cancer. Our observations suggest that TCA cycle metabolite alterations are germane to the pathobiology of PTEN-related CS and BRRS, as well as genotype-independent ASD, with implications for potential biomarker and/or therapeutic value.
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spelling pubmed-68175522020-04-03 Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome Yehia, Lamis Ni, Ying Feng, Fang Seyfi, Marilyn Sadler, Tammy Frazier, Thomas W. Eng, Charis Am J Hum Genet Article Germline heterozygous PTEN mutations cause subsets of Cowden syndrome (CS) and Bannayan-Riley-Ruvalcaba syndrome (BRRS); these subsets are characterized by high risks of breast, thyroid, and other cancers and, in one subset, autism spectrum disorder (ASD). Up to 10% of individuals with PTEN(MUT) CS, CS-like syndrome, or BRRS have germline SDHx (succinate dehydrogenase, mitochondrial complex II) variants, which modify cancer risk. PTEN contributes to metabolic reprogramming; this is a well-established role in a cancer context. Relatedly, SDH sits at the crossroad of the electron transport chain and tricarboxylic acid (TCA) cycle, two central bioenergetic pathways. Intriguingly, PTEN(MUT) and SDH(MUT) individuals have reduced SDH catalytic activity, resulting in succinate accumulation; this indicates a common genotype-independent biochemical alteration. Here, we conducted a TCA targeted metabolomics study on 511 individuals with CS, CS-like syndrome, or BRRS with various genotypes (PTEN or SDHx, mutant or wild type [WT]) and phenotypes (cancer or ASD) and a series of 187 population controls. We found consistent TCA cycle metabolite alterations in cases with various genotypes and phenotypes compared to controls, and we found unique correlations of individual metabolites with particular genotype-phenotype combinations. Notably, increased isocitrate (p = 1.2 × 10(−3)), but reduced citrate (p = 5.0 × 10(−4)), were found to be associated with breast cancer in individuals with PTEN(MUT)/SDHx(WT). Conversely, increased lactate was associated with neurodevelopmental disorders regardless of genotype (p = 9.7 × 10(−3)); this finding was replicated in an independent validation series (n = 171) enriched for idiopathic ASD (PTEN(WT), p = 5.6 × 10(−4)). Importantly, we identified fumarate (p = 1.9 × 10(−2)) as a pertinent metabolite, distinguishing individuals who develop ASD from those who develop cancer. Our observations suggest that TCA cycle metabolite alterations are germane to the pathobiology of PTEN-related CS and BRRS, as well as genotype-independent ASD, with implications for potential biomarker and/or therapeutic value. Elsevier 2019-10-03 2019-09-26 /pmc/articles/PMC6817552/ /pubmed/31564436 http://dx.doi.org/10.1016/j.ajhg.2019.09.004 Text en © 2019 The Author(s) http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Yehia, Lamis
Ni, Ying
Feng, Fang
Seyfi, Marilyn
Sadler, Tammy
Frazier, Thomas W.
Eng, Charis
Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome
title Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome
title_full Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome
title_fullStr Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome
title_full_unstemmed Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome
title_short Distinct Alterations in Tricarboxylic Acid Cycle Metabolites Associate with Cancer and Autism Phenotypes in Cowden Syndrome and Bannayan-Riley-Ruvalcaba Syndrome
title_sort distinct alterations in tricarboxylic acid cycle metabolites associate with cancer and autism phenotypes in cowden syndrome and bannayan-riley-ruvalcaba syndrome
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6817552/
https://www.ncbi.nlm.nih.gov/pubmed/31564436
http://dx.doi.org/10.1016/j.ajhg.2019.09.004
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