Single-stranded pre-methylated 5mC adapters uncover the methylation profile of plasma ultrashort Single-stranded cell-free DNA

Whole-genome bisulfite sequencing (BS-Seq) measures cytosine methylation changes at single-base resolution and can be used to profile cell-free DNA (cfDNA). In plasma, ultrashort single-stranded cfDNA (uscfDNA, ∼50 nt) has been identified together with 167 bp double-stranded mononucleosomal cell-fre...

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Veröffentlicht in:	Nucleic acids research 2024-06, Vol.52 (11), p.e50-e50
Hauptverfasser:	Cheng, Jordan C, Swarup, Neeti, Morselli, Marco, Huang, Wei-Lun, Aziz, Mohammad, Caggiano, Christa, Kordi, Misagh, Patel, Abhijit A, Chia, David, Kim, Yong, Li, Feng, Wei, Fang, Zaitlen, Noah, Krysan, Kostyantyn, Dubinett, Steve, Pellegrini, Matteo, Wong, David T W
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Schlagworte:	5-Methylcytosine - metabolism Cell-Free Nucleic Acids - blood Cell-Free Nucleic Acids - genetics CpG Islands DNA Methylation DNA, Single-Stranded - blood DNA, Single-Stranded - genetics DNA, Single-Stranded - metabolism Humans Lung Neoplasms - blood Lung Neoplasms - genetics Methods Promoter Regions, Genetic Sequence Analysis, DNA - methods Sulfites - chemistry Whole Genome Sequencing - methods
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creator	Cheng, Jordan C Swarup, Neeti Morselli, Marco Huang, Wei-Lun Aziz, Mohammad Caggiano, Christa Kordi, Misagh Patel, Abhijit A Chia, David Kim, Yong Li, Feng Wei, Fang Zaitlen, Noah Krysan, Kostyantyn Dubinett, Steve Pellegrini, Matteo Wong, David T W
description	Whole-genome bisulfite sequencing (BS-Seq) measures cytosine methylation changes at single-base resolution and can be used to profile cell-free DNA (cfDNA). In plasma, ultrashort single-stranded cfDNA (uscfDNA, ∼50 nt) has been identified together with 167 bp double-stranded mononucleosomal cell-free DNA (mncfDNA). However, the methylation profile of uscfDNA has not been described. Conventional BS-Seq workflows may not be helpful because bisulfite conversion degrades larger DNA into smaller fragments, leading to erroneous categorization as uscfDNA. We describe the '5mCAdpBS-Seq' workflow in which pre-methylated 5mC (5-methylcytosine) single-stranded adapters are ligated to heat-denatured cfDNA before bisulfite conversion. This method retains only DNA fragments that are unaltered by bisulfite treatment, resulting in less biased uscfDNA methylation analysis. Using 5mCAdpBS-Seq, uscfDNA had lower levels of DNA methylation (∼15%) compared to mncfDNA and was enriched in promoters and CpG islands. Hypomethylated uscfDNA fragments were enriched in upstream transcription start sites (TSSs), and the intensity of enrichment was correlated with expressed genes of hemopoietic cells. Using tissue-of-origin deconvolution, we inferred that uscfDNA is derived primarily from eosinophils, neutrophils, and monocytes. As proof-of-principle, we show that characteristics of the methylation profile of uscfDNA can distinguish non-small cell lung carcinoma from non-cancer samples. The 5mCAdpBS-Seq workflow is recommended for any cfDNA methylation-based investigations.
doi_str_mv	10.1093/nar/gkae276
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In plasma, ultrashort single-stranded cfDNA (uscfDNA, ∼50 nt) has been identified together with 167 bp double-stranded mononucleosomal cell-free DNA (mncfDNA). However, the methylation profile of uscfDNA has not been described. Conventional BS-Seq workflows may not be helpful because bisulfite conversion degrades larger DNA into smaller fragments, leading to erroneous categorization as uscfDNA. We describe the '5mCAdpBS-Seq' workflow in which pre-methylated 5mC (5-methylcytosine) single-stranded adapters are ligated to heat-denatured cfDNA before bisulfite conversion. This method retains only DNA fragments that are unaltered by bisulfite treatment, resulting in less biased uscfDNA methylation analysis. Using 5mCAdpBS-Seq, uscfDNA had lower levels of DNA methylation (∼15%) compared to mncfDNA and was enriched in promoters and CpG islands. Hypomethylated uscfDNA fragments were enriched in upstream transcription start sites (TSSs), and the intensity of enrichment was correlated with expressed genes of hemopoietic cells. Using tissue-of-origin deconvolution, we inferred that uscfDNA is derived primarily from eosinophils, neutrophils, and monocytes. As proof-of-principle, we show that characteristics of the methylation profile of uscfDNA can distinguish non-small cell lung carcinoma from non-cancer samples. 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In plasma, ultrashort single-stranded cfDNA (uscfDNA, ∼50 nt) has been identified together with 167 bp double-stranded mononucleosomal cell-free DNA (mncfDNA). However, the methylation profile of uscfDNA has not been described. Conventional BS-Seq workflows may not be helpful because bisulfite conversion degrades larger DNA into smaller fragments, leading to erroneous categorization as uscfDNA. We describe the '5mCAdpBS-Seq' workflow in which pre-methylated 5mC (5-methylcytosine) single-stranded adapters are ligated to heat-denatured cfDNA before bisulfite conversion. This method retains only DNA fragments that are unaltered by bisulfite treatment, resulting in less biased uscfDNA methylation analysis. Using 5mCAdpBS-Seq, uscfDNA had lower levels of DNA methylation (∼15%) compared to mncfDNA and was enriched in promoters and CpG islands. Hypomethylated uscfDNA fragments were enriched in upstream transcription start sites (TSSs), and the intensity of enrichment was correlated with expressed genes of hemopoietic cells. Using tissue-of-origin deconvolution, we inferred that uscfDNA is derived primarily from eosinophils, neutrophils, and monocytes. As proof-of-principle, we show that characteristics of the methylation profile of uscfDNA can distinguish non-small cell lung carcinoma from non-cancer samples. The 5mCAdpBS-Seq workflow is recommended for any cfDNA methylation-based investigations.</description><subject>5-Methylcytosine - metabolism</subject><subject>Cell-Free Nucleic Acids - blood</subject><subject>Cell-Free Nucleic Acids - genetics</subject><subject>CpG Islands</subject><subject>DNA Methylation</subject><subject>DNA, Single-Stranded - blood</subject><subject>DNA, Single-Stranded - genetics</subject><subject>DNA, Single-Stranded - metabolism</subject><subject>Humans</subject><subject>Lung Neoplasms - blood</subject><subject>Lung Neoplasms - genetics</subject><subject>Methods</subject><subject>Promoter Regions, Genetic</subject><subject>Sequence Analysis, DNA - methods</subject><subject>Sulfites - chemistry</subject><subject>Whole Genome Sequencing - methods</subject><issn>0305-1048</issn><issn>1362-4962</issn><issn>1362-4962</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpdkcFL5TAQxsOirE_d094lR0GqSZM2zUnkuauC6EHvIU0m71XTpiat4GX_diM-xfU0zMxvvpnhQ-g3JceUSHYy6HiyetRQivoHWlBWlwWXdbmFFoSRqqCENztoN6UHQiinFf-JdlgjpKhKskD_7rph5aFIU9SDBYvHCEUP0_rF6ymnVb_E2upxgpjwPJjwDBFPa8AfTBeGPBNc5wEHh0evU6_x7LNeWoc44e8LDHhfuAiAz2_O9tG20z7Br03cQ_d__9wvL4vr24ur5dl1YRgnU2E0WKsFd8YAbaVx3Fa24U44KYEbqFzDGil5U7atAMmctdwwkYtt6UjD9tDpu-w4tz1YA0O-xqsxdr2OLyroTv3fGbq1WoVnRSmVnIg6KxxuFGJ4miFNqu_S2yt6gDAnxUhNREVlTTN69I6aGFKK4D73UKLeHFPZMbVxLNMHX0_7ZD8sYq-eXZfK</recordid><startdate>20240624</startdate><enddate>20240624</enddate><creator>Cheng, Jordan C</creator><creator>Swarup, Neeti</creator><creator>Morselli, Marco</creator><creator>Huang, Wei-Lun</creator><creator>Aziz, Mohammad</creator><creator>Caggiano, Christa</creator><creator>Kordi, Misagh</creator><creator>Patel, Abhijit A</creator><creator>Chia, David</creator><creator>Kim, Yong</creator><creator>Li, Feng</creator><creator>Wei, Fang</creator><creator>Zaitlen, Noah</creator><creator>Krysan, Kostyantyn</creator><creator>Dubinett, Steve</creator><creator>Pellegrini, Matteo</creator><creator>Wong, David T W</creator><general>Oxford University Press</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0001-5352-4017</orcidid></search><sort><creationdate>20240624</creationdate><title>Single-stranded pre-methylated 5mC adapters uncover the methylation profile of plasma ultrashort Single-stranded cell-free DNA</title><author>Cheng, Jordan C ; 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In plasma, ultrashort single-stranded cfDNA (uscfDNA, ∼50 nt) has been identified together with 167 bp double-stranded mononucleosomal cell-free DNA (mncfDNA). However, the methylation profile of uscfDNA has not been described. Conventional BS-Seq workflows may not be helpful because bisulfite conversion degrades larger DNA into smaller fragments, leading to erroneous categorization as uscfDNA. We describe the '5mCAdpBS-Seq' workflow in which pre-methylated 5mC (5-methylcytosine) single-stranded adapters are ligated to heat-denatured cfDNA before bisulfite conversion. This method retains only DNA fragments that are unaltered by bisulfite treatment, resulting in less biased uscfDNA methylation analysis. Using 5mCAdpBS-Seq, uscfDNA had lower levels of DNA methylation (∼15%) compared to mncfDNA and was enriched in promoters and CpG islands. Hypomethylated uscfDNA fragments were enriched in upstream transcription start sites (TSSs), and the intensity of enrichment was correlated with expressed genes of hemopoietic cells. Using tissue-of-origin deconvolution, we inferred that uscfDNA is derived primarily from eosinophils, neutrophils, and monocytes. As proof-of-principle, we show that characteristics of the methylation profile of uscfDNA can distinguish non-small cell lung carcinoma from non-cancer samples. The 5mCAdpBS-Seq workflow is recommended for any cfDNA methylation-based investigations.</abstract><cop>England</cop><pub>Oxford University Press</pub><pmid>38797520</pmid><doi>10.1093/nar/gkae276</doi><orcidid>https://orcid.org/0000-0001-5352-4017</orcidid><oa>free_for_read</oa></addata></record>
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subjects	5-Methylcytosine - metabolism Cell-Free Nucleic Acids - blood Cell-Free Nucleic Acids - genetics CpG Islands DNA Methylation DNA, Single-Stranded - blood DNA, Single-Stranded - genetics DNA, Single-Stranded - metabolism Humans Lung Neoplasms - blood Lung Neoplasms - genetics Methods Promoter Regions, Genetic Sequence Analysis, DNA - methods Sulfites - chemistry Whole Genome Sequencing - methods
title	Single-stranded pre-methylated 5mC adapters uncover the methylation profile of plasma ultrashort Single-stranded cell-free DNA
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